SNS Phase 1 Decommissioning Project: Comparative Assessment Report for the Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
A part of BMT in Energy and Environment
ConocoPhillips Reference:
BMT-SNS-P-XX-X-HS-02-00012
BMT Cordah Reference: A.CON.102
Client: ConocoPhillips (U.K.) Limited
Date: 21 April 2015
Confidential
Version: Rev.C3.1
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Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
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Document Title SNS Phase 1 Decommissioning Project: Comparative Assessment Report for the Viking VDP1 and LOGGS LDP1 Infield Pipelines
Client Project Title SNS Phase 1 Decommissioning Project
Client ConocoPhillips (U.K.) Limited
BMT Cordah Document Ref. A.CON.102
Client Document Ref. BMT-SNS-P-XX-X-HS-02-00012
Rev. C3.1
Terms This report is confidential. No part may be cited without the express permission of BMT Cordah Ltd or ConocoPhillips. It must not be published or made available in any publicly available from such as a website without written permission. Additionally, to minimise the risk of identity fraud, this page containing signatures must be removed.
Rev. Description Prepared Checked Approved Date
A1 First draft issued to client G Jones
D Morgan
D Sell
D Bastrikin
J Ferris N Di Perno 10/10/2014
B1 Second draft to client G Jones D Morgan J Ferris 17/10/2014
C1 Final draft issued to client
G Jones D Sell J Ferris 09/01/2015
C2 Final adjustments following clarification from client
G Jones D Sell J Ferris 12/01/2015
C3 Final draft following DECC comments
D Bastrikin C Hinton J Ferris 11/02/2015
C3.1 Addressed additional comments form DECC
G Jones D Morgan J Ferris 21/04/2015
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Contents
ABBREVIATIONS ........................................................................................................... III
NON-TECHNICAL SUMMARY ....................................................................................... V
1.0 INTRODUCTION ............................................................................................... 1
1.1 Background ....................................................................................................... 1
1.2 Infrastructure Within The Scope Of This CA ...................................................... 2
1.3 Infrastructure And Materials Not Within This CA................................................ 2
1.4 Environmental and Societal Setting ................................................................... 7
2.0 DECOMMISSIONING OPTIONS ASSESSED IN THE CA .............................. 12
2.1 General Assumptions ...................................................................................... 12
3.0 COMPARATIVE ASSESSMENT METHODOLOGY ....................................... 14
3.1 Comparative Assessment Workshops ............................................................. 14
3.2 Assessment Criteria ........................................................................................ 16
3.3 Assessment Scoring ....................................................................................... 18
4.0 COMPARATIVE ASSESSMENT RESULTS ................................................... 19
4.1 Technical Feasibility Differentiation ................................................................. 21
4.2 Safety Differentiation ....................................................................................... 22
4.3 Environmental Impact Differentiation ............................................................... 23
4.4 Energy and Emissions Differentiation .............................................................. 25
4.5 Societal Impact Differentiation ......................................................................... 29
4.6 Cost Differentiation .......................................................................................... 32
5.0 CONCLUSIONS .............................................................................................. 34
6.0 IN SUMMARY ................................................................................................. 37
7.0 REFERENCES ............................................................................................... 38
APPENDICES ................................................................................................................ 41
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ABBREVIATIONS
Abbreviation Meaning
Al Aluminium
BMT British Maritime Technology
BOD Biological Oxygen Demand
CA Comparative Assessment
CI Corrosion Inhibitor
CMS Caister Murdoch System
CO2 Carbon Dioxide
CSV Construction Support Vessel
DAWN Decommissioning Assurance through Waste Management
DECC Department of Energy and Climate Change
Defra Department for Food and Rural Affairs
DP Decommissioning Programme
DSV Diving Support Vessel
EIA Environmental Impact Assessment
ES Environmental Statement
EUNIS European Nature Information Service
FAR Fatal Accident Rate
FLO Fisheries Liaison Officer
GHG Greenhouse Gas
GJ Giga Joules
ICES International Council for the Exploration of the Sea
IoP Institute of Petroleum
JNCC Joint Nature Conservation Committee
km kilometres
LOGGS Lincolnshire Offshore Gas Gathering System
Ltd Limited
m metres
MARPOL International Convention for the Prevention of Pollution from Ships
MeOH Methanol
MMO Marine Mammal Observer
MOD Ministry of Defence
MSV Multi Support Vessel
ND No Data
NFFO National Federation of Fishermen’s Organisations
NORM Naturally Occurring Radioactive Material
NTS Non-Technical Summary
OGP International Association of Oil and Gas Producers
PLL Potential Loss of Life
POB Personnel on Board
ppm parts per million
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Abbreviation Meaning
ROV Remotely Operated Vehicle
ROVSV Remotely Operated Vehicle Support Vessel
SAC Special Area of Conservation
SCI Site of Community Importance
SNS Southern North Sea
SPA Special Protection Area
Te Tonnes
TGT Theddlethorpe Gas Terminal
UK United Kingdom
UKCS United Kingdom Continental Shelf
WOW Wait on Weather
Zn Zinc
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NON-TECHNICAL SUMMARY
ConocoPhillips (U.K.) Limited (ConocoPhillips) undertook a Comparative Assessment of
the feasible decommissioning options for the infield pipelines included in the
Decommissioning Programmes (DPs), VDP1 which will cover part of the Viking area
infrastructure and the second programme, LDP1 which will cover LOGGS infrastructure
as part of its southern North Sea Phase 1 Decommissioning Project. The infrastructure
covered by this Comparative Assessment includes:
Ten Viking infield pipelines (five gas lines and five methanol lines) included under VDP1; and
Six LOGGS infield pipelines (three gas lines and three methanol lines) included under LDP1.
The facilities and pipelines to be decommissioned are located within the North Norfolk
Sandbanks and Saturn Reef Site of Community Importance. This area has been
designated for the protection of two European Annex I habitats. These habitats are
‘Sandbanks which are slightly covered by sea water all the time’ and ‘Reefs’, biogenic
reef, Sabellaria spinulosa. The Joint Nature Conservation Committee has classified this
site as representing good ‘conservation’ examples of these habitats.
The Comparative Assessment provided a framework for assessing proposed options and
assigning scores to five main criteria, further divided into seven sub-criteria (Technical
Feasibility [Technical Feasibility; Risk of Project Failure], Safety [Potential Loss of Life],
Environmental [Environmental Risk; Energy Usage & CO2 Emissions], Societal
[Socioeconomic Impact/ Risk], and Cost). The scores were then ranked and weighted to
allow direct comparisons between the criteria for each option. This enabled a balanced
and transparent comparison in order to identify a preferred option for decommissioning of
the VDP1 and LDP1 infield pipelines.
As part of the comparative assessment process, ConocoPhillips also undertook two
workshops to assess the technical feasibility of potential decommissioning options and
evaluate the environmental and societal impacts from the activities/ operations of the
technically feasible options taken forward.
From an initial list of options for decommissioning of the pipelines, a technical feasibility
assessment selected five options which were taken forward for further assessment
through the comparative assessment process, these included:
Option 1: Full Removal – Reverse S-Lay/ Reel;
Option 2: Full Removal – Cut and Lift;
Option 3: Partial Removal – Cut and Lift;
Option 4: Decommission in situ – Minor Intervention; and
Option 5: Decommission in situ – Minimum Intervention.
Minor intervention relates to the removal of all mattresses, where safe to do so, and rock
placement on all exposed sections of the pipeline. Under minimum intervention
mattresses will remain in situ with no additional rock-placement along the pipeline length.
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The minimum intervention will also entail rock-placement of a maximum of 25 tonnes on
each cut pipeline end.
The results of the Comparative Assessment revealed the main differentiators between
criteria to be Environmental Aspects, Safety (Potential Loss of Life) and Cost.
The Comparative Assessment concluded that Option 5: Decommission in situ – Minimum
Intervention is the preferred option for decommissioning the VDP1 and LDP1 infield
pipelines. This option would result in minimal disturbance to the marine protected area
within which the VDP1 and LDP1 infrastructure is situated and scored highest in the
environmental aspects (Environmental Risk, Energy Usage and Emissions). Other
aspects that differentiated Option 5 from the others included Safety (Potential Loss of
Life) and Cost, due in-part to the minimum number of vessel activities required for
decommissioning of the pipelines. However, there is the potential for a slightly greater
risk to other sea users due to the pipework being decommissioned in situ in the current
burial state with all mattresses and current protection left in place. However,
decommissioning the mattresses in situ would minimise additional disturbance to the
seabed and also would remove the need to deploy additional rock-placement over the
pipelines to ensure future stability. Decommissioning the mattresses in situ would be
considered a re-use of the mattresses as a stabilising medium for maintaining burial of
the pipelines, whilst not introducing additional foreign material, such as quarried rock,
into the marine environment including the North Norfolk Sandbanks and Saturn Reef Site
of Community Importance.
ConocoPhillips will endeavour to manage this risk by ensuring that an accurate record of
the location of the pipelines and mattress protection is documented and that this is
translated to navigational charts and aids. Full overtrawlability surveys will be undertaken
within the 500 m safety exclusion zones where stabilisation features predominantly exist
and at locations where mattresses are identified. In addition, there will be a commitment
to a suitable and appropriate monitoring programme agreed with the Department for
Energy and Climate Change.
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1.0 INTRODUCTION
This report describes the Comparative Assessment (CA) of technically feasible
decommissioning options for Viking VDP1 and LOGGS LDP1 infield pipelines, which
ConocoPhillips (U.K.) Limited (ConocoPhillips) carried out as part of the southern North
Sea (SNS) Phase 1 Decommissioning Project.
The CA has been undertaken in line with Department of Energy and Climate Change
(DECC) ‘Guidance Notes: Decommissioning of Offshore Oil and Gas Installations and
Pipelines under the Petroleum Act 1998’ (DECC, 2011).
1.1 Background
Within the SNS, ConocoPhillips operate three main gas areas: the Caister Murdoch
System (CMS), and the Viking and Lincolnshire Offshore Gas Gathering System
(LOGGS) comprising 42 platforms, 157 wells and associated pipelines.
The Viking Area comprises eight gas fields (Viking A, Viking B, Viking C, Viking D, Viking
E, Victor, Vixen and Victoria). The Viking gas fields are located in the SNS,
approximately 130 km east of the Lincolnshire coast, in UKCS Blocks 49/11d, 49/12a,
49/16c and 49/17a. Gas from the Viking fields is tied back to the Viking ”B complex” and
exported to LOGGS, commingled with the gas from LOGGS and transported to the
Theddlethorpe Gas Terminal (TGT) via a 118 km 28” diameter pipeline. The LOGGS
area comprises 16 gas fields (South Valiant, North Valiant, Vanguard, Vulcan, Vampire,
Viscount, Valkyrie, Ganymede, Sinope, Europa, Callisto, NW Bell, Alison Kx, Saturn,
Mimas, and Tethys). These fields are located in the SNS approximately 130 km east of
the Lincolnshire coast in Blocks 48/09, 48/10, 48/20, 48/25, 49/11, 49/16, 49/17, 49/21,
49/22, and 49/23.
ConocoPhillips propose to decommission the Viking and LOGGS fields and facilities in a
phased approach. This commenced with the pre-planning stages to investigate feasible
alternative uses and the CAs for the potential decommissioning and disposal options for
the SNS pipelines due to be decommissioned within Phase 1.
This CA report covers the pipelines and subsea infrastructure relating to the two
decommissioning programs, Viking VDP1 and LOGGS LDP1, which will be conducted as
part of the Phase 1 SNS Decommissioning Project. The infrastructure included in these
DPs is detailed in Section 1.3.
The initial infrastructure to be decommissioned and included as part of VDP1 (Figure 1.1)
and LDP1 (Figure 1.2) is located in UKCS Blocks 48/25, 49/16, 49/17 and 49/21 and
comprises 16 pipelines, 8 satellite platforms and associated subsea structures and
protection.
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1.2 Infrastructure Within The Scope Of This CA
The pipelines within the VDP1 and LDP1 areas are shown in Figures 1.1 and 1.2,
respectively, and are itemised in Table 1.1. These comprise:
Ten buried pipelines included in the VDP1; and
Six buried pipelines included in the LDP1.
The depth of cover range in Table 1.1 indicates where the top of the pipeline lies in
relation to the seabed surface. A negative number indicates where the top of the pipeline
is above the level of the seabed. However, it should be noted that a negative number
does not mean the pipeline is exposed, in certain circumstances the pipeline is on the
seabed surface but covered by either rock-placement or protective mattresses. The
coverage is often greatest at, or near to, the platform ends where the pipeline emerges to
enter the J turn into the platform. Details of any exposed sections and associated spans
are presented in Table 1.2.
The work scope for decommissioning the sixteen pipelines will be discrete and in
isolation of the decommissioning of other SNS infrastructure. This simplification enables
a clear boundary to be placed around the assessments to be made under the scope of
this CA.
The status of pre-existing exposed/ spanning lengths of pipeline could affect the method
of decommissioning (Table 1.2). These sections have been identified through various
surveys undertaken for ConocoPhillips (Table 1.3). The lengths of exposed pipelines
provided in Table 1.2 have been used to calculate the section lengths s that may need to
be removed or reburied during decommissioning.
1.3 Infrastructure And Materials Not Within This CA
In accordance with Section 7 of the DECC Guidance (DECC, 2011), a CA is not
necessary for elements of DP involving full removal of associated structures for re-use,
recycling or final disposal on land. All of the structural components to be
decommissioned in this manner can therefore be excluded from the CA scope. For the
VDP1 and LDP1 infield pipeline infrastructure these are:
Removal of the T-piece subsea structure at the Vampire OD platform;
Rock-placement to cover the cut ends of pipelines and pipeline crossings; and
Crossings to be left in situ.
The T-piece subsea structure is a T shaped ROV (Remotely Operated Vehicle) operated
manifold situated within a protection structure; it has tie-in spools to and from the
Viscount platform, the Vampire platform and the LOGGS PR complex.
These items, including pipeline cleaning to an acceptable standard, are potentially the
same across all options and any work associated with them has not been accounted for
in this CA. The ES for the VDP1 and LDP1 infrastructure will address all of the elements
to be decommissioned.
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Figure 1.1: The Viking Area infield infrastructure to be decommissioned (VDP1)
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
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Figure 1.2: The LOGGS Area infrastructure to be decommissioned (LDP1)
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Table 1.1: VDP1 and LDP1 infield pipelines within the scope of the SNS Phase 1 Decommissioning Project
Area Pipeline Pipeline Description Installed Installation Method Pipeline Status
Depth of Cover (Range in m)*
Mean Depth of Cover (m)
Length (km) Survey Year**
VDP1 Viking BD to Viking CD 12” gas infield (PL0089); 2” methanol (piggybacked)
(PL0132))
1974 Buried Out of use -0.60 to 3.00 0.77 3.9 2011
Viking BD to Viking DD 12” gas infield (PL0090); 2” methanol (piggybacked )
(PL0131)
1974 Buried Out of use -0.60 to 2.80 1.41 4.1 2011
Viking BD to Viking ED 12” gas infield (PL0091); 2” methanol (piggybacked)
(PL0133)
1975 Buried Operational -1.20 to 2.80 0.48 12 2011
Viking BD to Viking GD 12” gas infield (PL0092) ; 2” methanol (piggybacked)
(PL0066)
1975 Buried Out of use -0.60 to 2.70 0.45 5.1 2011
Viking BD to Viking HD 12” gas infield (PL0093); 2” methanol (piggybacked)
(PL0130
1974 Buried Out of use -1.10 to 3.10 0.42 5.6 2011
LDP1 Vulcan UR to Vulcan RD 12” gas infield (PL0462); 3” methanol (piggybacked)
(PL0463)
1987 Buried Out of use 0.30 to 2.60 1.45 3.7 2011
Viscount VO to Vampire OD
12” gas infield (PL1962); 3” methanol (piggybacked)
(PL1963)
2002 Buried Operational 0.14 to 2.57 1.17 11.3 2012
Vampire OD to LOGGS PR
12” gas infield (PL1692); 3” methanol (piggybacked)
(PL1693)
1999 Buried Operational 0.18 to 2.44 1.13 9 2012
*A negative number indicates where the pipeline is above the seabed; however this can be either exposed or covered by mattresses or rock-placement.
**Further pipeline surveys were conducted during 2014 post the completion of the comparative assessment process. The 2014 survey outcomes are consistent with the previous survey results.
[Source: ConocoPhillips, 2012]
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Table 1.2: VDP1 and LDP1 pipeline exposure status
Pipeline
Pipeline Status
Length of pipeline (m)
Length surveyed (m)
Length of surveyed pipeline
exposed/ [spanning] (m)
% of surveyed pipeline
exposed/ [spanning]
Max height of span
(m)
No. of reportable
spans
Year of survey*1
Viking BD to Viking CD - PL0089 & PL0132
3,900 2,954 64 [39] 2.2 [1.3] 0.18 None 2012
Viking BD to Viking DD - PL0090 & PL0131
4,100 2,879 16 [0] 0.5 [0] _
None 2012
Viking BD to Viking ED - PL0091 & PL0133
12,000 11,965 3,893 [11] 32.5 [0.1] 0.22 None 2011
Viking BD to Viking GD - PL0092 & PL0066
5,100 4,023 133 [0] 3.3 [0] _
None 2012
Viking BD to Viking HD - PL0093 & PL0130
5,600 5,600 639 [157] 11.3 [0.2] 0.75 None 2011
Vulcan UR to Vulcan RD - PL0462 & PL0463
3,700 3,700 21 [0] 0.6 [0] _
None 2011
Vampire OD to LOGGS PR - PL1692 & PL1693
9,000 8,694 6 [0] 0.1 [0] _
None 2012
Viscount VO to Vampire OD - PL1962 & PL1963
11,300 10,277 0.3 [0] 0 [0] _
None 2012
Sources: Costain (2014c), Fugro, 2012
*Data has been taken from the year with the maximum length surveyed. 1Further pipeline surveys were conducted during 2014 post the completion of the comparative assessment process. The 2014 survey outcomes are consistent with the previous survey results.
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Table 1.3: Studies commissioned by ConocoPhillips to support the SNS Phase 1 Decommissioning Project.
Survey Reference Survey Title
BMT Cordah, 2014a Noise Assessment Report for the SNS Phase 1 Decommissioning Project: Aspects Associated with the Viking and LOGGS satellite platforms and infield pipelines
Brown and May, 2014
Commercial Fisheries Socioeconomic Impact Study Viking and LOGGS Fields Decommissioning for ConocoPhillips
ConocoPhillips, 2014 SNS phase 1 Decommissioning Project: Socioeconomic and Environmental Impact Assessment Scoping Report
Costain, 2014a Pipeline Materials Inventory and Degradation Technical Note
Costain, 2014b Pipeline Cleaning Technical Note – Infield Pipelines
Costain, 2014c Pipeline Burial Technical Note
Costain, 2014d Mattress Inventory and Removal Technical Note
D3, 2014a Stage 1 Materials Inventory
D3, 2014b Stage 2 Materials Inventory
Fugro, 2013a ConocoPhillips (U.K.) Limited SNS decommissioning survey. UKCS 48 and 49. Viking AR, CD, DD, ED, GD, and HD. Habitat Assessment Report J/1/20/2342-3
Fugro, 2013b ConocoPhillips (U.K.) Limited SNS decommissioning survey. UKCS 48 and 49. Viscount VO, Vulcan UR and Vampire/Valkyrie OD (LOGGS). Habitat Assessment Report J/1/20/2342-2
Fugro, 2013c ConocoPhillips (U.K.) Limited SNS decommissioning survey. UKCS 48 and 49. Viking AR, Viking CD and Viking GD. Decommissioning Environmental Report J/1/20/2342
Fugro, 2013d ConocoPhillips (U.K.) Limited SNS decommissioning survey. UKCS 48 and 49. Viscount VO, Vulcan UR and Vampire/Valkyrie OD (LOGGS). Decommissioning Environmental Report J/1/20/2342
1.4 Environmental and Societal Setting
A key concern regarding the decommissioning of the infield pipelines included in VDP1
and LDP1 is that all of the pipelines are sited within the North Norfolk Sandbanks and
Saturn Reef Site of Community Importance (SCI). This SCI has been designated for the
protection of two Annex I habitats that have been identified within the SCI. These
habitats are ‘Sandbanks which are slightly covered by sea water all the time’ and ‘Reefs
(specifically, the biogenic reef, Sabellaria spinulosa). The Joint Nature Conservation
Committee (JNCC) has classified the SCI as representing good ‘conservation’ examples
of these habitats (JNCC, 2014).
S. spinulosa were identified in several historic survey reports within and adjacent to the
VDP1 and LDP1 areas. Recent surveys (Fugro, 2013 a-d) carried out within 2 km of
each of the VDP1 and LDP1 platforms observed only occasional, patchy, fragmented
areas of S. spinulosa; these patches would not be classified as ‘reef’ under the JNCC S.
spinulosa reef definition guidance (JNCC, 2007).
Sediments in the decommissioning areas comprise fine to coarse sands, often silty and
with variable amounts of shell fragments and occasional pebbles and cobbles. The highly
dynamic marine environment restricts the silt and clay content to less than 5%.
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Side-scan sonar images from the recent Fugro surveys and historic pipeline monitoring
surveys show evidence of exposure on the pipelines included in both DPs and resulting
from the mobile seabed. As stated above, Table 1.2 summarises the level of exposure
observed from previous pipeline monitoring surveys. Figures 1.3a, 1.3b and 1.4 illustrate
some of the seabed features present due to the dynamic nature of the seabed
conditions. These figures also illustrates some of the Annex I features characteristic of
the SCI.
Appendix A summarises the environmental and socioeconomic characteristics and
sensitivities of the sea area surrounding the VDP1 and LDP1 infrastructure.
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[Source: Fugro, 2013a; Fugro, 2013b]
Figure 1.3a: Viking VDP1 area seabed features
Exposed pipeline Scour around wreck Scour around platform Sand ripples Sand waves Scour around platform
Viking CD Viking DD Viking ED
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[Source: Fugro, 2013a; Fugro, 2013b]
Figure 1.3b: Viking VDP1 area seabed features continued
Pipeline trench Megaripples Exposed pipeline Shoal area are area
Scour pit Exposed pipeline Large sand waves
Viking GD Viking HD
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[Source: Fugro, 2013a; Fugro, 2013b]
Figure 1.4: LOGGS LDP1 area seabed features
Rock-placement/ mattresses
Sand waves
Sand waves and ripples
Mattresses
Scour around wreck
Platform footings
Mattresses
Sand ripples
Vampire/ Valkyrie OD Viscount VO Vulcan UR
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2.0 DECOMMISSIONING OPTIONS ASSESSED IN THE CA
Table 2.1 introduces the pipeline decommissioning options that ConocoPhillips have
taken forward for assessment. The options that were initially identified but not considered
feasible and excluded from further assessment are summarised in Appendix B. Section
4.1 and Appendix C provide an outline of why the five remaining options (Table 2.1) are
considered to be technically feasible.
Table 2.1: Decommissioning options considered in CA
Decommissioning options
Method Description
Option 1 –
Full removal
Reverse S-Lay/ Reverse Reel
Pipelines would be exposed (if required) using jetting methods and would be removed by reverse S-lay (pipelines with concrete coating) or reverse reel (pipelines composed of flexible plastic coating) prior to transport to shore. Reasonable attempts to remove all mattresses would be undertaken where safe to do so.
Option 2 –
Full removal
Cut and Lift Pipelines would be exposed using jetting methods (as required) and would be removed by cutting with an underwater pipe cutter. Cut pipeline sections would then be lifted onto a vessel for transportation to shore. Reasonable attempts to remove all mattresses would be undertaken where safe to do so.
Option 3 –
Partial Removal
Cut and Lift Only exposed/ spanned sections of pipeline would be removed. Cut ends of pipelines would be covered by rock-placement. Reasonable attempts to remove all mattresses would be undertaken where safe to do so. Any remaining pipeline would be left open and flooded with seawater.
Option 4 –
Decommission in situ
Minor Intervention
Pipelines decommissioned in situ would be left in such a
manner that they do not pose a risk to other users of the sea, e.g. fishermen. This would involve rock-placement or trenching of the exposed/ spanned sections. Cut pipeline ends would be covered with rock-placement where required. Reasonable attempts to remove all mattresses would be undertaken where safe to do so. Pipelines would be left open and flooded with seawater.
Option 5 –
Decommission in situ
Minimal Intervention
Rock-placement on the cut pipeline ends only, to make them safe to fishermen. The remaining pipeline would be left in its current state, marked on sea charts and notifications issued to fishermen/ other users of the sea. All mattresses would be left in situ in their current state* to maintain pipeline stabilisation,
minimise disturbance of the established environment and reduce the requirements for the introduction of new material to the SCI. Pipelines would be left open and flooded with seawater.
* In order to gain access to cut the pipeline at the satellite platforms there may be a need to remove a small number of mattresses. These mattresses will be returned to shore for disposal.
2.1 General Assumptions
For comparative purposes, assumptions and limitations have been made in regard to
scope, materials, transportation, vessel usage, etc. These general assumptions and
considerations are listed below. Additional assumptions for each of the criteria evaluated
in this CA are included in the description of the methodologies in the relevant
Appendices.
All subsea structures have been removed.
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Pipelines have been flushed and cleaned prior to any removal works.
All options have post-decommissioning surveys associated with them and draw on pre-decommissioning data acquired during the operating phase. In addition however, the partial removal and decommission in situ options, which have ongoing liability, have, for comparative assessment purposes, been assumed to require three further monitoring surveys, at two, five and ten years post-decommissioning.
All pipelines decommissioned in situ will be flooded with seawater. This will increase the stability of the pipeline and increase the tendency for burial (Costain, 2014c).
ConocoPhillips provided the breakdown of vessel types, tasks/ activities, durations, crewing (personnel on board), diver numbers, dive durations, and contingency time for Wait on Weather (WOW). Contingency vessel days due to changes in tidal conditions and WOW are variable depending on the decommissioning option:
o Option 1 (full removal by reverse lay/ reel): 10% WOW.
o Options 2 and 3 (full and partial removal by cut and lift): 20% WOW and 50% to account for tidal conditions.
o Options 4 and 5 (decommission in situ minor and minimum intervention): 30% WOW.
All of the above are percentages of the working vessel days only.
For all options requiring retrenching or burial, rock-placement has been taken as the worst case scenario.
Where parts of a pipeline are to be removed or covered by rock-placement (where the pipeline is to be decommissioned in situ), values have been calculated using Costain’s (2014c) estimations of all exposed and free-spanning section lengths and an overtrawlable (3:1 gradient) rock berm profile.
Pipeline component weights are taken from the materials inventory commissioned by ConocoPhillips.
The materials would be landed onshore at Hartlepool in Teesside (nearest port to existing decommissioning facilities).
The inventories of pipeline materials landed onshore would be transported by lorry, rather than by rail or subsequently by vessels.
Inventory weights for pipeline materials landed onshore (D3, 2014b) have been used to estimate the number of lorry loads required (and hence the number of journeys).
A worst case transportation scenario has therefore been assumed where all of the infield lines would have NORM (Naturally Occurring Radioactive Material) contamination, this NORM contaminated material would be removed and transported for disposal via landfill at Kings Cliffe (266 km from Hartlepool dock).
A round trip involving a helicopter flight to the centre of the combined VDP1 and LDP1 area is estimated to take 1 hour. Take-offs and landings are each estimated to take 10 minutes (0.17 hour).
Recovered steel and anode materials are all going to be recycled; recovered concrete, plastic and coal-tar coverings are all going to be taken to landfill.
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3.0 COMPARATIVE ASSESSMENT METHODOLOGY
The following section details the CA process by which the most appropriate options for
decommissioning of the pipelines (including the associated mattresses) were assessed.
Due to the similarities with the pipeline, lengths, materials, methods of decommissioning
and environment a combined CA for the infield pipelines has been carried out rather than
individual CA assessments for each pipeline.
In preparation for the CA assessments, ConocoPhillips identified and described the
decommissioning options, decided upon the assessment criteria (and sub-criteria) to be
used in the CA (Section 3.2) and established the weighting to be applied to scores for the
individual assessment criteria which reflects the balance of ConocoPhillips’ decision-
making priorities, corporate values and stakeholder views (Section 3.3).
3.1 Comparative Assessment Workshops
As part of the CA, two workshops were undertaken to assess technical feasibility and the
environmental and societal risks. These were independently facilitated and chaired by
BMT Cordah on 9 and 10 June 2014 and 30 July 2014. Participants at the workshops
included a mix of disciplines and specialists from ConocoPhillips and BMT Cordah,
including:
ConocoPhillips (U.K.) Ltd
o Ian Fozdar – Decommissioning Integration Manager SNS/EIS
o John Spiteri – Decommissioning Project Integration Manager
o David Reaich – Decommissioning HSE Manager
o Steve Lee – Decommissioning Operations Lead
o Robert Stevenson – UK Removal and Disposal Manager
o Ashley Hawkins – Decommissioning Project Engineer
o Gillian May – Subsea Operations Supervisor
o Paul Howitt – Subsea Inspection Engineer
o Ahmed Ali – Pipeline Engineer
o Bronwen Croce – Chief Environmental Scientist
o Paul Hatton – Decommissioning Environmental Scientist
o Emily Hamlet – Graduate Environmental Scientist
o Jennifer Crilly – Graduate Chemical Engineer
o Liam Williams – Lead Pipeline Engineer
o Nigel Danhash – SNS Capital Projects Pipelines Manager
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BMT Cordah Limited
o David Sell – Technical Associate & Chairperson
o Joseph Ferris – Associate Director & Chairperson
o Norman Di Perno – Managing Director
o Gareth Jones – Principal Consultant & Workshop Facilitator
o Diane Murrison – Principal Consultant & Scribe
o Deborah Morgan – Environmental Consultant & Scribe
Costain Upstream
o Tony Moore – Principal Pipeline Engineer
o Jim Rae – Senior Project Engineer
Due to the level of detail and amount of information available for each of the
decommissioning methods, two workshops were needed to ensure adequate time was
available to fully explore the options and their potential impacts.
Additional information that was pertinent to safety and cost were noted and taken forward
into the desk-based assessments carried out for the Safety and Cost Criteria.
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3.2 Assessment Criteria
The individual decommissioning options were assessed against the five main
assessment criteria and associated sub-criteria, details of which are provided in Table
3.1. These were based on DECC’s Guidance Notes (DECC, 2011).
Table 3.1: Assessment criteria/ sub-criteria and a brief description of method used to assess each option.
Main Criteria Sub-criteria Description of Assessment Methodology
Technical Feasibility
Technical Feasibility
Recoverability from Major Project Failure
Qualitative assessment of Technical Feasibility and Recoverability from Major Project Failure.
The assessment was carried out as part of the two workshop sessions involving participants with expert knowledge of the project and a range of relevant specialist disciplines.
Following a discussion on the decommissioning methods available and the issues associated with each option, separate scores for each option were assigned for technical feasibility and recoverability, within five feasibility/ recoverability levels defined within a scoring matrix. Scoring was based on a majority decision from the participants.
Any option that scored as a major or severe risk or being unfeasible or irrecoverable was discontinued from the process and not assessed further.
Section 4.1 provides the result of the assessment and Appendices B and C provide further detail on the methodology and results.
Safety Potential Loss of Life
Quantitative assessment of Potential Loss of Life (PLL) of personnel working on the decommissioning options using the method given in Safetec (2005).
Individual PLLs for each activity during the work programme for each option were calculated by multiplying worker exposure hours or the numbers of lifts by cranes by the corresponding Fatal Accident Rate (FAR).
PLLs for all of the activities were summed to provide the total PLL for the individual option. The options were then ranked on the basis of their respective overall PLL values (lowest number = ‘best’ option).
Section 4.2 provides the results of the assessment and Appendix D provides more detail on the methodology, assumptions and results.
Societal issues relating to safety (including potential for fishing gear entanglement on infrastructure decommissioned in situ on the seabed) were evaluated during the socioeconomic risk assessment (see below).
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Table 3.1 (Continued): Assessment criteria/ sub-criteria and a brief description of method used to assess each option.
Main Criteria Sub-criteria Description of Assessment Methodology
Environmental Environmental Risk:
o Onshore
o Marine
Qualitative assessment of Environmental Risks onshore and offshore for each of the options using ConocoPhillips’ risk assessment methodology and matrix (Section 4.3).
The assessment was carried out in two workshop sessions involving participants with expert knowledge of the project and a range of relevant specialist disciplines. Environmental risks and societal risks (see below) were both assessed within these two workshops.
Each option was broken down into its component activities/ operations and end-points. For each of these components, the CA workshop participants conducted an environmental risk assessment, which identified potential causes of impact to receptors, and assessed the likelihoods of occurrence, consequences and levels of risk using the risk assessment matrix. Scoring was based on a majority decision from the participants. Causes, consequences, mitigation, implications for the option and any follow-up actions relating to risks within the High and Significant categories were recorded.
For each option, the values of the scores for the different categories of risk were totalled, and the options were then ranked on the basis of these totals (lowest number = ‘best’ option).
Appendix E provides more detail on the methodology and results for the environmental risk assessment.
Energy Usage and CO2
Emissions
Quantitative estimation of Energy Usage and CO2 Emissions for each of the options (Section 4.5) using the method given in IoP (2000).
Total quantities of energy usage and CO2 emissions for each option were calculated by estimating parameters such as fuel usage for vessels, helicopters and vehicles used in road haulage, re-manufacture of recyclable material to compensate for that decommissioned in situ, and recycling and disposal of materials returned to shore.
These quantities, fuel and materials were then multiplied by energy and emissions conversion factors detailed in Appendix F. The estimated energy and emissions were then summed to provide a total figure for each decommissioning option, and the options were then ranked on the basis of these totals (lowest number = ‘best’ option).
Appendix F provides more detail on the methodology and results for the energy usage and emissions estimates.
Societal Socioeconomic Risk:
o To other users of the sea
o To those on land
Qualitative assessment of Societal Risks onshore and offshore using ConocoPhillips’ risk assessment methodology and matrix (Section 4.4).
These assessments were made within the same workshop, using the same method, operations/ activities and end-points, as for the environmental risk assessment (except that societal criteria were used for scoring). The scores for each option were summed and the options were ranked on the basis of the total scores (lowest number = best option).
Appendix E provides more detail on the methodology and results.
Cost Comparative Cost
A quantitative estimation of Cost for each option (Section 4.6) was calculated, this included estimates for vessel usage, recycling and disposal of material, licencing fees, future monitoring, liability and seabed remediation. Appendix G provides the cost breakdown and the associated assumptions used in the assessment.
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3.3 Assessment Scoring
Initially, the scores from each of the assessments were expressed in their respective
quantitative and qualitative units. Justification for the scores assigned during the
assessments, as well as assumptions and limitations were noted and a detailed
breakdown of this is provided in Sections 4.1 to 4.6, as well as in the relevant
appendices. To enable a comparison to be made of the options, the results were then
collated and compared using a normalised/ weighted scoring system. The results of each
of the five assessments were expressed in common units and ranked in order of
performance from best to worst, based on the weightings assigned by ConocoPhillips
(Table 3.2). DECC’s Guidance Notes (DECC, 2011) make provision for weightings to be
assigned to the scoring for the individual assessments to transparently reflect the
proportionality/ or balancing of the options from the viewpoint of the operator or its
stakeholders.
The maximum weighting was assigned to the best scoring option for each individual
criterion. For example, a maximum weighted score of 30 was assigned to the best
performing option. All subsequent options were assigned a normalised weighted value in
proportion to the best performing option. The output was a matrix presenting normalised/
weighted values for the criteria/ sub-criteria for every option.
An overall value was established by totalling the normalised/ weighted values for the
assessments and comparing the totals. ConocoPhillips used the output from the CA to
select its preferred decommissioning option, with the CA report documenting the
justification for their choice.
Table 3.2: Weightings of options
Criteria/ sub-criteria Weighting (percentage)
Feasibility/ Technical Feasibility 7.5
Feasibility/ Risk of Major Project Failure 7.5
Safety 30
Environmental/ Environmental Risk 15
Environmental/ Energy Usage 5
Environmental/ Emissions 5
Societal/ Socioeconomic Risk 10
Cost 20
Total 100
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4.0 COMPARATIVE ASSESSMENT RESULTS
The following section presents the results of the CA of the five decommissioning options.
Table 4.1 provides the scored results for the options (out of a maximum of 100 points) as
follows:
Option 1 (Full Removal – Reverse S-Lay/ Reel): 56.7/ 100
Option 2 (Full Removal – Cut and Lift): 45.5/ 100
Option 3 (Partial Removal – Cut and Lift): 59.5/ 100
Option 4 (Decommission in situ – Minor Intervention): 68.2/ 100
Option 5 (Decommission in situ – Minimum Intervention): 96.8/ 100
The option with the highest normalised/ weighted score represents the best option.
Sections 4.1 to 4.6 highlight why the options were considered to be strongly or weakly
differentiated from each other and provides a more detailed explanation for the scores
awarded to each option.
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Table 4.1: Results of the Comparative Assessment of the five decommissioning options ranked in order of preference (highest to lowest score)
Criterion Feasibility Safety Environmental Impact Societal Impact Cost
Normalised/ weighted total
value
Assessment scope:
Feasibility of successful
completion and recoverability
from major project failure
Safety risk offshore & onshore
Environmental risk offshore & onshore
Energy
Emissions
Societal risk offshore & onshore
Cost including allowance for
further surveying and remediation
Metric: Qualitative comparison
Potential Loss of Life
(PLL)
Summed total of environmental risks
Quantity of energy used
(GJ)
Quantity of and CO2 emitted
(Tonnes)
Summed total of societal risks
Estimated project cost*
Maximum possible normalised/ weighted value:
15 30 15 5 5 10 20 100
Option 5: Decommission in situ – Minimum Intervention
Assessment result See Section 4.1 1.77x 10-2
184 305,719 26,368 50 -
Normalised/ weighted value 12.5 30.0 15.0 4.9 5.0 9.4 20.0 96.8
Option 4: Decommission in situ – Minor Intervention
Assessment result See Section 4.1 2.76 x 10-2
332 377,335 31,629 54 -
Normalised/ weighted value 12.5 19.2 8.3 4.0 4.2 8.7 11.3 68.2
Option 3:Partial Removal – Cut and Lift
Assessment result See Section 4.1 6.97 x 10-2
226 469,105 38,620 48 -
Normalised/ weighted value 15.0 7.6 12.2 3.2 3.4 9.8 8.3 59.5
Option 1: Full Removal – Reverse S-Lay/ Reel
Assessment result See Section 4.1 4.03 x 10-2
194 298,677 27,717 47 -
Normalised/ weighted value 5.0 13.2 14.2 5.0 4.8 10.0 4.5 56.7
Option 2: Full Removal – Cut and Lift
Assessment result See Section 4.1 3.02 x 10-1
194 1,311,394 102,816 47 -
Normalised/ weighted value 15.0 1.8 14.2 1.1 1.3 10.0 2.1 45.5
*Full cost breakdowns have been provided to DECC
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4.1 Technical Feasibility Differentiation
The results of the technical feasibility assessment, undertaken during the CA workshops
(BMT Cordah, 2014b), are presented in Table 4.2. Any options with a score of ‘Major’ or
‘Severe’ were not carried forward for further assessment. These options are listed in
Appendix B, and include ‘Cut, Float and Tow’ for Full Removal and ‘Reverse Lay/ Reel’
methods for Partial Removal. A full summary and explanation as to why these options
were excluded is also provided in Appendix B.
Options which scored a Technical Feasibility and Risk of Operational Failure rating of
‘Slight’, ‘Minor’ or ‘Moderate’ were carried forward for full assessment. Table 4.2 lists the
five options considered in this CA. A maximum normalised/ weighted score of 15 (Table
3.2) was applied to the most preferable (lowest risk) option and was subsequently
divided between Technical Feasibility and Risk of Operational Failure, giving a maximum
score of 7.5 for each of these components. As a ‘Slight’ risk is the lowest risk option, this
rating was assigned the highest normalised/ weighted score of 7.5. ‘Minor’ was assigned
a score of 5.0 and ‘Moderate’ was assigned the lowest score of 2.5, as described in
Appendix B.
Table 4.2: Technical feasibility assessment results and normalised weightings
Technical Feasibility Risk of Operational
Failure
Option Risk Rating
Normalised weighted score
Risk Rating
Normalised weighted value
Combined Feasibility and Failure Risk Scores
2: Full Removal – Cut and Lift Slight 7.5 Slight 7.5 15.0
3: Partial Removal – Cut and Lift Slight 7.5 Slight 7.5 15.0
4: Decommission in situ –
Minor Intervention Slight 7.5 Minor 5.0 12.5
5: Decommission in situ – Minimum Intervention
Slight 7.5 Minor 5.0 12.5
1: Full Removal –
Reverse S-Lay/ Reel Moderate 2.5 Moderate 2.5 5.0
Both the Full and Partial Removal by Cut and Lift options (2 and 3) have the highest total
score of 15, scoring 7.5 for both Technical Feasibility and Risk of Operational Failure
criteria. This score translates into a ‘Slight’ rating, which can be attributed to the fact that
similar decommissioning techniques have been tried, tested and proven elsewhere on
the UKCS, and that the techniques would be suitable for all types of pipeline included
within the scope of the two DPs.
The decommission in situ options (Minor and Minimum Intervention) both scored a total
of 12.5, comprising of a Technical Feasibility score of 7.5 and a Risk of Operational
Failure score of 5.0. A Technical Feasibility score of ‘Slight’ was applied to these options
due to the minimal amount of intervention required and the fact that in situ
decommissioning techniques have been undertaken elsewhere on the UKCS. Risk of
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Operational Failure was rated as ‘Minor’ due to the potential requirement for mitigation if
pipelines become exposed.
The lowest score (5) was assigned to Option 1 (Full Removal by Reverse S-Lay/ Reel).
This option scored 2.5 for Technical Feasibility and 2.5 for Risk of Operational Failure
and has a rating of ‘Moderate’ for both aspects. Higher ratings were assigned to this
option due to the restriction on the use of the technique on concrete coated pipelines.
There are technical challenges when dealing with the piggybacked methanol lines which
would need to be detached as the pipeline comes up on to the vessel. This is made more
complicated as the links between these pipelines may already have degraded making
recovery difficult and potentially hazardous to personnel on deck. There are also issues
to deal with in relation to the concrete coating which may break off during the handling
operations. This can make the physical handling of the pipeline challenging and result in
the subsequent clean-up of concrete debris from both the vessel and the seabed
following the retrieval of the pipeline.
4.2 Safety Differentiation
This section presents a comparison of the PLL values for each of the pipeline
decommissioning options. PLL provides a quantitative index of safety that is commonly
used in comparative assessments for decommissioning projects. The present study
follows the method detailed in the report from the Health and Safety Executive’s Joint
Industry Project on the Risk Analysis of Decommissioning Activities (Safetec, 2005).
Table 4.3 ranks the options in reverse order of the magnitude of the respective overall
PLLs, i.e. the best performing option has the lowest overall PLL. This table also reveals
that the PLL ranking mirrors the overall totals for worker exposure hours which, in turn,
reflect the engineering complexity, vessel requirements, onshore transportation
requirements and durations of the work programmes for the individual options. Table 4.3
also provides a normalised/ weighted value which assigns a maximum score of 30 to the
best performing option, and then scores the remaining options in inverse proportion to
their overall PLL values. Appendix D provides a detailed breakdown of the process
undertaken to calculate the PLL and total exposure values.
Table 4.3: Safety assessment results and normalised weightings
Option Total Worker
Exposure Hours Overall PLL
Normalised/ Weighted Score
5: Decommission in situ - Minimum Intervention
319,262 1.77 x 10-2
30.0
4: Decommission in situ - Minor Intervention
497,621 2.76 x 10-2
19.2
1: Full Removal Reverse S-Lay/ Reel 750,199 4.03 x 10-2
13.2
3: Partial Removal - Cut and Lift 865,871 6.97 x 10-2
7.6
2: Full Removal - Cut and Lift 3,833,856 3.02 x 10-1
1.8
Taken in ranked order of PLL, the PLLs of Options 4, 1, 3 and 2 are respectively 1.6, 2.3,
3.9 and 17.1 times that of Option 5 which has the lowest PLL. As stated above, the PLL
ranking is driven by the operational requirements and durations of the work programmes
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for the individual options, with 90% to 95% of the overall PLLs being attributable to
marine operations conducted from vessels.
The Decommission in situ options (5 and 4) can be differentiated from the other options
by having markedly lower requirements for subsea intervention (disconnection of
pipelines and rock-placement for protective cover). Option 1 (Full Removal by Reverse
S-lay/ Reel) occupies the intermediate position in the PLL ranking, with Diving Support
Vessel (DSV) – including air diving, Construction Support Vessel (CSV) and pipe-lay
vessel operations accounting for 75% of PLL.
The CSV operations account for 74% and 88% of the PLLs of Removal by Cut and Lift
options (3 and 2), which involve activities that are more labour intensive and of longer
duration than those for Option 1. The incremental step-change (multiplier of 4.4) in PLL
between Options 3 (Partial Removal) and 2 (Full Removal) reflects the increase in
duration of the work programme that would be needed for complete removal of the VDP1
and LDP1 pipelines from the seabed.
4.3 Environmental Impact Differentiation
Following the feasibility assessments, environmental risk assessments were undertaken
for the five decommissioning options. This section provides an outline of the method
used in the qualitative assessment of environmental risk in the CA workshops (BMT
Cordah, 2014b), and summarises the results. The assessment enabled a distinction to
be made between four categories of risk: High, Significant, Medium and Low.
Differentiation between decommissioning options was based on the level of risk
assessed for each receptor and the total number of potentially impacted receptors per
activity/ operation or endpoint. Appendix E provides a detailed breakdown of how these
results were achieved.
The assessments included the completion of risk assessment worksheets (Appendix E)
which address the general activities associated with decommissioning and specific
activities associated with the Decommission in situ, Partial and Full Removal options for
the pipelines. Totals (Table 4.4) were calculated from the worksheets by adding the risk
values assigned to each activity (row-by-row) and summing the activity values relevant to
each decommissioning option.
Table 4.4 ranks the options in order of risk from lowest risk option to the highest risk
option. The summed totals were normalised by the weights assigned by ConocoPhillips
with the maximum weighted value assigned to the lowest risk option. The subsequent
normalised/ weighted values were then calculated in relation to this lowest risk option.
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Table 4.4: Environmental risk assessment results and normalised weightings
Option Summed
Total*
Normalised/ weighted Score
5: Decommission in situ – Minimum Intervention 184 15.0
1: Full Removal – Reverse S-Lay/ Reel 194 14.2
2: Full Removal – Cut and Lift 194 14.2
3: Partial Removal – Cut and Lift 226 12.2
4: Decommission in situ – Minor Intervention 332 8.3
*Compiled by totalling the individual criteria scoring for each operation/ activity relevant to environmental risk across each row of Tables E4 to E7 (Appendix E).
The majority of the medium risk activities are derived from activities common to all
options (Appendix E; Table E4). These include:
Anchoring of vessels to the seabed;
Discharge of waste (oil, sewage, macerated food waste);
Ballast water uptake and discharge; and
Atmospheric emissions from vessels and helicopters.
The key environmental risks that differentiate the options include:
Long term presence of rock-placement and the associated impacts on the seabed sediment structure;
Long term presence of the rock-placement and associated impacts on habitats; and
Potentially detrimental impacts on the form and function of the North Norfolk Sandbank and Saturn Reef SCI features.
Option 5 (Decommission in situ – Minimum Intervention) was considered to have the
smallest environmental impact and therefore has the highest normalised/ weighted value
of 15. This differs from Options 1 and 2 (Full Removal – Reverse S-Lay/ Reel and Full
Removal – Cut and Lift) by the fact that the pipelines would not be removed and there
would be minimal disturbance to the current seabed state. These pipelines have been in
situ for between 12 and 40 years and although there has been some exposure there
have been no reportable spans (spans in excess of 0.8 m in height) which have
developed over the lifetime of use. Surveys have indicated that the majority of the
mattresses installed for pipeline stability, are either buried or partially buried. Many of the
mattresses were designed with integrated frond mats to improve burial and retention of
sediment cover. Option 5 proposes to decommission the mattresses in situ, therefore
minimising additional seabed disturbance but also removing the need to deploy
additional rock-placement over the pipeline to ensure their future stability.
Decommissioning the mattresses in situ would be considered a re-use of the mattresses
as a stabilising medium for maintaining pipeline burial, whilst not introducing additional
foreign material, such as quarried rock, into the marine environment and SCI.
Options 1 and 2 have scored similarly; the main impact is derived from the seabed
disturbance caused by exposing the pipeline for removal and by any additional spread/
loss of degraded concrete coating which may fall to the seabed during the removal
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process. Under these options it is proposed to remove all mattresses where safe to do
so, however as there would be no pipeline infrastructure left behind there is no need to
deploy any additional rock-placement over that required to make safe any cut ends at the
platform or crossings that are left in situ. Overtrawlability trials would be carried out to
ensure that any pipeline trench remaining is safe for other sea users. This may
potentially cause additional seabed disturbance and flattening of some SCI seabed
features. However, due to the dynamic nature of the currents at the seabed any physical
disturbance would be short-term and temporary, resulting in a normalised/ weighted
score of 14.2 for both Options 1 and 2.
Option 3 (Partial Removal – Cut and Lift) is similar to Options 1 and 2; however as this
option proposes to remove only the exposed pipeline sections this would result in the
addition of rock-placement to the cut ends and any crossings left in situ. There is
anticipated to be more cuts under this option when compared to Options 1 and 2. There
is also the potential for scour pits to develop over time from the introduction of the rock-
placement material. There is evidence, as seen in Figures 1.3a, 1.3b and 1.4, of scour
development in response to the presence of hard seabed structures e.g. rock-placement
or wrecks. As a result of these potential impacts, this option was given a normalised
weighted value of 12.2.
There was one high risk category (generally considered to be unacceptable) identified
during the assessment. This was identified under Option 4 (Decommission in situ – Minor
Intervention; Appendix E; Table E6) and relates to the environmental impacts of using
rock-placement for the burial of the exposed pipeline. As all the VDP1 and LDP1
infrastructure is situated within the North Norfolk Sandbanks and Saturn Reef SCI the
introduction on a large quantity of rock-placement represents a significant change to the
natural seabed environment and qualifying features of the SCI. This risk could be
reduced to medium (Appendix E, Table E5) if pipeline re-trenching was considered,
however this would also have an impact as a result of seabed disturbance and
suspended sediment concentrations. This option also proposes to remove all mattresses
where safe to do so, resulting in the need to deploy additional rock-placement for future
pipeline stability further adding to this options impact on the SCI. As a result, this option
scored the worst for environmental impacts and was assigned a normalised weighted
value of 8.3.
4.4 Energy and Emissions Differentiation
This section presents the quantitative estimates of energy usage and subsequent
emissions that provide the basis for differentiating between options. The method outlined
here follows the “Guidelines for Calculation of Energy Use and Gaseous Emissions in
Decommissioning” (IoP, 2000).
The method considers the fate of decommissioned material from pre-decommissioning
preparation to an onshore end-point, such as recycling or disposal to landfill. The total
quantities of energy usage and CO2 emissions were calculated by:
1. Estimating quantities of diesel fuel consumed by vessels involved in the work
programmes offshore;
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2. Estimating quantities of diesel consumed during the haulage onshore of the
materials to landfill, treatment or recycling facilities;
3. Estimating quantities of aviation fuel used for helicopter operations;
4. Estimating quantities of materials required hypothetically for the manufacture of
new materials equivalent to the materials lost to society by leaving recyclable
material in situ in the seabed or by disposal to landfill;
5. Estimating the energy required for the recycling of pipeline materials; and
6. Multiplying these quantities by energy content and emission factors (IoP, 2000)
which are provided in Table 4.5.
Table 4.5 provides a summary of the energy use (in giga joules (GJ)) and emissions (in
tonnes of CO2) for each decommissioning option. The maximum normalised/ weighted
value has been assigned to the most preferable (lowest risk option). Energy and
Emissions has been assigned a maximum weighting of 10, which has subsequently been
divided between energy use and emissions (a maximum weighted value of 5 for each).
The scores for the remaining options have been calculated in inverse proportion to their
overall summed totals. The relative contributions from the decommissioning activities are
shown graphically in Figures 4.1 (energy use) and 4.2 (emissions).
Table 4.5: Energy and emissions assessment results and normalised weightings
Option
Energy Emissions Combined normalised/
weighted score
Energy Usage (GJ)
Normalised weighted
score
Emissions (Tonne/
CO2)
Normalised weighted
score
5. Decommission in situ – Minimum Intervention 305,719 4.9 26,368 5.0 9.9
1. Full Removal – Reverse S-Lay/ Reel 298,677 5.0 27,717 4.8 9.8
4. Decommission in situ – Minor Intervention 377,335 4.0 31,629 4.2 8.2
3. Partial Removal – Cut and Lift 469,105 3.2 38,620 3.4 6.6
2. Full Removal – Cut and Lift 1,311,394 1.1 102,816 1.3 2.4
Option 5 (Decommission in-situ – Minimum Intervention) has the lowest energy use and
emissions of all the options and therefore has the highest normalised/ weighted value of
9.9. Most of the energy use and emissions can be assigned to the need to manufacture
replacement material that has been lost to society as a result of being decommissioned
in situ.
Option 1 (Full Removal by Reverse S-lay/ Reel) has the second lowest energy use and
emissions, and therefore has a high total normalised/ weighted value of 9.8. Most of the
energy use associated with this option (and therefore emissions) is a result of vessel use
offshore and recycling of recovered steel.
The majority of the energy use assigned to Option 4 (Decommission in situ - Minor
Intervention) can be attributed to the need to manufacture replacement material that has
been lost to society. This option has a total normalised/ weighted value of 8.2. This
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option is differentiated from Options 5 and 1 by the additional vessel usage associated
with the deployment of rock-placement on the exposed sections of pipeline.
Option 3 (Partial Removal - Cut and Lift) is the option with the second highest energy
usage and CO2 emissions, with a total normalised/ weighted value of 6.6. The majority of
this can be assigned to offshore vessel use and the replacement of materials left in situ.
The option with the highest energy usage and emissions is Option 2 (Full Removal by
Cut and Lift). Figures 4.1 and 4.2 indicate that the overriding majority of the energy and
emission produced originates from the use of CSVs for offshore operations. This option
has the lowest total normalised/ weighted value of 2.4 and is therefore the least
favourable of the options from an energy and emissions perspective.
A full breakdown of the contributing factors and their relating energy and emission values
is presented in Appendix F; Tables F3 to F7.
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Figure 4.1: Graph showing contributors to the energy use for each option
0
200,000
400,000
600,000
800,000
1,000,000
1,200,000
1,400,000
1 2 3 4 5
Ene
rgy
(GJ)
Option
Manufacture of new materials(aggregate)
Manufacture of replacementmaterials
Recycling
Transport
Helicopters
DSV (mattress removal)
Supply vessel (mattress removal)
Survey vessel
Pipelay vessel (pipeline removal)
CSV (pipeline removal andtrenching/ rock dump)
DSV (pipeline removal)
Supply vessel (pipeline removal)
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Figure 4.2: Graph showing contributors to the emissions for each option
4.5 Societal Impact Differentiation
Societal risk assessments were undertaken concurrently with the environmental risk
assessment and followed the same methodology (Section 4.3). The risk was assigned by
participants at the CA workshops (BMT Cordah, 2014b). This section summarises the
results of the societal impact assessment with Appendix E providing a detailed
breakdown of how these results were achieved.
0
20,000
40,000
60,000
80,000
100,000
120,000
1 2 3 4 5
Emis
sio
ns
(To
nn
es
CO
2)
Option
Manufacture of new materials(aggregate)
Manufacture of replacementmaterials
Recycling
Transport
Helicopters
DSV (mattress removal)
Supply vessel (mattress removal)
Survey vessel
Pipelay vessel (pipeline removal)
CSV (pipeline removal andtrenching/ rock dump)
DSV (pipeline removal)
Supply vessel (pipeline removal)
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Table 4.6 ranks the options in order of preference from most preferable (lowest risk
option) to least preferable (highest risk option). The summed totals were normalised by
the weighting as before.
Table 4.6: Societal risk assessment results and normalised weightings
Socioeconomic Summed
Total*
Normalised weighted value
1: Full Removal – Reverse S-Lay/ Reel 47 10.0
2: Full Removal – Cut and Lift 47 10.0
3: Partial Removal – Cut and Lift 48 9.8
5: Decommission in situ – Minimum Intervention 50 9.4
4: Decommission in situ – Minor Intervention 54 8.7
*Compiled by totalling the individual criteria scoring for each operation/activity relevant to societal risk across each row of Tables E4 to E7 (Appendix E).
Societal risks were the same for Options 1 and 2 (Full Removal – Reverse S-Lay/ Reel
and Full Removal – Cut and Lift) with a normalised/ weighted value of 10 for each. This
is as a result of all the pipelines being fully removed leaving minimal infrastructure to give
rise to snagging hazards. Of note is that ConocoPhillips would also undertake a post-
decommissioning survey to remove all oil and gas related debris. Overtrawl surveys
would be carried out to ensure any residual pipe trench is passible and any large berms
of sediment have been dispersed.
With the exception of Option 5, all mattresses would be removed where safe to do so,
reducing any minimal snagging risk from partially exposed mattresses.
Option 3 and 5 had similar scores of 9.8 and 9.4 respectively. Although they had similar
scores, there were different risks attributing to these scores.
The societal risks identified for Option 3 were in relation to the rock-placement at each
cut end or crossing left in situ leaving a potential issue for certain types of fishing gear
depending on the grading and volume of rock required and the number of cut ends left.
However, the risk would be minimised by ensuring a suitable grade of rock-placement is
used for the predominant fishing gear (beam trawl).
Option 5 although the receptor (commercial fishing) is the same, the potential impact is
derived from the potential snagging hazard of exposed sections of the pipeline and the
potential for any mattresses that are decommissioned in situ becoming exposed over
time. The main fishing effort within the study area is undertaken by heavy beam-trawlers
(Brown and May, 2014). Due to horsepower of these vessels, the high towing speeds (~7
knots) and the heavy beam trawl gear (between 5 and 7 tonnes); the potential for these
vessels to snag on any exposed pipeline resulting in a potential loss of vessel is
negligible. If an impact does occur, the gear is most likely to break the exposed line with
a minor potential of damage to the fishing gear itself in the form of torn nets. However, as
these assessments were carried out on a post-mitigation scenario, the workshop
participants felt there was adequate scope to mitigate this minor potential impact. Of note
is that these pipelines have been in operation for between 12 and 40 years with no
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reported serious impacts with pipelines or any spans (in excess of 0.8 m in height) along
the length of any of the proposed pipelines included in the DPs.
Some of the mitigation suggested, following the completion of the decommissioning
activities includes; accurate mapping of the pipelines and mattresses post
decommissioning, transference of this information on to accessible navigation charts/
aids and a degree on post-decommissioning monitoring to ensure the stability of the
pipeline location following the completion of the decommissioning activities.
Option 4 was the worst performing option in terms of societal risk with a normalised/
weighted value of 8.7. The placement of rock material over currently exposed pipeline
section may create additional areas of scour on the seabed thus revealing areas of
pipeline that may become a snagging hazard to fishermen. This differs from Option 5 as
fishermen would likely to continue to avoid the area of the pipeline.
No significant or high categories were associated with the societal risks for any of the
decommissioning options (Appendix E; Table E9).
In addition, there was a suggestion of a potential increase in risk of vessel collisions.
However upon further examination, it was determined that the likelihood of this occurring
was negligible. The majority of the decommissioning activities would be occurring within
the current 500 m safety exclusion zones and therefore access would be restricted to
those vessels undertaking the decommissioning work. There would be instances when
there is removal/ burial of the pipeline under Options 1, 2, 3 and 4with decommissioning
vessels would be working along the pipeline length. This would be mitigated by having a
guard vessel on site warning approaching vessels and notifications being issued to
mariners of the intended offshore marine works. Option 5 however poses the least risk to
shipping as the only decommissioning activities being conducted outside the 500 m
safety exclusion zones would be pre- and post-decommissioning/ debris recovery
surveys. This has been reflected in the scoring for the options under the societal risk
assessment.
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4.6 Cost Differentiation
This section provides cost estimates for the five decommissioning options. Vessel days
and rates have been estimated based on costs provided by ConocoPhillips. Full cost
breakdown has been provided to DECC.
Table 4.7 provides a comparison for the five options ranked by Cost, illustrated by
maximum normalised/ weighted values in order of cost from the lowest to highest cost
option. Figure 4.3 illustrates the breakdown of the total costs by activity for each option.
The values for the remaining options have been calculated in inverse proportion to their
overall summed totals.
Table 4.7: Comparison of costs for options based on normalised weightings
Option Normalised/ Weighted Score
5: Decommission in situ – Minimum Intervention 20.0
4: Decommission in situ – Minor Intervention 11.3
3: Partial Removal – Cut and Lift 8.3
1: Full Removal – Reverse S-Lay/ Reel 4.5
2: Full Removal – Cut and Lift 2.1
Option 5 (Decommission in situ – Minimum Intervention) is the least expensive option.
This is a result of the option having the minimum number of vessels and shortest number
of days to complete the decommissioning and remediation works. The indicative cost of
the additional rock-placement for Option 4 (Decommission in situ – Minor Intervention) is
illustrated in Figure 4.3. The need for this additional remediation work under Option 4
accounts for the higher costs relative to Option 5. Options 4 and 5 have the highest
future liability costs compared to the other options based on the amount of infrastructure
decommissioned in situ and the potential for the pipelines to become exposed in the
future.
Although Option 1 (Full Removal – Reverse S-Lay/ Reel) has the largest vessel spread,
the number of days required to undertake the full removal is significantly less than that
required for Option 2 (Full Removal – Cut and Lift). The presence of strong tidal currents
in this area of the SNS requires an extra 50% WOW contingency to be applied to the
working days associated with cut and lift operations. Option 2 is the most expensive
option. Figure 4.3 clearly shows that the majority of this cost can be attributed to the
number of CSV days associated with this option.
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Figure 4.3: Graph showing contributing factors to the estimated costs for each decommissioning option
1 2 3 4 5
Co
st £
Option
Contingency for future surveysand seabed remediation
DECC Decommissioning license fee(DECC, 2012)
Rock-placement material (tonnes)
Recycle/ Disposal of Concrete:tonne
Recycle/ disposal of pipelines:tonne
Helicopter: Hours chartered
Survey vessel (ROVSV): Dayschartered
ROVSV mob/ demob (inc transitout)
Pipe-lay vessel: Days chartered(DP1)
Pipe-lay vessel: Days chartered(DP2)
Supply vessel (operations):Dayschartered
DSV (Mattress removal): Dayschartered
CSV (Rock-placement): Dayschartered
CSV (Operations): Days chartered
DSV (Operations): Days chartered
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5.0 CONCLUSIONS
The cumulative scoring of the criteria for the five pipeline decommissioning options are
listed below from the highest to the lowest scores. The performances of the evaluation
criteria for the options are represented graphically such that the higher normalised/
weighted value the better the outcome.
Option 5: Decommission in situ – Minimum Intervention
Minimum Intervention scored highest (96.8/ 100) due to a strong performance against
several criteria including; Safety, Environment and Cost which have the highest
weightings (30, 25 and 20%, respectively) (Figure 5.1).
[Total scores available for each criteria given in brackets]
Figure 5.1: Weightings per criteria for Option 5
0
5
10
15
20
25
30
No
rmal
ise
d/
We
igh
ted
Val
ue
Criteria/ Sub-criteria
Option 5: Decommission in situ - Minimum Intervention
Cost (20)
Societal (10)
Emissions (5)
Energy Usage (5)
Environmental Risk (15)
Safety (30)
Risk to Project Failure (7.5)
Feasibility (7.5)
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Option 4: Decommission in situ – Minor Intervention
Minor Intervention, ranked second (68.2/ 100) and had slightly lower scores for Safety,
Environment, Societal and Cost (Figure 5.2).
[Total scores available for each criteria given in brackets]
Figure 5.2: Weightings per criteria for Option 4
Option 3: Partial Removal – Cut and Lift
Cut and Lift, placed third (59.5/ 100) although this option had maximum scores for
Technical Feasibility it scored poorly against Safety and Cost (Figure 5.3).
[Total scores available for each criteria given in brackets]
Figure 5.3: Weightings per criteria for Option 3
0
5
10
15
20
25
30
No
rmal
ise
d/
We
igh
ted
Val
ue
Criteria/ Sub-criteria
Option 4: Decommission in situ - Minor Intervention
Cost (20)
Societal (10)
Emissions (5)
Energy Usage (5)
Environmental Risk (15)
Safety (30)
Risk to Project Failure (7.5)
Feasibility (7.5)
0
5
10
15
20
25
30
No
rmal
ise
d/
We
igh
ted
Val
ue
Criteria/ Sub-criteria
Option 3: Partial Removal - Cut and Lift
Cost (20)
Societal (10)
Emissions (5)
Energy Usage (5)
Environmental Risk (15)
Safety (30)
Risk to Project Failure (7.5)
Feasibility (7.5)
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Option 1: Full Removal – Reverse S-Lay/ Reel
Reverse S-Lay/ Reel, ranked fourth (56.7/ 100) although this option scored relatively well
for the Environmental aspects and Societal but poorly for Technical Feasibility, Safety
and Cost (Figure 5.4).
[Total scores available for each criteria given in brackets]
Figure 5.4: Weightings per criteria for Option 1
Option 2: Full Removal – Cut and Lift
Cut and Lift, was the lowest scoring (45.5/ 100) option due to poor performance against
Cost, Safety and Energy and Emissions, however it did have maximum scores for
Technical Feasibility and Societal Impacts (Figure 5.5).
[Total scores available for each criteria given in brackets]
Figure 5.5: Weightings per criteria for Option 2
0
5
10
15
20
25
30
No
rmal
ise
d/
We
igh
ted
Val
ue
Criteria/ Sub-criteria
Option 1: Full Removal - Reverse S-Lay/ Reel
Cost (20)
Societal (10)
Emissions (5)
Energy Usage (5)
Environmental Risk (15)
Safety (30)
Risk to Project Failure (7.5)
Feasibility (7.5)
0
5
10
15
20
25
30
No
rmal
ise
d/
We
igh
ted
Val
ue
Criteria/ Sub-criteria
Option 2: Full removal - Cut and Lift
Cost (20)
Societal (10)
Emissions (5)
Energy Usage (5)
Environmental Risk (15)
Safety (30)
Risk to Project Failure (7.5)
Feasibility (7.5)
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6.0 IN SUMMARY
Based on the findings from the CA presented in this report, ConocoPhillips has
concluded that Option 5: Decommission in situ – Minimum Intervention is the
preferred decommissioning option for the VDP1 and LDP1 infield pipelines.
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7.0 REFERENCES
BMT Cordah, 2014a. Noise Assessment Report for the SNS Phase 1 Decommissioning Project: Aspects Associated with the Viking and LOGGS satellite platforms and infield pipelines. BMT Cordah Ltd. October 2014.
BMT Cordah, 2014b. ConocoPhillips SNS Phase 1 Decommissioning Programme. Comparative Assessment Workshop: Summary of Outcome. BMT Cordah Ltd. August 2014.
Brown and May, 2014. Commercial Fisheries Socioeconomic Impact Study Viking and LOGGS Fields Decommissioning for ConocoPhillips. Draft Report. Brown and May Marine Ltd. November 2014.
ConocoPhillips, 2012. Pipeline survey database. Contains all survey data for SNS pipelines between 2006-2012. [Assessed December 2014].
ConocoPhillips, 2014. SNS phase 1 Decommissioning Project: Socioeconomic and Environmental Impact Assessment Scoping Report. Revision C1. BMT-SNS-P-XX-X-HS-02-00001. December 2014.
Costain, 2014a. Pipeline Materials Inventory and Degradation Technical Note. Ref No. CU-J1690-R-TN-001-A05. Costain Upstream Ltd. December 2014.
Costain, 2014b. Pipeline Cleaning Technical Note – Infield Flowlines. Ref No. CU-J1690-R-TN-002-C02. Costain Upstream Ltd. December 2014.
Costain, 2014c. Pipeline Burial Technical Note. Ref No: CU-J1690-R-TN-004-A01. Costain Upstream Ltd. November 2014.
Costain, 2014d. Mattress Inventory and Removal Technical Note. Ref No. CU-J1690-R-TN-005-A06. Costain Upstream Ltd. December 2014.
D3, 2014a. SNS Phase 1 Decommissioning Project: Stage 1 Materials Inventory. D3 Consulting Ltd. ConocoPhillips Ref No. DCL-SNS-P-XX-X-HS-02-00001. October 2014.
D3, 2014b. SNS Phase 1 Decommissioning Project: Stage 2 Materials Inventory. D3 Consulting Ltd. D3 Ref No. 14.106.06. November 2014.
DECC [Department of Energy and Climate Change], 2011. Guidance Notes. Decommissioning of Offshore Oil and Gas Installations and Pipelines under the Petroleum Act 1998. Version 6. March 2011.
Fugro, 2012. ConocoPhillips UK Limited 2012 ROTV Pipeline Inspection (CNS & SNS). Fugro Report No. 120228V1.1.
Fugro, 2013a. ConocoPhillips (UK) Limited SNS decommissioning survey. UKCS 48 and 49. Viking AR, CD, DD, ED, GD, and HD. Habitat Assessment Report J/1/20/2342-3.
Fugro, 2013b. ConocoPhillips (UK) Limited SNS decommissioning survey. UKCS 48 and 49. Viscount VO, Vulcan UR and Vampire/Valkyrie OD (LOGGS). Habitat Assessment Report J/1/20/2342-2.
Fugro, 2013c. ConocoPhillips (UK) Limited SNS decommissioning survey. UKCS 48 and 49. Viking AR, Viking CD and Viking GD. Decommissioning Environmental Report J/1/20/2342.
Fugro, 2013d. ConocoPhillips (UK) Limited SNS decommissioning survey. UKCS 48 and 49. Viscount VO, Vulcan UR and Vampire/Valkyrie OD (LOGGS). Decommissioning Environmental Report J/1/20/2342
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
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IoP [Institute of Petroleum], 2000. Guidelines for the calculation of estimates of energy use and emissions in the decommissioning of offshore structures.
JNCC [Joint Nature Conservation Committee], 2007. Defining and managing Sabellaria spinulosa reefs: Report of an inter-agency workshop 1-2 May 2007. Gubbay, S. 2007. Joint Nature Conservation Committee.
JNCC, 2014. North Norfolk Sandbanks and Saturn Reef SAC. http://jncc.defra.gov.uk/protectedsites/sacselection/sac.asp?EUCode=UK0030358 [Accessed: October 2014].
Safetec, 2005. Risk Analysis of Decommissioning Activities. Joint Industry Project P20447 Main Report. Doc. No. ST-20447-RA-1-Rev 03. 3 March 2005. Safetec Nordic AS, Oslo, Norway.
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APPENDICES
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APPENDIX A
ENVIRONMENTAL AND SOCIETAL SENSITIVITIES
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Table A1: Summary of Environmental Characteristics and Sensitivities
Aspect Months of the Year
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
Site overview
The Viking VDP1 and LOGGS LDP1 infrastructure covered by this CA are located in Blocks 48/25, 49/16, 49/17 and 49/21 in the SNS.
Conservation interests
Offshore Annex I habitats
North Norfolk Sandbanks and Saturn Reef SCI
All of the infrastructure included in LDP1 and VDP1 are located within this SCI.
The sandbanks typically have fields of sand waves associated with them. The Annex I biogenic reef habitats formed by the polychaete worm (S. spinulosa) are also present in the SCI.
Inner Dowsing, Race Bank and North Ridge SCI
The SCI is located 63 km west of the LDP1 area.
The SCI is designated for its sandbanks which are slightly covered by seawater all the time, and for its S. spinulosa reef habitats.
Haisborough, Hammond and Winterton SCI
The SCI is located 26 km south of the LDP1 area.
The SCI is designated for sandbanks which are slightly covered by seawater all the time, and for S. spinulosa reef habitats.
Coastal conservation sites
SACs
Two inshore SACs are located less than 70 km from the LOGGS infrastructure:
Overstand Cliffs (57 km SW)
The Wash and North Norfolk Coast (62 km SW)
SPAs
There are two inshore SPAs located less than 70 km from the LDP1 decommissioning area:
The North Norfolk Coast (65 km SW)
The Outer Thames Estuary (68 km S)
Coastal and Offshore Annex II species
Harbour porpoise L M L L VH H L
Bottlenose dolphins No bottlenose dolphins were recorded in the area.
Grey seals Based on density at sea data there could be between 0 - 5 grey seals per five by five km grid cell.
Common seals Based on density at sea data there could be between 0 - 50 common seals per five by five km grid cell.
Designated areas
No designated conservation sites (Marine Coastal Zones) coincide with the Viking and LOGGS facilities.
Plankton
Plankton in the sea area surrounding Viking and LOGGS are likely to be typical for the SNS.
Dominant phytoplankton species are dinoflagellates of the genus Ceratium, including C. fusus, C. furca and C. tripos. High numbers of the genus Cheaetoceros are also present. Dominant species of zooplankton present include small copepods including Para-Pseudoclanus spp., and echinoderm larvae. The larger species of copepods, Calanus helgolandicus and Metridia lucens are also present.
Key:
Porpoise vulnerability index
L low M medium H high VH very high no sightings
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Table A1 (continued): Summary of Environmental Characteristics and Sensitivities
Aspect Months of the Year
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
Benthic environment
Seabed sediments
Sediments in both decommissioning areas comprise fine to coarse sands, often silty and with variable amounts of shell fragments and occasional pebbles and cobbles. The highly dynamic marine environment restricts the silt and clay content to less than 5 %.
Chemical analysis of sediment samples found metals and TPH to be within the range of reported background concentrations and below the effects range.
The seabed habitat when classified using the EUNIS code is A5.2: “Sublittoral, clean medium to fine or non-cohesive slightly muddy sands on open coasts, offshore or in estuaries and marine inlets”.
Benthic fauna
Benthic fauna identified during seabed surveys are typical for this area of the SNS. The shallow-water infaunal assemblage is typically characterised by taxa including polychaetes, bivalve molluscs and amphipods and crustaceans.
S. spinulosa were identified in several historical survey reports within and adjacent to the areas containing VDP1 and LDP1 infrastructure, however, recent surveys did not observe sections of S. spinulosa habitat which would qualify as reef under the JNCC guidance.
Fish – spawning and nursery areas for the ICES Rectangles 35F1 and 35F2
Mackerel N N N N NS* NS* NS* NS N N N N
Herring N N N N N N N N N N N N
Cod NS* NS* NS* NS N N N N N N N N
Whiting N NS NS NS NS NS N N N N N N
Plaice NS* NS* NS N N N N N N N N N
Lemon sole N N N NS NS NS NS NS NS N N N
Sole S S* S
Sandeel NS NS N N N N N N N N NS NS
Sprat S* S* S S
Nephrops NS NS NS NS* NS* NS* NS NS NS NS NS NS
Tope shark N N N N N N N N N N N N
Seabirds ( denotes median score for blocks containing infrastructure)
The most common species of seabird found in these areas of the SNS include: Fulmar, Gannet, Guillemot, Kittiwake, Razorbill, Puffin, Little Auk; as well as numerous species of gull, tern and skua.
Seabirds vulnerability 3 2 1 3 3 4 4 3 3 2 2 2
Marine mammals (denotes generalised index score for Quadrants 48 and 49)
Harbour porpoise L H L L VH H L
White-beaked dolphin L M L L L
White-sided dolphin L
Key:
Fish spawning/ nursery S spawning S* peak spawning N nursery
Seabird vulnerability 4 low 3 medium 2 high 1 very high
ND No data
Marine mammal sightings
L low M medium H high VH very high
ND no sightings
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Table A2: Summary of Socioeconomic Characteristics and Sensitivities
Aspect Characteristics
Commercial fishing
Moderate to low fishing activity occurs within the vicinity of the Viking and LOGGS facilities (ICES Rectangles 35F1 and 35F2).
Netherlands and the UK are the two main nationalities that work in the area. The UK vessel activity is targeted closer inshore along the AR pipeline, and consists primarily of potting vessels fishing for crab and lobsters. Dutch vessels primarily fish further offshore using beam trawlers targeting demersal species, including plaice. Based on VMS data there is little vessel activity in the immediate vicinity of the infield pipelines.
Other users
Shipping activity Shipping activity in the area of the Viking and LOGGS facilities ranges from very low to high.
Oil and Gas The nearest non-ConocoPhillips field is the Leman Field and its 33 platforms, located approximately 4 km to the south.
Telecommunications The Tampnet Telecommunications cable passes within 200 m of the Viking HD and crosses the Viking GD and ED infield pipelines.
Military activities No military exercise areas in the blocks containing VDP1 or LDP1 infrastructure.
Aggregate extractions Aggregate application, option and licence areas are located within the LOGGS area.
Windfarms There are three windfarms within 50 km of the VDP1 and LDP1 areas. Hornsea zone (32 km N), East Anglia zone (42 km SE) and the Dudgeon wind farm (36 km W).
Wrecks No designated historical wrecks have been recorded in the area. There are five wrecks classed as dangerous wrecks by the United Kingdom Hydrographic Office (UKHO) in the vicinity of VDP1 and LDP1 infrastructure.
Sources
Brown & May Marine, 2014. Commercial Fisheries Socioeconomic Impact Study Viking and LOGGS Field Decommissioning for ConocoPhillips. Draft report.
DECC (Department for Energy and Climate Change), 2014a. Table of current UKCS Installations: https://www.gov.uk/government/uploads/system/uploads/attachment_data/file/287000/Appendix_13_Installations_March_2014.xls [Accessed October 2014]
DECC, 2014b. 28th Round information. https://www.gov.uk/oil-and-gas-licensing-rounds [Date Accessed: October 2014]
DTI (Department of Trade and Industry), 2001. Report to the Department of trade and industry Strategic Environmental Assessment of the Mature Areas of the Offshore North Sea - SEA 2. British geological survey
Fugro EMU Limited, 2013a. ConocoPhillips (U.K.) Limited SNS decommissioning survey. UKCS 48 and 49. Viking AR, CD, DD, ED, GD, and HD. Habitat Assessment Report J/1/20/2342-3
Fugro EMU Limited, 2013b. ConocoPhillips (U.K.) Limited SNS decommissioning survey. UKCS 48 and 49. Viscount VO, Vulcan UR and Vampire/Valkyrie OD (LOGGS). Habitat Assessment Report J/1/20/2342-2
JNCC (Joint Nature Conservation Committee), 1999. Seabird vulnerability in UK waters: Block specific vulnerability. Joint Nature Conservation Committee, Aberdeen.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
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JNCC, 2007. Gubbay, S.JNCC Report No. 405 – Defining and managing Sabellaria spinulosa reefs: Report of an inter-agency workshop 1-2 May, 2007. JNCC, Peterborough. June 2007.
JNCC, 2014a. North Norfolk Sandbanks and Saturn Reef SAC. http://jncc.defra.gov.uk/protectedsites/sacselection/sac.asp?EUCode=UK0030358 [Accessed October 2014]
JNCC, 2014b. Humber Estuary Inshore SAC. http://jncc.defra.gov.uk/protectedsites/sacselection/sac.asp?EUcode=UK0030170 [Accessed October 2014]
JNCC, 2014c. The Wash and North Norfolk Coast Inshore SAC. http://jncc.defra.gov.uk/protectedsites/sacselection/sac.asp?EUCode=UK0017075 [Accessed October 2014]
JNCC, 2014d. Humber Flats Marshes and Coast SPA. http://jncc.defra.gov.uk/default.aspx?page=1996 [Accessed October 2014]
JNCC, 2014e. The Wash SPA. http://jncc.defra.gov.uk/default.aspx?page=2003 [Accessed October 2014]
JNCC, 2014f. North Norfolk Coast SPA. http://jncc.defra.gov.uk/default.aspx?page=2008 [Accessed October 2014]
Jones, E., McConnell, B., Sparling, C. and Matthiopoulos, J., 2013. Grey and Harbour Seal Density Maps. Sea Mammal Research Unit Report to Scottish Government. Marine Mammal Scientific Support Research Programme MMSS.001/11.
Reid, J.B., Evans, P.G.H. and Northridge, S.P., 2003. Atlas of cetacean distribution in north-west European waters. JNCC, Peterborough.
SeaZone Wrecks http://www.seazone.com/dataCatalogue.php © British Crown Copyright, 2013. All rights reserved.
UKDMAP, 1998. United Kingdom Digital Marine Atlas – An atlas of the seas around the British Isles. Software third edition compiled by British Oceanographic Data Centre, Birkenhead.
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APPENDIX B
OPTIONS DISMISSED AFTER INITIAL SCREENING
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Introduction
The following provides a description of the options considered along with the justification
for the selection or exclusion of the particular options from further consideration in the
Comparative Assessment (CA) following the CA workshop.
Method
Both the Technical Feasibility and the Risk of Operational Failure criteria were
considered for each option. The scoring was based on a majority decision by the
participants and any option with a score of ‘Major’ or ‘Severe’ has not been carried
forward. Descriptions of the scoring criteria are provided in Table B1. Some of the
options for full and partial removal (Table B2) had scores of ‘Major’ (for at least one of
the criteria), these options were not taken further, these are detailed below. All options
were carried forward for the decommission in situ method.
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Table B1: Scoring criteria for technical feasibility and risk of major operational failure
Criteria 1 2 3 4 5
Slight Minor Moderate Major Severe
Technical Feasibility Risk
(up-front evaluation of concept)
Technically robust concept that has been applied successfully on many comparable projects
AND
Limited development work required for use on proposed project
AND
No apparent/ negligible engineering or supply chain constraints (no risk to availability of option or schedule)
Concept that has been seriously considered, is believed to be technically robust but not proven on comparable projects
AND
Development work required for proposed project
AND/ OR
Minor engineering or supply chain constraints would have minor effects on availability of option or schedule
Concept that has been previously considered and is believed to be technically robust but not proven on comparable projects
AND
Significant development work is required for proposed project
AND/ OR
Engineering or supply chain constraints would delay the schedule and limit availability of option
Concept that has not previously been considered but could potentially be viable although not proven and with high degree of uncertainty
AND
A very large amount of development work required for proposed project
AND/ OR
Engineering or supply chain constraints would seriously impact the schedule and restrict availability of option
Concept has not been proven, is not technically robust, has not been considered on comparable projects and is not considered viable
OR
Engineering or supply chain constraints would completely prevent use of option
Risk of Major Operations Failure
(after field operations have started)
Negligible/ Low risk of major operation failure with good prospects of recovery in the event of failure
AND
No/ Minor schedule delay (part days)
AND
No impact on planned operations’ deliverables/ outcome.
Low risk of operation failure with good prospects of recovery
BUT
With low/ moderate schedule delay (days)
AND
No impact on planned operations’ deliverables/outcome
Moderate risk of operation failure with moderate prospects of recovery
AND/OR
Moderate/ significant schedule delay (weeks)
AND/ OR
Moderate re-engineering to achieve operations’ deliverables/ outcome
High risk of operation failure with limited prospects of recovery
AND/ OR
Protracted schedule delay (months)
AND/ OR
Extensive re-engineering to achieve operations’ deliverables/ outcome
High risk of catastrophic, unrecoverable operation failure where operations would be aborted completely and re-engineered.
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Table B2. Options screened out during the technical feasibility assessment for the Viking and LOGGS infield pipelines.
Criteria Decommissioning method
and dismissed options
Scoring
Slight Minor Moderate Major Severe
Technical Feasibility
Full removal
Cut, Float and Tow *
Partial removal
Reverse S-Lay *
Reverse reel *
Risk of Operational
Failure
Full removal
Cut, Float and Tow *
Partial removal
Reverse S- Lay *
Reverse Reel *
Reasons for exclusion
Full Removal – Cut, Float and Tow
Following a survey of the pipeline, a jet sled, plough or other device deployed from a
separate barge or vessel would be used to uncover the pipe during removal. The pipe
would then be suspended from davits aboard the recovery vessel which would carry
tensioners and stingers at both ends, with a cutting station mounted in the middle of the
vessel. As the pipeline is lifted and passed through to the aft stinger, a towing head and
flotation buoys would be attached to the pipeline.
A tug would pick up the towing head and maintain tension on the pipeline while the
recovery vessel picks up additional pipe. When the required length (up to 4.5 km) of
pipeline is reached, the pipeline would be severed on-board the recovery vessel and the
freed length of pipeline would be towed to shore. The process would then be repeated.
The buoys provide sufficient buoyancy for the pipeline to be towed close to the seabed,
close to the surface or at a mid-water level.
This method can be used to recover lengths of rigid pipeline, especially large diameter
steel line and concrete covered line. However, it was rejected from further consideration
in the CA because it has not been used previously in the SNS. Suitable vessels are
readily available but experienced crews are not, and the technique is not widely used.
Navigational and handling issues to pull the pipe ashore, cut in to lengths and transport it
onwards would have to be addressed. Agreements would have to be sought from owners
of any infrastructure along the tow route. Safety relating to two or more vessels working
in close proximity would also need to be addressed. Tow recovery would be expensive
(i.e. cost increases in proportion to length, water depth and weather) and removal rate
would be relatively slow. Fundamentally, there is a high degree of risk for one or more
step in the process to fail resulting in major delay or re-engineering solutions to be
sought.
This method was discounted from the further assessment as it scored a Technical
Feasibility and a Risk of Major Operations Failure score of ‘Major’ (Table B1).
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Partial Removal – Reverse Lay
With this option, the line would be winched over a stinger and through tensioners on
board the vessel which would then carry out the reverse lay. These tensioners hold the
weight of the suspended pipeline which takes up an "S" bend configuration between the
stinger and the seabed. The vessel would travel along pipeline route recovering the
pipeline, which would then be cut into manageable sections on the vessel. The
connections between the piggyback line and the main gas lines would be severed and
the two lines split for cutting. These would then be transported to shore for recycling and
disposal at suitable facilities, as required.
The method would be suitable for sections of the lines which are sufficiently sound to
enable the lines to be recovered by reverse lay, including lines covered in concrete. It
would not be suitable for sections which are seriously corroded.
Partial removal by reverse lay was rejected for further consideration because it would be
more suited to longer lines (or sections of longer lines) and would be less practicable for
shorter lines. The partial removal of sections of the piggybacked concrete coated/ steel
infield pipelines by reverse lay method was therefore discounted from further
assessment as it scored a Technical Feasibility score of ‘Major’ (Table B1).
Partial Removal – Reverse Reel
Reverse reel effectively reverses the normal pipeline construction method where flexible
lengths are reeled out from a hinged ramp or stinger as the barge moves forward. During
removal, the vessel would travel along the pipeline route, reeling the pipeline onto the
vessel. The pipeline would then be transported to shore and to recycling or disposal
facilities as required.
The method would only be suitable for sections of the lines which are flexible and
sufficiently sound to enable the lines to be recovered by reverse reel, including fusion-
bond epoxy/ polypropylene coated lines. It would not be suitable for sections which are
rigid, or covered in concrete.
Partial removal by reverse reel was rejected for further consideration because it would be
more suited to longer flexible lines (or sections of longer lines) and would not be
practicable for shorter lines. The partial removal of sections of the flexible plastic
pipelines by reverse reel method was therefore discounted from further assessment as it
scored a Technical Feasibility score of ‘Major’ (Table B1).
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APPENDIX C
TECHNICAL FEASIBILITY
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Technical Feasibility Summary of Options Carried Forward
Table C1 summarises the assessment of the various pipeline removal options carried forward from the CA workshops for the SNS Phase 1 Decommissioning
Project Viking and LOGGS infield pipelines. Technical Feasibility (indicated by the blue asterisk on Table C1) and Risk of Operational Failure (indicated by the
red asterisk on Table C1) criteria were considered for each option. Scoring was based on a majority decision by participants at the CA workshops and any
options with a score of ‘Major’ or ‘Severe’ were not carried forward into the CA (see Appendix B for an outline of those options not carried forward and a
definition of the scoring matrix criteria).
Table C1. Options carried forward from the technical feasibility assessment for the Viking and LOGGS infield pipelines.
Method Scoring
Comments Slight Minor Moderate Major Severe
Full removal (exposure and removal of all pipelines , excluding sections underneath live pipeline crossings )
Reverse S-Lay
* *
Limited information available regarding this technique.
Moderate engineering solutions may be required.
This technique is suitable for long sections of pipeline coated in concrete which are not flexible.
Reverse Reel
* *
Limited information available regarding this technique.
Moderate engineering solutions may be required.
This technique is only suitable for long sections of flexible plastic pipeline and would not be appropriate for concrete-coated pipelines.
Cut and Lift * * Cut and Lift techniques are proven and have been employed elsewhere on the UKCS.
This technique would be appropriate for concrete coated and plastic pipelines with piggybacked MeOH pipelines.
Partial removal (removal of exposed and spanned sections of pipeline and the burial of pipeline ends)
Cut and Lift * * Cut and Lift techniques are proven and have been employed elsewhere on the UKCS.
This technique would be appropriate for concrete and plastic coated pipelines with piggybacked MeOH pipelines.
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Decommission in situ (see comments for individual descriptions)
Minor Intervention
* *
This would involve rock-placement/ trenching of pipeline ends and exposed or spanned sections.
This is a proven technique that has been used elsewhere on the UKCS.
Slight risk of operational failure due to the potential requirement for mitigation if pipelines become exposed over time.
Pipelines decommissioned in situ will be monitored and assessed periodically for additional remediation as required.
Minimum Intervention
* *
This would involve rock-placement and/ or trenching of pipeline ends.
Method is only suitable for fully buried pipelines (as defined by Oil and Gas UK (2013)).
Pipelines decommissioned in situ will be monitored and assessed periodically for additional remediation as required.
Mattresses would be decommissioned in situ in their current state.
Note: * = Technical feasibility rating; * = Risk of Operational Failure rating.
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Scores were assigned against each of the scoring criteria as defined in Table C2. These
were based on the percentage weightings assigned by ConocoPhillips for technical
feasibility. For each option, the assessment criteria were scored and a combined
feasibility score was calculated by adding these scores together for each option. A
summary of these scores is provided in Table C3.
Table C2. Normalised scores for the CA workshop ratings
Scoring Normalised/ weighted score (per criteria)
‘Slight’ 7.5
‘Minor’ 5.0
‘Moderate’ 2.5
Table C3. Summary of feasibility assessment outcome
Option Technical Feasibility Risk of Operational
Failure Combined Feasibility
Scores
2: Full Removal - Cut and Lift 7.5 7.5 15.0
3: Partial Removal - Cut and Lift
7.5 7.5 15.0
4: Decommission in situ - Minor Intervention
7.5 5.0 12.5
5: Decommission in situ - Minimum Intervention
7.5 5.0 12.5
1: Full Removal Reverse S-Lay or Reel
2.5 2.5 5.0
Reference
Oil and Gas UK, 2013. Decommissioning of Pipelines in the North Sea Region 2013.
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APPENDIX D
ASSESSMENT OF SAFETY RISKS
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Introduction
This section presents a comparison of the Potential Loss of Life (PLL) values for each of
the options for decommissioning the infield pipelines during ConocoPhillips SNS Phase 1
Decommissioning. PLL provides a quantitative index of safety that is commonly used in
comparative assessments for decommissioning projects. This study follows the method
given in the report in the Health and Safety Executive’s Joint Industry Project on the Risk
Analysis of Decommissioning Activities (Safetec 2005).
The CA safety assessment contains a method statement and assumptions governing the
calculation of PLL for the options, quantitative PLL results tables for each of the options,
and an ordered ranking of the options based on PLL.
Note that the PLL figures are intended to provide an indicator of safety performance to
assist in the comparison and selection of the decommissioning options. In the present
CA, the use of PLL is necessarily limited to relatively high-level comparisons. More
detailed assessments and studies on safety hazards and risks, as well as control and
mitigation requirements, will however be conducted as the engineering programme for
decommissioning progresses.
Assessment Method
The calculation of PLL for each option was carried as follows:
1. Individual PLLs for each activity during the work programme were calculated by multiplying worker exposure (expressed in hours) or the numbers of lifts by cranes by the corresponding Fatal Accident Rate (FAR) (expressed as the number fatalities per 100 million hours).
2. ConocoPhillips provided estimates of the numbers of Personnel on Board (POB) the various types vessels potentially required for work programmes for each decommissioning option, the durations of vessel operations (including Waiting on Weather (WOW)), numbers of air divers and dive durations, numbers of lifts by crane (with the exception of lifts for mattress recovery – see below under Assumptions), and numbers and durations of helicopter journeys to and from vessels. Helicopter POB was based on an Airbus AS 332L2 Super Puma Mark II helicopter (Airbus, 2014).
3. Worker exposure hours for pipeline material transport onshore for each option has been estimated from the total journey time required to cover the overall distance travelled during onshore road haulage.
4. The report by Safetec (2005) provided the FAR values for supply vessels, dive support vessels (DSVs), diving operations, off-duty resting periods, crane lifts, helicopters take offs and landings and flights. This report did not, however, contain FARs for the remotely operated vehicle support vessels (ROVSVs) proposed for survey work and the construction support vessels (CSVs) for the support of subsea operations and for rock-placement. Safetec’s FAR for a DSV was considered to provide the nearest value which corresponded to these vessel types. The FAR for onshore transportation was taken from OGP (2013).
5. PLLs for all of the activities were summed to provide the total PLL for the individual
option. The options were then ranked on the basis of their respective overall PLL
values.
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Assumptions
For the calculation of PLL during the decommissioning of the Viking and LOGGS
pipelines, the following assumptions were made:
1. FAR values from Safetec (2005) and OGP (2013) were applied to each option and, in the absence of more specific company or recent industry sector data, were assumed to be representative of the decommissioning sector.
2. All options have post-decommissioning surveys associated with them and draw on pre-decommissioning data acquired during the operating phase. In addition however, the partial removal and decommission in situ options, which have ongoing liability, have, for comparative assessment purposes, been assumed to require three further monitoring surveys, at two, five and ten years post-decommissioning.
3. Pipeline component weights are taken from the materials inventory (D3, 2014).
4. Worker exposure hours associated with material transport onshore to recycling, treatment or disposal facilities has been estimated from the total journey time required to cover the overall distance travelled during onshore haulage. These estimates assume that:
The inventories of pipeline materials landed onshore would be transported by lorry, rather than by rail or subsequently by vessels.
Articulated lorry/ lorries with a 33 tonne load capacity, operated by a single person (driver) would be used.
Lorries would travel at an average speed of 50 km/h during journeys involving a variety of road types and traffic conditions.
Inventory weights for pipeline materials landed onshore (D3, 2014) can be used to estimate the number of lorry loads required (and hence the number of journeys).
The materials would be landed at Hartlepool in Teesside (nearest to existing decommissioning facilities).
Recovered waste concrete and plastics would be taken to hazardous/ non-hazardous landfill in Hartlepool (circa 1 km from docks). Each round trip from the docks to the landfill would cover a distance of 2 km.
Recovered NORM and coal tar coating (both integral to pipelines) would be taken for disposal via landfill in Kings Cliffe, Northamptonshire (266 km from docks).
A worst case transportation scenario has therefore been assumed where all of the infield lines would have NORM (Naturally Occurring Radioactive Material) contamination which requires to be transported to Kings Cliffe for disposal.
5. A round trip involving a helicopter flight to the centre of the Viking and LOGGS area is estimated to take 1 hour. Take-offs and landings are each estimated to take 10 minutes (0.17 hour) and each round trip would involve four take-off/landing events.
6. As stated in Section 1.3, ConocoPhillips provided the breakdown of vessel types, tasks/activities, durations, crewing (POB), diver numbers, dive durations, and well as contingency time for and WOW. The following assumptions underlie the PLL assessments for vessel operations:
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A 12-hour working shift pattern is assumed throughout (i.e. comprising 12 hours working and 12 hours off duty per day), apart from:
o Divers who each have 5 hours of diving time per day (i.e. comprising 2 two-and-half hour dives); and
o WOW which assumes that on average the POB would have 8 hours working time per day, rather than 12 hours.
An average POB of 113 has been applied to the pipelay vessel in Option 1: Full Removal – Reverse S-lay/ Reel. Two types of pipelay vessel are proposed: a reel vessel with a POB of 75 for work on two of the infield lines (Viscount VO and Vampire OD) and an S-lay pipelay vessel with a POB of 125 for the other lines. The average POB recognises the balance of the workload.
ConocoPhillips estimates of the number of crane lifts for per option were applied throughout, except that (a) the numbers for the deployment of ROVs and other equipment from survey vessels were assigned pro rata from a single figure that ConocoPhillips provided for Option 1; and (b) the estimates of numbers of lifts for mattress recovery from the seabed assumed that a modified half height container would be deployed at a designated collection point on the seabed. Each 6 tonne (weight in air) mattress would be transferred from its original location and placed in the container, which would subsequently be retrieved. Half-heights typically have a load capacity of 26.5 tonnes in air. Given the structural complexity of mattresses, it was further assumed that the container would be retrieved after approximately half of the corresponding weight of material in air had been placed in it. It was estimated that approximately 316 lifts would be required during the recovery of all of the mattresses: 63 for container deployment, 127 for lifting mattresses into the container, 63 for recovery of the container to a DSV, and 63 for transfers of materials to supply vessels. Options 1 to 4 require removal of the mattresses where safe to do so, with subsequent disposal onshore. None of the mattresses would be recovered in Option 5 (Decommission in situ - Minimum Intervention).
Results
Tables D1 to D5 present the results of the PLL calculations for the individual options.
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Table D1. Option 1: Full Removal Reverse S-Lay or Reel
Vessel or Vehicle
Activity
Option 1: Full Removal – Reverse S-Lay/ Reel
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs and
Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
Supply Vessel (Operations)
Mobilisation and demobilisation
15 Working 420 6,300 18.1 1.14 x 10-3
15 Resting 420 6,300 0.2 1.26 x 10-5
Transit to and from site 15 Working 336 5,040 18.1 9.12 x 10
-4
15 Resting 336 5,040 0.2 1.01 x 10-5
Onsite 15 Working 168 2,520 18.1 4.56 x 10
-4
15 Resting 168 2,520 0.2 5.04 x 10-6
Waiting on weather 15 Working 8 126 18.1 2.28 x 10
-5
15 Resting 25 378 0.2 7.56 x 10-7
Onsite: Lifts by crane 32 N/A N/A 0 1.10 x 10-5
3.52 x 10-4
Supply Vessel (Mattress Removal)
Mobilisation and demobilisation
15 Working 120 1,800 18.1 3.26 x 10-4
15 Resting 120 1,800 0.2 3.60 x 10-6
Transit to and from site 15 Working 96 1,440 18.1 2.61 x 10
-4
15 Resting 96 1,440 0.2 2.88 x 10-6
Onsite 15 Working 96 1,440 18.1 2.61 x 10
-4
15 Resting 96 1,440 0.2 2.88 x 10-6
Waiting on weather 15 Working 5 72 18.1 1.30 x 10
-5
15 Resting 14 216 0.2 4.32 x 10-7
Onsite: Lifts by crane 63 N/A N/A 0 1.10 x 10-5
6.93 x 10-4
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Table D1 (continued). Option 1: Full Removal Reverse S-Lay or Reel
Vessel or Vehicle
Activity
Option 1: Full Removal – Reverse S-Lay/ Reel continued
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs and
Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
DSV (Operations)
Mobilisation and demobilisation
50 Working 1416 70,800 7.5 5.31 x 10-3
50 Resting 1416 70,800 0.2 1.42 x 10-4
Transit to and from site 50 Working 408 20,400 7.5 1.53 x 10
-3
50 Resting 408 20,400 0.2 4.08 x 10-5
Onsite - Operations excluding divers
32 Working 588 18,816 7.5 1.41 x 10-3
32 Resting 588 18,816 0.2 3.76 x 10-5
Onsite: Diving operations 18 Working 245 4,410 7.5 3.31 x 10
-4
18 Resting 931 16,758 0.2 3.35 x 10-5
Waiting on weather 50 Working 29 1,470 7.5 1.10 x 10
-4
50 Resting 88 4,410 0.2 8.82 x 10-6
Onsite: Lifts by crane 242 N/A N/A 0 1.10 x 10-5
2.66 x 10-3
DSV (Mattress Removal)
Mobilisation and demobilisation
88 Working 168 14,784 7.5 1.11 x 10-3
88 Resting 168 14,784 0.2 2.96 x 10-5
Transit to and from site 88 Working 48 4,224 7.5 3.17 x 10
-4
88 Resting 48 4,224 0.2 8.45 x 10-6
Onsite - Operations excluding divers
60 Working 180 10,800 7.5 8.10 x 10-4
60 Resting 180 10,800 0.2 2.16 x 10-5
Onsite: Diving operations 28 Working 75 2,100 7.5 1.58 x 10
-4
28 Resting 285 7,980 0.2 1.60 x 10-5
Waiting on weather 88 Working 9 792 7.5 5.94 x 10
-5
88 Resting 27 2,376 0.2 4.75 x 10-6
Onsite: Lifts by crane 189 N/A N/A 0 1.10 x 10-5
2.08 x 10-3
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Table D1 (continued). Option 1: Full Removal Reverse S-Lay or Reel
Vessel or Vehicle
Activity
Option 1: Full Removal – Reverse S-Lay/ Reel continued
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs and
Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
CSV (Operations
plus Mattress Removal
Mobilisation and demobilisation
50 Working 576 28,800 7.5 2.16 x 10-3
50 Resting 576 28,800 0.2 5.76 x 10-5
Transit to and from site 50 Working 192 9,600 7.5 7.20 x 10
-4
50 Resting 192 9,600 0.2 1.92 x 10-5
Onsite 50 Working 460 22,980 7.5 1.72 x 10
-3
50 Resting 460 22,980 0.2 4.60 x 10-5
Waiting on weather 50 Working 23 1,140 7.5 8.55 x 10
-5
50 Resting 68 3,420 0.2 6.84 x 10-6
Onsite: Lifts by crane N/A N/A N/A 0 1.10 x 10-5
0
Pipelay Vessel
Mobilisation and demobilisation
113 Working 610 68,885 7.5 5.17 x 10-3
113 Resting 610 68,885 0.2 1.38 x 10-4
Transit to and from site 113 Working 192 21,696 7.5 1.63 x 10
-3
113 Resting 192 21,696 0.2 4.34 x 10-5
Onsite 113 Working 233 26,306 7.5 1.97 x 10
-3
113 Resting 233 26,306 0.2 5.26 x 10-5
Waiting on weather 113 Working 11 1,288 7.5 9.66 x 10
-5
113 Resting 34 3,865 0.2 7.73 x 10-5
Onsite: Lifts by crane N/A N/A N/A 0 1.10 x 10-5
0
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D7 April 2015
Table D1 (continued). Option 1: Full Removal Reverse S-Lay or Reel
Vessel or Vehicle
Activity
Option 1: Full Removal – Reverse S-Lay/ Reel continued
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs and
Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
Survey Vessel (ROVSV)
Mobilisation and demobilisation
45 Working 48 2160 7.5 1.62 x 10-4
45 Resting 48 2160 0.2 4.32 x 10-6
Transit to and from site 45 Working 48 2160 7.5 1.62 x 10
-4
45 Resting 48 2160 0.2 4.32 x 10-6
Onsite 45 Working 59 2646 7.5 1.98 x 10
-4
45 Resting 59 2646 0.2 5.29 x 10-6
Waiting on weather 45 Working 15 675 7.5 5.06 x 10
-5
45 Resting 45.0 2025 0.2 4.05 x 10-6
Onsite: Lifts by crane 80 N/A N/A 0 1.10 x 10-5
8.80 x 10-4
Helicopter Transit to and from site 28 N/A 149 4172 32.0 1.34 x 10
-3
Take-offs and landings 28 596 0.17 2837 97 2.75 x 10-3
Articulated Lorry
Onshore transport of pipeline materials
One person per vehicle
Working N/A 2495 2.87 7.16 x 10-5
Overall Total 750,199 4.03 x 10-2
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D8 April 2015
Table D2. Option 2: Full Removal - Cut and Lift
Vessel or Vehicle
Activity
Option 2: Full Removal - Cut and Lift
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs and
Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
Supply Vessel (Mattress Removal)
Mobilisation and demobilisation
15 Working 120 1,800 18.1 3.26 x 10-4
15 Resting 120 1,800 0.2 3.60 x 10-6
Transit to and from site 15 Working 96 1,440 18.1 2.61 x 10
-4
15 Resting 96 1,440 0.2 2.88 x 10-6
Onsite 15 Working 96 1,440 18.1 2.61 x 10
-4
15 Resting 96 1,440 0.2 2.88 x 10-6
Waiting on weather 15 Working 5 72 18.1 1.30 x 10
-5
15 Resting 14 216 0.2 4.32 x 10-7
Onsite: Lifts by crane 63 N/A N/A 0 1.10 x 10-5
6.93 x 10-4
DSV (Mattress Removal)
Mobilisation and demobilisation
88 Working 168 14,784 7.5 1.11 x 10-3
88 Resting 168 14,784 0.2 2.96 x 10-5
Transit to and from site 88 Working 48 4,224 7.5 3.17 x 10
-4
88 Resting 48 4,224 0.2 8.45 x 10-6
Onsite - Operations excluding divers
60 Working 180 10,800 7.5 8.10 x 10-4
60 Resting 180 10,800 0.2 2.16 x 10-5
Onsite: Diving operations 28 Working 75 2,100 7.5 1.58 x 10
-4
28 Resting 285 7,980 0.2 1.60 x 10-5
Waiting on weather 88 Working 4.5 396 7.5 2.97 x 10
-5
88 Resting 88.2 7,762 0.2 1.55 x 10-5
Onsite: Lifts by crane 189 N/A N/A 0 1.10 x 10-5
2.08 x 10-3
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D9 April 2015
Table D2 (continued). Option 2: Full Removal - Cut and Lift
Vessel or Vehicle
Activity
Option 2: Full Removal - Cut and Lift
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs
and Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
CSV (Operations
plus Mattress Removal)
Mobilisation and demobilisation
84 Working 192 16,128 7.5 1.21 x 10-3
84 Resting 192 16,128 0.2 3.23 x 10-5
Transit to and from site 84 Working 1,452 121,968 7.5 9.15 x 10
-3
84 Resting 1,452 121,968 0.2 2.44 x 10-4
Onsite 84 Working 11,916 1,000,944 7.5 7.51 x 10
-2
84 Resting 11,916 1,000,944 0.2 2.00 x 10-3
Waiting on weather 84 Working 4,170 350,280 7.5 2.63 x 10
-2
84 Resting 12,510 1,050,840 0.2 2.10 x 10-3
Onsite: Lifts by crane 13,675 N/A N/A N/A 1.10 x 10-5
1.50 x 10-1
Survey Vessel (ROVSV)
Mobilisation and demobilisation
45 Working 48 2,160 7.5 1.62 x 10-4
45 Resting 48 2,160 0.2 4.32 x 10-6
Transit to and from site 45 Working 48 2,160 7.5 1.62 x 10
-4
45 Resting 48 2,160 0.2 4.32 x 10-6
Onsite 45 Working 59 2,646 7.5 1.98 x 10
-4
45 Resting 59 2,646 0.2 5.29 x 10-6
Waiting on weather 45 Working 15 675 7.5 5.06 x 10
-5
45 Resting 45 2,025 0.2 4.05 x 10-6
Onsite: Lifts by crane 80 N/A N/A 0 1.10 x 10-5
8.80 x 10-4
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D10 April 2015
Table D2 (continued). Option 2: Full Removal - Cut and Lift
Vessel or Vehicle
Activity
Option 2: Full Removal - Cut and Lift
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs
and Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
Helicopter Transit to and from site 28 N/A 1,021 28,588 32 9.15 x 10
-3
Take-offs and landings 28 4,084 0.17 19,440 97 1.89 x 10-2
Articulated Lorry
Onshore transport of pipeline materials
One person per vehicle
Working N/A 2,495 2.87 7.16 x 10-5
Overall Total
3,833,856
3.02 x 10-1
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D11 April 2015
Table D3. Option 3: Partial Removal - Cut and Lift
Vessel or Vehicle
Activity
Option 3: Partial Removal – Cut and Lift
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs
and Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
Supply Vessel (Mattress Removal)
Mobilisation and demobilisation
15 Working 120 1,800 18.1 3.26 x 10-4
15 Resting 120 1,800 0.2 3.60 x 10-6
Transit to and from site 15 Working 96 1,440 18.1 2.61 x 10
-4
15 Resting 96 1,440 0.2 2.88 x 10-6
Onsite 15 Working 96 1,440 18.1 2.61 x 10
-4
15 Resting 96 1,440 0.2 2.88 x 10-6
Waiting on weather 15 Working 5 72 18.1 1.30
15 Resting 14 216 0.2 4.32 x 10-7
Onsite: Lifts by crane 63 N/A N/A 0 1.1 x 10-5
6.9 x 10-4
DSV (Mattress Removal)
Mobilisation and demobilisation
88 Working 168 14,784 7.5 1.11 x 10-3
88 Resting 168 14,784 0.2 2.96 x 10-5
Transit to and from site 88 Working 48 4,224 7.5 3.17 x 10
-4
88 Resting 48 4,224 0.2 8.45 x 10-6
Onsite - Operations excluding divers
60 Working 180 10,800 7.5 8.10 x 10-4
60 Resting 180 10,800 0.2 2.16 x 10-5
Onsite: Diving operations 28 Working 75 2,100 7.5 1.58 x 10
-4
28 Resting 285 7,980 0.2 1.60 x 10-5
Waiting on weather 88 Working 4.5 396 7.5 3.00 x 10
-5
88 Resting 27 2,376 0.2 4.75 x 10-6
Onsite: Lifts by crane 189 N/A N/A 0 1.1 x 10-5
2.08 x 10-3
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D12 April 2015
Table D3 (continued). Option 3: Partial Removal - Cut and Lift
Vessel or Vehicle
Activity
Option 3: Partial Removal - Cut and Lift
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs
and Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
CSV (Rock-placement)
Mobilisation and demobilisation
60 Working 48 2,880 7.5 2.16 x 10-4
60 Resting 48 2,880 0.2 5.76 x 10-6
Transit to and from site 60 Working 66 3,960 7.5 2.97 x 10
-4
60 Resting 66 3,960 0.2 7.92 x 10-6
Onsite 60 Working 48 2,880 7.5 2.16 x 10
-4
60 Resting 48 2,880 0.2 5.76 x 10-6
Waiting on weather 60 Working 17 1,044 7.5 7.83 x 10
-5
60 Resting 52 3,132 0.2 6.26 x 10-6
Onsite: Lifts by crane N/A N/A N/A 0 1.1 x 10-5
0
Survey Vessel (ROVSV)
Mobilisation and demobilisation
45 Working 120 5,400 7.5 4.05 x 10-4
45 Resting 120 5,400 0.2 1.08 x 10-5
Transit to and from site 45 Working 120 5,400 7.5 4.05 x 10
-4
45 Resting 120 5,400 0.2 1.08 x 10-5
Onsite 45 Working 150 6,750 7.5 5.06 x 10
-4
45 Resting 150 6,750 0.2 1.35 x 10-5
Waiting on weather 45 Working 37 1,647 7.5 1.24 x 10
-4
45 Resting 110 4,941 0.2 9.88 x 10-6
Onsite: Lifts by crane 400 N/A N/A 0 1.1 x 10-5
4.4E x 10-3
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D13 April 2015
Table D3 (continued). Option 3: Partial Removal - Cut and Lift
Vessel or Vehicle
Activity
Option 3: Partial Removal - Cut and Lift continued
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs
and Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
Helicopter Transit to and from site 28 N/A 226 6,328 32 2.02 x 10
-3
Take-offs and landings 28 904 0.17 4,303 97 4.17 x 10-3
Articulated Lorry
Onshore transport of pipeline materials
One person per vehicle
Working N/A 204 2.87 5.85 x 10-6
Overall Total
865,871
6.97 x 10-2
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D14 April 2015
Table D4. Option 4: Decommission in situ - Minor Intervention
Vessel or Vehicle
Activity
Option 4: Decommission in situ – Minor Intervention
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs
and Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
Supply Vessel (Mattress Removal)
Mobilisation and demobilisation
15 Working 120 1,800 18.1 3.26 x 10-4
15 Resting 120 1,800 0.2 3.60 x 10-6
Transit to and from site 15 Working 96 1,440 18.1 2.61 x 10
-4
15 Resting 96 1,440 0.2 2.88 x 10-6
Onsite 15 Working 96 1,440 18.1 2.61 x 10
-4
15 Resting 96 1,440 0.2 2.88 x 10-6
Waiting on weather 15 Working 5 72 18.1 1.30 x 10
-5
15 Resting 14 216 0.2 4.32 x 10-7
Onsite: Lifts by crane 63 N/A N/A 0 1.1 x 10-5
6.93 x 10-4
DSV (Operations)
Mobilisation and demobilisation
88 Working 216 19,008 7.5 1.43 x 10-3
88 Resting 216 19,008 0.2 3.80 x 10-5
Transit to and from site: 88 Working 378 33,264 7.5 2.49 x 10
-3
88 Resting 378 33,264 0.2 6.65 x 10-5
Onsite - Operations excluding divers
60 Working 564 33,840 7.5 2.54 x 10-3
60 Resting 564 33,840 0.2 6.77 x 10-5
Onsite: Diving operations 28 Working 235 6,580 7.5 4.94 x 10
-4
28 Resting 893 25,004 0.2 5.00 x 10-5
Waiting on weather 88 Working 155 13,675 7.5 1.03 x 10
-3
88 Resting 466 41,026 0.2 8.21 x 10-5
Onsite: Lifts by crane 168 N/A N/A 0 1.1 x 10-5
1.8 x 10-3
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D15 April 2015
Table D4. (continued) Option 4: Decommission in situ - Minor Intervention
Vessel or Vehicle
Activity
Option 4: Decommission in situ - Minor Intervention
Number of Workers or
Lifts by Crane
Working or Rest Period and Number of Helicopter Take-offs
and Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
DSV (Mattress Removal)
Mobilisation and demobilisation
88 Working 168 14,784 7.5 1.11 x 10-3
88 Resting 168 14,784 0.2 2.96 x 10-5
Transit to and from site: POB
88 Working 48 4,224 7.5 3.17 x 10-4
88 Resting 48 4,224 0.2 8.45 x 10-6
Onsite - Operations excluding divers
60 Working 180 10,800 7.5 8.10 x 10-4
60 Resting 180 10,800 0.2 2.16 x 10-5
Onsite: Diving operations 28 Working 75 2,100 7.5 1.58 x 10
-4
28 Resting 285 7,980 0.2 1.60 x 10-5
Waiting on weather 88 Working 4.5 396 7.5 2.97 x 10
-5
88 Resting 27 2,376 0.2 4.75 x 10-6
Onsite: Lifts by crane 56 N/A N/A 0 1.1 x 10-5
6.2 x 10-4
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D16 April 2015
Table D4 (continued). Option 4: Decommission in situ - Minor Intervention
Vessel or Vehicle
Activity
Option 4: Decommission in situ - Minor Intervention continued
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs
and Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
CSV (Operations
plus Mattress Removal)
Mobilisation and demobilisation
60 Working 216 12,960 7.5 9.72 x 10-4
60 Resting 216 12,960 0.2 2.59 x 10-5
Transit to and from site 60 Working 353 21,168 7.5 1.59 x 10
-3
60 Resting 353 21,168 0.2 4.23 x 10-5
Onsite 60 Working 204 12,240 7.5 9.18 x 10
-4
60 Resting 204 12,240 0.2 2.45 x 10-5
Waiting on weather 60 Working 74 4,464 7.5 3.35 x 10
-4
60 Resting 223 13,392 0.2 2.68 x 10-5
Onsite: Lifts by crane 24 N/A N/A 0 1.1 x 10-5
2.64 x 10-4
Survey Vessel (ROVSV)
Mobilisation and demobilisation
45 Working 120 5,400 7.5 4.05 x 10-4
45 Resting 120 5,400 0.2 1.08 x 10-5
Transit to and from site 45 Working 120 5,400 7.5 4.05 x 10
-4
45 Resting 120 5,400 0.2 1.08 x 10-5
Onsite 45 Working 150 6,750 7.5 5.06 x 10
-4
45 Resting 150 6,750 0.2 1.35 x 10-5
Waiting on weather 45 Working 37 1,647 7.5 1.24 x 10
-4
45 Resting 110 4,941 0.2 9.88 x 10-6
Onsite: Lifts by crane 400 N/A N/A 0 1.1 x 10-5
4.4 x 10-3
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D17 April 2015
Table D4 (continued). Option 4: Decommission in situ - Minor Intervention
Vessel or Vehicle
Activity
Option 4: Decommission in situ - Minor Intervention continued
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs
and Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
Helicopter Transit to and from site 28 N/A 100 2,800 32 8.96 x 10
-4
Take-offs and landings 28 400 0.17 1,904 97 1.85 x 10-3
Articulated Lorry
Onshore transport of pipeline materials
One person per vehicle
Working N/A 12 2.87 3.44 x 10-7
Overall Total
497,621
2.76 x 10-2
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D18 April 2015
Table D5. Option 5: Decommission in situ - Minimum Intervention
Vessel or Vehicle
Activity
Option 5: Decommission in situ – Minimum Intervention
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs
and Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
CSV (Operations
plus Mattress Removal)*
Mobilisation and demobilisation
60 Working 36 2,160 7.5 1.62 x 10-4
60 Resting 36 2,160 0.2 4.32 x 10-6
Transit to and from site 60 Working 48 2,880 7.5 2.16 x 10
-4
60 Resting 48 2,880 0.2 5.76 x 10-6
Onsite 60 Working 36 2,160 7.5 1.62 x 10
-4
60 Resting 36 2,160 0.2 4.32 x 10-6
Waiting on weather 60 Working 6 378 7.5 2.84 x 10
-5
60 Resting 38 2,268 0.2 4.54 x 10-6
Onsite: Lifts by crane 24 N/A N/A 0 1.1 x 10-5
2.6 x 10-4
DSV (Operations)
Mobilisation and demobilisation
88 Working 216 19,008 7.5 1.43 x 10-3
88 Resting 216 19,008 0.2 3.80 x 10-5
Transit to and from site: POB
88 Working 378 33,264 7.5 2.49 x 10-3
88 Resting 378 33,264 0.2 6.65 x 10-5
Onsite - Operations excluding divers
60 Working 564 33,840 7.5 2.54 x 10-3
60 Resting 564 33,840 0.2 6.77 x 10-5
Onsite: Diving operations 28 Working 235 6,580 7.5 4.94 x 10
-4
28 Resting 893 25,004 0.2 5.00 x 10-5
Waiting on weather 88 Working 155 13,675 7.5 1.03 x 10
-3
88 Resting 466 41,026 0.2 8.21 x 10-5
Onsite: Lifts by crane 168 N/A N/A 0 1.1 x 10-5
1.8 x 10-3
* In order to gain access to cut the pipeline at the satellite platforms there may be a need to remove a small number of mattresses.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D19 April 2015
Table D5. Option 5 (continued): Decommission in situ - Minimum Intervention
Vessel or Vehicle
Activity
Option 5: Decommission in situ - Minimum Intervention continued
Number of Workers or
Lifts by Crane
Working and Rest Period or Number of Helicopter Take-offs
and Landings
Exposure Hours Per
Worker
Exposure Hours for the
Activity FAR PLL
Survey Vessel (ROVSV)
Mobilisation and demobilisation
45 Working 120 5,400 7.5 4.05 x 10-4
45 Resting 120 5,400 0.2 1.08 x 10-5
Transit to and from site 45 Working 120 5,400 7.5 4.05 x 10
-4
45 Resting 120 5,400 0.2 1.08 x 10-5
Onsite 45 Working 150 6,750 7.5 5.06 x 10
-4
45 Resting 150 6,750 0.2 1.35 x 10-5
Waiting on weather 45 Working 37 1,647 7.5 1.24 x 10
-4
45 Resting 110 4,941 0.2 9.88 x 10-6
Onsite: Lifts by crane 400 N/A N/A 0 1.1 x 10-5
4.4 x 10-3
Helicopter Transit to and from site 28 N/A 63 1,764 32 5.64 x 10
-4
Take-offs and landings 28 51 0.17 243 97 2.35 x 10-4
Articulated Lorry
Onshore transport of pipeline materials
One person per vehicle
Working N/A 12 2.87 3.44 x 10-7
Overall Total
319,262
1.77 x 10-2
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited D20 April 2015
Comparison of Options
The comparison shown below ranks the options in reverse order of the magnitude of the
respective overall PLLs, i.e. the best performing option has the lowest overall PLL. This
table also reveals that the PLL ranking mirrors the overall totals for worker exposure
hours which, in turn, reflect the engineering complexity, vessel requirements, onshore
transportation requirements and durations of the work programmes for the individual
options.
Table D6. Summary of safety assessment outcome
Option Overall PLL Total Worker
Exposure Hours
5: Decommission In situ - Minimum Intervention 1.77 x 10-2
319,262
4: Decommission In situ - Minor Intervention 2.76 x 10-2
497,621
1: Full Removal Reverse S-Lay or Reel 4.03 x 10-2
750,199
3: Partial Removal - Cut and Lift 6.97 x 10-2
865,871
2: Full Removal - Cut and Lift 3.02 x 10-1
3,833,856
References
Airbus, 2014. Profile for Superpuma helicopter. http://www.airbushelicopters.com/site/en/ref/Characteristics_117.html [Accessed August 2014]
D3 , 2014. DAWN Materials Inventory. Online Portal D3 Consulting and ConocoPhillips UK Limited. [Assessed August 2014]
OGP (Oil and Gas Producers), 2013. Safety Performance Indicators – 2012 Data. Report No. 2012s (June 2013). OGP Data Series. International Association of Oil and Gas Producers, London, United Kingdom.
Safetec, 2005. Risk Analysis of Decommissioning Activities. Joint Industry Project P20447 Main Report. Doc. No. ST-20447-RA-1-Rev 03. 3 March 2005. Safetec Nordic AS, Oslo, Norway.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited April 2015
APPENDIX E
ASSESSMENT OF ENVIRONMENTAL AND SOCIETAL RISKS
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited April 2015
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Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E1 April 2015
Introduction
This appendix provides the methodology and results of the qualitative assessment of
environmental and societal risk. The assessment enabled a distinction to be made
between four categories of risk: High, Significant, Medium and Low. Differentiation
between options was based on the total number and characteristics of potential impacts
associated with each decommissioning option assessed against these risk categories.
The results of environmental and societal components of the risk assessment were
compared separately.
Method
Following the Feasibility Assessments, Environmental and Social Risk Assessments
were undertaken for the five decommissioning options carried forward. These
assessments were undertaken using the following method:
1. Each decommissioning option was broken into its component activities/ operations
and end points (e.g. rock-placement, cutting of pipeline sections excavation of buried
pipeline and waste in landfill).
2. Receptors at risk (elements of society or the environment) were identified from the
potential operational impacts and end-point impacts:
Environment (Physical, Chemical and Biological):
i. Marine environmental impacts/ risks, including operational and end-point
impacts/ risks.
ii. Onshore environmental impacts/ risks, including operational and end-point
impacts/ risks.
Societal:
i. Risk to other users of the sea (i.e. fishermen and non-project shipping,
including end-point risks from the long-term presence of the pipeline as
appropriate).
ii. Risk to those on land (i.e. onshore transport, quayside lifting operations,
waste management, recycling and disposal).
3. The significance of the potential environmental impacts and risks were assessed
according to pre-defined criteria. These criteria recognise the likely effectiveness of
planned mitigation measures to minimise or eliminate potential impacts/ risks.
4. Assessments were undertaken to determine what level of impacts/ risks the
component activity/ operation could pose to the different groups of environmental or
societal receptors. The following Scoring Criteria and Risk Matrix were applied to
complete the worksheets:
ConocoPhillips’ Consequence Severity Description (Table E1).
ConocoPhillips’ Likelihood Matrix (Table E2).
5. The biodiversity impact column was used to assess the consequence and/or severity
of the potential impact to the environmental receptors and the socio-cultural
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E2 April 2015
economic impact column was used for socioeconomic receptors. Consideration was
also given to the potential remediation costs and exposure when appropriate.
6. The overall risk for a particular activity was determined by ConocoPhillips’ Risk
Matrix and Risk Categories (Table E3).
The results were noted on the environmental and societal risk assessment worksheets
alongside any relevant comments.
These assessments resulted in the completion of risk assessment worksheets to address
any general activities associated with decommissioning activities and specific activities
associated with the decommission in situ, Partial and Full Removal options for the
pipelines. The worksheet results are presented in the following Tables:
(Table E4): Activities associated with general decommissioning activities (applicable to
all options)
(Table E5): Activities associated with Decommission in situ methods
(Table E6): Activities associated with Partial Removal methods
(Table E7): Activities associated with Full Removal methods
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E3 April 2015
Table E1: Consequence and Severity Description
Consequence – Severity Description (most severe down to least severe )
Category Socio-Cultural Economic Impact Biodiversity Impact Environmental Impact (Remediation Costs)
Negative Public Image Exposure
5
Permanent loss of access or use of area with permanent reduction in associated community;
Major economic impact to surrounding community;
Irrevocable loss of culture resources;
Scale typically widespread (national or greater level).
Very High:
Catastrophic loss of natural resources or biodiversity typically over a widespread area, with permanent or long-term consequences;
and/ or
Irrevocable loss of regionally unique habitat, legally designated conservation site or intact ecosystems.
No mitigation possible.
> $10,000,000 International Coverage
4
Permanent partial restriction on access or use, or use, or total restriction >10 years in duration;
Temporary reduction in quality of life > 10 years duration;
Harm to cultural resources requiring major mitigation;
Scale typically regional to national level.
High:
Persistent environmental degradation within and beyond the project area, typically with prospects of short-to medium term recovery if the cause of the impact is removed or by natural abatement processes
and/ or
Serious loss of unique habitat or legally designated conservation site or intact ecosystems within area of study.
Mitigation only possible through prolonged and resource intensive effort (>50 years).
$1,000,000 to $10,000,000
National Coverage
3
Temporary restriction <10 years in duration with a moderate reduction in usage levels or quality of life;
Harm to cultural resources recoverable through moderate mitigation efforts;
Scale typically local to regional level.
Medium:
Persistent environmental degradation within and close to the project area, localised within defined areas, typically with prospects of rapid recovery if cause of the impact is removed or by natural abatement processes
and/ or
$100,000 to $1,000,000 Regional coverage
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E4 April 2015
Consequence – Severity Description (most severe down to least severe )
Category Socio-Cultural Economic Impact Biodiversity Impact Environmental Impact (Remediation Costs)
Negative Public Image Exposure
Temporary, but reversible loss of unique habitat or legally designated conservation site or intact ecosystems within area of study.
Moderate mitigation efforts required (>1 to 50 years).
2
Brief restriction <5 years in duration with a minor reduction in usage levels or quality of life;
Minor harm to cultural resources that is recoverable through minor mitigation efforts;
Scale typically localised.
Low:
Temporary environmental degradation, typically within and close to project area, with good prospects of short-term recovery;
and/ or
Brief, but reversible loss of unique habitat or legally designated conservation site or intact ecosystems within area of study.
Minor mitigation efforts required (<1 year).
$10,000 to $ 100,000 Local Coverage
1
Restrictions on access without loss of resources;
Temporary but fully reversible impacts on quality of life;
Minor impact on cultural resources;
Typically transient and highly localised.
Negligible:
Highly transitory or highly localised environmental degradation typically contained within the project area and noticeable/ measurable against background only within or in very close proximity to the project area;
and/ or
Some minor loss of unique habitat or legally designated conservation site or intact ecosystems within area of study.
Naturally and completely reversible.
$0 to $10,000 No Outside Coverage
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E5 April 2015
Table E2: Likelihood Matrix
Likelihood (most likely down to least likely)
Category One word descriptor Description Quantitative Range per Year1
5 Frequent Likely to occur several times a year.
Very high likelihood >10
-1
4 Probable Expected to occur at least once in 10 years.
High likelihood 10
-3 to 10
-1
3 Rare Occurrence considered rare.
Moderate likelihood 10
-4 to 10
-3
2 Remote Not expected nor anticipated to occur.
Low likelihood 10
-6 to 10
-4
1 Improbable Virtually improbable and unrealistic.
Very low likelihood <10
-6
1 The values in the Quantitative Range are be used as guidance in selecting the appropriate likelihood of occurrence of an impact resulting from unplanned / accidental activities.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E6 April 2015
Table E3: ConocoPhillips Risk Matrix and Risk Categories
Risk Matrix
Lik
elih
oo
d
5 II
5
II
10
III
15
IV
20
IV
25
4 I
4
II
8
III
12
III
16
IV
20
3 I
3
II
6
II
9
III
12
III
15
2 I
2
I
4
II
6
II
8
II
10
1 I
1
I
2
I
3
I
4
II
5
1 2 3 4 5
Consequence Category*
* Biodiversity and/or socioeconomic considerations take precedence, for all other factors the worst case score should be assumed from the severity descriptions
Risk Categories
IV: 17-25 High High Risk. Manage risk utilising prevention and/ or mitigation with highest priority. Promote issue to appropriate management level with commensurate risk assessment detail.
III: 12-16 Significant Significant Risk. Manage risk utilising prevention and/ or mitigation with priority. Promote issue to appropriate management level a with commensurate risk assessment detail.
II: 5-10 Medium Medium Risk with Controls Verified. No mitigation required where controls can be verified as functional.
I: 1-4 Low Low Risk. No mitigation required.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E7 April 2015
Table E4: Activities associated with general decommissioning activities (applicable to all options)
Operation or End-Point Potential Impact Mitigation
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Se
dim
en
t str
uctu
re
Se
ab
ed I
nte
gri
ty/
Physic
al
ch
ang
e
Wa
ter
qu
alit
y
Air
qu
alit
y
La
nd
Fre
sh
-wate
r
Se
dim
en
t b
iolo
gy (
ben
thos)
Wa
ter
co
lum
n (
pla
nkto
n)
Fin
fish
an
d s
hellf
ish
Se
a m
am
ma
ls
Se
ab
irds
Eco
syste
m In
teg
rity
Co
nse
rva
tio
n s
ites
Te
rre
str
ial flo
ra &
fau
na
Co
mm
erc
ial fishin
g
Sh
ipp
ing
Go
ve
rnm
en
t, institu
tion
use
rs
(e.g
. M
OD
)
Oth
er
co
mm
erc
ial u
se
rs
Re
cre
atio
n a
nd
am
en
ity u
se
rs
On
sh
ore
Co
mm
unitie
s
(Re
so
urc
es)
Planned Operations
Physical presence of DSV, rock-placement vessel, standby vessel and survey vessels and accommodate barge during transit between port and the offshore site
Localised and transient obstruction to fishing vessels and shipping
Route-planning.
Navigation aids.
Communications.
Good seamanship.
Consent to locate for vessels.
Notice to mariners and consultation with National Federation of Fishermen’s Organisation (NFFO).
L 3 3 2 2 2
Shipping/ fishing traffic can readily navigate round the individual vessels as they travel to and from the offshore site.
C 1 1 1 1 1
R 3 3 2 2 2
Physical presence of DSV, rock-placement vessel, guard vessel, survey vessel, accommodation barge, ROVs, divers, jetting and other equipment during operations at the offshore sites.
Note: Impacts assessed are in relation to areas out with the 500 m exclusion zones.
Localised and transient obstruction to fishing vessels and shipping
Project planning.
Design and operational procedures.
Notice to mariners and consultation with NFFO.
500 m safety zones where appropriate.
Navigation aids.
Communications.
Good seamanship.
Consent to locate for vessels.
Presence of an onsite guard vessel
L 4 3 2 2 2
Shipping/ fishing traffic can readily navigate round the vessel spread at any given stage during the work programme.
C 1 1 1 1 1
R 4 3 2 2 2
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E8 April 2015
Table E4: (continued): Activities associated with general decommissioning activities (applicable to all options)
Operation or End-Point Potential Impact Mitigation
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Se
dim
en
t str
uctu
re
Se
ab
ed I
nte
gri
ty/
Physic
al
ch
ang
e
Wa
ter
qu
alit
y
Air
qu
alit
y
La
nd
Fre
sh
-wate
r
Se
dim
en
t b
iolo
gy (
ben
thos)
Wa
ter
co
lum
n (
pla
nkto
n)
Fin
fish
an
d s
hellf
ish
Se
a m
am
ma
ls
Se
ab
irds
Eco
syste
m In
teg
rity
Co
nse
rva
tio
n s
ites
Te
rre
str
ial flo
ra &
fau
na
Co
mm
erc
ial fishin
g
Sh
ipp
ing
Go
ve
rnm
en
t, institu
tion
use
rs
(e.g
. M
OD
)
Oth
er
co
mm
erc
ial u
se
rs
Re
cre
atio
n a
nd
am
en
ity u
se
rs
On
sh
ore
Co
mm
unitie
s
(Re
so
urc
es)
Planned Operations
Anchoring of an accommodation vessel for preparation and cleaning.
Disturbance to the seabed from anchors.
Potential impact in the North Norfolk Sandbanks and Saturn Reef SCI which is a protected area for both sandbanks and the biogenic reef forming worm Sabellaria spinulosa.
Anchor plan/ Pre-planning of anchor pattern.
Rolling anchors or piggyback anchor.
Safe operation.
Pre-surveys of area.
As-left survey.
Post-decommissioning monitoring programme.
Remedial intervention in the event of any anchor mounds or scars.
L 4 4 4 2 4
ConocoPhillips will endeavour to site anchors away from potential receptors.
C 2 1 1 1 2
R 8 4 4 2 8
Underwater noise associated with vessel engines, Dynamic Positioning thrusters and on-board equipment.
Avoidance behaviour in sea mammals, fish and birds.
Regular maintenance to vessel engines and equipment.
Power management systems will be in place.
L 2 3 1 3 Divers won’t be operating subsea in an area where lots of acoustic activity is expected.
Low presence of marine mammals in area, No Marine Mammal Observers (MMOs) will be on-board the vessels during routine decommissioning operations.
C 1 1 1 1
R 2 3 1 3
Underwater noise associated with the use of sonar and other acoustic survey equipment.
Avoidance behaviour in sea mammals, fish and birds.
Regular maintenance to vessel engines and equipment.
Power management systems will be in place.
L 2 3 1 3
Sound is not within frequency range of the Marine Strategy Framework Directive indicator for loud, low and mid-frequency sounds.
C 1 1 1 1
R 2 3 1 3
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E9 April 2015
Table E4 (continued): Activities associated with general decommissioning activities (applicable to all options)
Operation or End-Point Potential Impact Mitigation
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Se
dim
en
t str
uctu
re
Se
ab
ed I
nte
gri
ty/
Physic
al
ch
ang
e
Wa
ter
qu
alit
y
Air
qu
alit
y
La
nd
Fre
sh
-wate
r
Se
dim
en
t b
iolo
gy (
ben
thos)
Wa
ter
co
lum
n (
pla
nkto
n)
Fin
fish
an
d s
hellf
ish
Se
a m
am
ma
ls
Se
ab
irds
Eco
syste
m In
teg
rity
Co
nse
rva
tio
n s
ites
Te
rre
str
ial flo
ra &
fau
na
Co
mm
erc
ial fishin
g
Sh
ipp
ing
Go
ve
rnm
en
t, institu
tion
use
rs
(e.g
. M
OD
)
Oth
er
co
mm
erc
ial u
se
rs
Re
cre
atio
n a
nd
am
en
ity u
se
rs
On
sh
ore
Co
mm
unitie
s
(Re
so
urc
es)
Planned Operations
Operational discharges of treated oily bilge.
Deterioration in water quality.
Separation systems for oil recovery from bilge.
Discharges of oil bilge to marine environment will be within permitted levels of 15 ppm.
L 5 5 5
Any discharge will be within permitted limits.
C 1 1 1
R 5 5 5
Wastes produced from onsite vessels
Use of waste disposal resources and landfill capacity onshore.
Materials will be reused or recycled where possible thereby minimising landfill requirements.
Compliance with relevant waste legislation and duty of care.
Use of designated licensed sites only.
Permits and traceable chain of custody for waste management, shipment, treatment and onshore disposal.
L 5 5
Storage and removal arrangements on the vessels will ensure minimal impact to environment
Small-scale use of landfill capacity for non-reusable and non-recyclable wastes.
C 1 1
R 5 5
Sewage and grey water discharges.
Localised increase in biological oxygen demand (BOD) around the point of discharge.
Slight deterioration in seawater quality around the point of discharge.
Sewage and grey water will be screened as minimum requirement prior to disposal at sea, or contained and shipped to shore.
Vessels will be audited to ensure compliance.
L 5 5 5 Sewage (organic material only) will be broken down and readily dispersed in the offshore environment.
This will result in a localised transient impact with the discharge dissipating to background concentrations within relatively short distance.
C 1 1 1
R 5 5 5
Macerated food waste discharge.
Deterioration in water quality.
Localised increase in BOD around the point of discharge.
Food waste will be macerated prior to discharge; this will aid its dispersal and decomposition in the water column.
L 5 5 5 Macerated food waste (organic material only) will be broken down and readily dispersed in the offshore environment.
The particles of food waste will be <25 mm in diameter, and will be rapidly and widely dispersed in the water column.
C 1 1 1
R 5 5 5
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E10 April 2015
Table E4 (continued): Activities associated with general decommissioning activities (applicable to all options)
Operation or End-Point Potential Impact Mitigation
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Se
dim
en
t str
uctu
re
Se
ab
ed I
nte
gri
ty/
Physic
al
ch
ang
e
Wa
ter
qu
alit
y
Air
qu
alit
y
La
nd
Fre
sh
-wate
r
Se
dim
en
t b
iolo
gy (
ben
thos)
Wa
ter
co
lum
n (
pla
nkto
n)
Fin
fish
an
d s
hellf
ish
Se
a m
am
ma
ls
Se
ab
irds
Eco
syste
m In
teg
rity
Co
nse
rva
tio
n s
ites
Te
rre
str
ial flo
ra &
fau
na
Co
mm
erc
ial fishin
g
Sh
ipp
ing
Go
ve
rnm
en
t, institu
tion
use
rs
(e.g
. M
OD
)
Oth
er
co
mm
erc
ial u
se
rs
Re
cre
atio
n a
nd
am
en
ity u
se
rs
On
sh
ore
Co
mm
unitie
s
(Re
so
urc
es)
Planned Operations
Ballast water uptake and discharge from the vessels on site.
Introduction of non-native species into the water column.
Adherence to the International Convention for the Control and Management of Ships’ Ballast Water and Sediments.
L 5 5 5 5 5
ConocoPhillips’ adherence to the International Convention for the Control and Management of Ships’ Ballast Water is expected to mitigate any potential transboundary, cumulative or global impact that may result from the transfer of organisms
C 1 1 1 1 1
R 5 5 5 5 5
Atmospheric emissions from vessels.
Deterioration in air quality and contribution to global atmospheric impacts.
Vessels will use ultra-low sulphur fuel in line with MARPOL requirements.
Regular maintenance to vessel engines and equipment.
Power management systems will be in place
L 5 The emissions will be a small-scale contributor of GHGs and other global gases.
Localised transient impact in the vicinity of the exhausts.
The atmospheric emissions will disperse in the exposed offshore environment.
C 1
R 5
Atmospheric emissions from helicopters.
Deterioration in air quality and contribution to global atmospheric impacts.
Regular maintenance to helicopter engines and equipment.
Power management systems will be in place
Industry standard controls based on routine and planned maintenance.
L 5 Small scale contributor of GHGs and other global gases.
Localised transient impact in the vicinity of the exhausts.
Emissions disperse during flight and the exposed offshore environment.
C 1
R 5
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E11 April 2015
Table E4 (continued): Activities associated with general decommissioning activities (applicable to all options)
Operation or End-Point
Potential Impact Mitigation
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Sed
imen
t st
ruct
ure
Sea
bed
Inte
gri
ty/ P
hys
ical
ch
ang
e
Wat
er q
ual
ity
Air
qu
alit
y
Lan
d
Fre
sh-w
ater
Sed
imen
t b
iolo
gy
(ben
tho
s)
Wat
er c
olu
mn
(p
lan
kto
n)
Fin
fish
an
d s
hel
lfis
h
Sea
mam
mal
s
Sea
bir
ds
Eco
syst
em In
teg
rity
Co
nse
rvat
ion
sit
es
Ter
rest
rial
flo
ra &
fau
na
Co
mm
erci
al f
ish
ing
Sh
ipp
ing
Go
vern
men
t, in
stit
uti
on
use
rs (
e.g
.
MO
D)
Oth
er c
om
mer
cial
use
rs
Rec
reat
ion
an
d a
men
ity
use
rs
On
sho
re C
om
mu
nit
ies
(Res
ou
rces
)
Planned Operations
Overboard disposal of the flushed pipeline contents
Some associated deterioration of water quality.
Potential effect on plankton, fish, shellfish and marine mammals.
Pipeline contents will be filtered and the hydrocarbons removed. Remaining ‘clean’ flushing will be disposed of down disposal well.
Permits required to undertake these operations.
Any solids recovered will be taken to shore.
L
The risks associated with the overboard disposal of the flushed pipeline contents will be covered in the Decommissioning Environmental Statements for Phase 1.
This will be consistent across the pipelines and will meet DECC requirements
C
R
Unplanned Operations
Dropped objects
Disturbance to the seabed, water quality and benthos.
Potential obstruction to commercial fishing and other commercial users of the sea.
Adhere to lifting and handling procedures and use of certified equipment for lifting.
Retrieve major items of debris from the seabed after operations, in compliance with relevant legislation.
Undertake a debris/ sweep survey after completion of operations.
L
Predominantly a safety risk and not covered in the workshop. The risks associated with dropped objects will be covered in the Decommissioning Environmental Statements for Phase 1.
C
R
L
C
R
Collision with live risers Risk of vessels colliding
with live risers containing gas and condensate.
Route-planning.
Navigation aids.
Communications.
Good seamanship.
Consent to locate for vessels.
Notice to mariners and consultation with NFFO.
L
Predominantly a safety risk and therefore wasn’t covered in the CA.
Collision risk and hydrocarbon impacts will be covered in the Decommissioning Environmental Statements for Phase 1.
C
R
L
C
R
Vessel to vessel collision (spilt fuel inventory)
Fish, birds and marine mammals may be impacted.
Route-planning.
Navigation aids.
Communications.
Good seamanship.
Consent to locate for vessels.
Notice to mariners and consultation with NFFO.
L
Predominantly a safety risk and not covered in the workshop. The risks associated with vessel to vessel collision will be covered in the Decommissioning Environmental Statements for Phase 1.
C
R
L
C
R
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E12 April 2015
Table E5: Activities associated with decommission in situ methods
Operation or End-Point
Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Sed
imen
t st
ruct
ure
Sea
bed
Inte
gri
ty/ P
hys
ical
ch
ang
e
Wat
er q
ual
ity
Air
qu
alit
y
Lan
d
Fre
sh-w
ater
Sed
imen
t b
iolo
gy
(ben
tho
s)
Wat
er c
olu
mn
(p
lan
kto
n)
Fin
fish
an
d s
hel
lfis
h
Sea
mam
mal
s
Sea
bir
ds
Eco
syst
em In
teg
rity
Co
nse
rvat
ion
sit
es
Ter
rest
rial
flo
ra &
fau
na
Co
mm
erci
al f
ish
ing
Sh
ipp
ing
Go
vern
men
t, in
stit
uti
on
use
rs (
e.g
.
MO
D)
Oth
er c
om
mer
cial
use
rs
Rec
reat
ion
an
d a
men
ity
use
rs
On
sho
re C
om
mu
nit
ies
(Res
ou
rces
)
Planned Operations
Dredging operations to water jet out pipeline at each end (diver operated).
Displacement and redistribution of seabed sediments.
Alteration of sediment structure and smothering of seabed organisms.
Deterioration of water quality with a potential effect on plankton, fish and shellfish.
Small area of impact in the North Norfolk Sandbanks and Saturn Reef SCI which is a protected area for both sandbanks and the biogenic reef forming worm Sabellaria spinulosa.
The dredging operations will result in a hole approximately 9 m by 5m and ~ 2m deep at each pipeline end.
Pre-decommissioning site data obtained from the operational phase and post-decommissioning surveys will be undertaken to determine the status of the pipeline and seabed before and after the proposed operations.
ConocoPhillips will fill the hole with rock or another material after completion of the jetting or trenching operations, to prevent the hole from being left open.
in s
itu: m
inim
al in
terv
entio
n
L 3 3 2 3 2 2 2
All impacts will be small, localised and temporary.
Any possible deterioration of water quality will be rapidly dispersed and diluted.
C 1 1 1 1 1 1 1
R 3 3 2 3 2 2 2
in s
itu: m
inor
inte
rventio
n
L 3 3 2 3 2 2 2
C 1 1 1 1 1 1 1
R 3 3 2 3 2 2 2
Rock placed on the seabed to fill the hole created by the dredging operation and cover the pipeline ends(as above)
Change of habitat type and therefore benthic community
Snagging hazard for the commercial fisheries.
Small area of impact in the North Norfolk Sandbanks and Saturn Reef SCIs which are protected areas for both sandbanks and the biogenic reef forming worm Sabellaria spinulosa.
The use of a fall pipe to ensure accurate placement of rock
On-going consultation with fisheries representatives such as the NFFO.
The placement of rock will be designed to be over-trawlable
Subsea rock-placement will be included on navigational charts.
Post-decommissioning seabed clearance and an over-trawlability survey.
Post-decommissioning monitoring of the pipelines.
Remedial intervention in the event that burial and protection is found to be inadequate.
in s
itu: m
inim
al in
terv
entio
n
L 4 4 4 2 2 2 3
The cumulative impact to the SCI was taken into consideration when assessing the conservation site column.
Differences of opinion regarding the Likelihood rating for “Conservation Site” :
One voted for 1
Five voted for 2
Three voted for 3
There was also a difference of opinion regarding the Consequence rating for “Conservation Site”.
C 1 1 1 1 1 1 1
R 4 4 4 2 2 2 3
in s
itu: m
inor
inte
rventio
n
L 4 4 4 2 2 2 3
C 1 1 1 1 1 1 1
R 4 4 4 2 2 2 3
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E13 April 2015
Table E5 (continued): Activities associated with decommission in situ methods
Operation or End-Point Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Sed
imen
t st
ruct
ure
Sea
bed
Inte
gri
ty/ P
hys
ical
ch
ang
e
Wat
er q
ual
ity
Air
qu
alit
y
Lan
d
Fre
sh-w
ater
Sed
imen
t b
iolo
gy
(ben
tho
s)
Wat
er c
olu
mn
(p
lan
kto
n)
Fin
fish
an
d s
hel
lfis
h
Sea
mam
mal
s
Sea
bir
ds
Eco
syst
em In
teg
rity
Co
nse
rvat
ion
sit
es
Ter
rest
rial
flo
ra &
fau
na
Co
mm
erci
al f
ish
ing
Sh
ipp
ing
Go
vern
men
t, in
stit
uti
on
use
rs (
e.g
.
MO
D)
Oth
er c
om
mer
cial
use
rs
Rec
reat
ion
an
d a
men
ity
use
rs
On
sho
re C
om
mu
nit
ies
(Res
ou
rces
)
Planned Operations
Cutting the pipelines with diamond wires.
Alteration of sediment structure.
Some associated deterioration of water quality with a potential effect on fish and shellfish.
Small area of impact in the North Norfolk Sandbanks and Saturn Reef SCI which is a protected area for both sandbanks and the biogenic reef forming worm Sabellaria spinulosa.
Pre-decommissioning site data obtained from the operational phase and post-decommissioning surveys will be undertaken to determine the status of the pipeline and seabed before and after the proposed operations.
in s
itu
: m
inim
al in
terv
en
tio
n L 3 2 2 1 1
Discharges to the marine environment from the cutting operations will be single discrete releases. (See sections 9 and 11 of the ES)
Concrete will be benign and last in environment for many years.
The pipeline will be flooded before they are cut, result in the natural dissipation of the pipeline contents.
If any NORM is released with the pipeline contents, the release will be localised.
C 1 1 1 1 1
R 3 2 2 1 1
in s
itu
: m
ino
r in
terv
en
tio
n L 3 2 2 1 1
C 1 1 1 1 1
R 3 2 2 1 1
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E14 April 2015
Table E5 (continued): Activities associated with decommission in situ methods
Operation or End-Point Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Se
dim
en
t str
uctu
re
Se
ab
ed I
nte
gri
ty/
Physic
al
ch
ang
e
Wa
ter
qu
alit
y
Air
qu
alit
y
La
nd
Fre
sh
-wate
r
Se
dim
en
t b
iolo
gy (
ben
thos)
Wa
ter
co
lum
n (
pla
nkto
n)
Fin
fish
an
d s
hellf
ish
Se
a m
am
ma
ls
Se
ab
irds
Eco
syste
m In
teg
rity
Co
nse
rva
tio
n s
ites
Te
rre
str
ial flo
ra &
fau
na
Co
mm
erc
ial fishin
g
Sh
ipp
ing
Go
ve
rnm
en
t, institu
tion
use
rs
(e.g
. M
OD
)
Oth
er
co
mm
erc
ial u
se
rs
Re
cre
atio
n a
nd
am
en
ity u
se
rs
On
sh
ore
Co
mm
unitie
s
(Re
so
urc
es)
Planned Operations
Cover exposed or span sections with rock-placement to 0.6 m cover
Note- this is only applicable for the “in situ” minor intervention” option
Change of habitat type and therefore benthic community
Potential snagging hazard for the commercial fisheries.
The use of a fall pipe to ensure accurate placement of rock
On-going consultation with fisheries representatives such as the NFFO.
The placement of rock will be designed to be over-trawlable
Subsea rock-placement will be included on navigational charts.
Post-decommissioning seabed clearance and an over-trawlability survey to ensure that the rock-placement gradient is within acceptable limits.
Post-decommissioning monitoring of the pipelines.
Remedial intervention in the event that burial and protection is found to be inadequate.
in s
itu: m
inim
al
inte
rventio
n L This activity is only applicable for
the In situ minor intervention option, and has therefore not been assessed for the in situ minimal intervention option.
C
R
in s
itu: m
inor
in
terv
entio
n
L 5 5 5 5 2 4 3
Differences of opinion regarding the Likelihood rating for “Sediment Structure” :
One voted for 3
Eight voted for 4
One voted for 5
There was also a difference of opinion regarding the Likelihood rating for “Sediment Integrity”.
Two voted for 4
Nine voted for 5
C 4 4 4 3 1 4 2
R 20 20 20 15 2 16 6
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E15 April 2015
Table E5 (continued): Activities associated with decommission in situ methods
Operation or End-Point Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Sed
imen
t st
ruct
ure
Sea
bed
Inte
gri
ty/ P
hys
ical
ch
ang
e
Wat
er q
ual
ity
Air
qu
alit
y
Lan
d
Fre
sh-w
ater
Sed
imen
t b
iolo
gy
(ben
tho
s)
Wat
er c
olu
mn
(p
lan
kto
n)
Fin
fish
an
d s
hel
lfis
h
Sea
mam
mal
s
Sea
bir
ds
Eco
syst
em In
teg
rity
Co
nse
rvat
ion
sit
es
Ter
rest
rial
flo
ra &
fau
na
Co
mm
erci
al f
ish
ing
Sh
ipp
ing
Go
vern
men
t, in
stit
uti
on
use
rs (
e.g
.
MO
D)
Oth
er c
om
mer
cial
use
rs
Rec
reat
ion
an
d a
men
ity
use
rs
On
sho
re C
om
mu
nit
ies
(Res
ou
rces
)
Justification for Risk Ratings Assigned
Planned Operations
Re-burial (trench and bury)
Note- this is only applicable for the “in situ” minor intervention” option
Displacement and redistribution of seabed sediments.
Alteration of sediment structure and smothering of seabed organisms.
Deterioration of water quality with a potential effect on plankton, fish and shellfish.
Small area of impact in the North Norfolk Sandbanks and Saturn Reef SCI which is a protected area for both sandbanks and the biogenic reef forming worm S. spinulosa.
Pre-decommissioning site data obtained from the operational phase and post-decommissioning surveys will be undertaken to determine the status of the pipeline and seabed before and after the proposed operations.
in s
itu
: m
inim
al
inte
rve
ntio
n
L This activity is only applicable for the in situ minor intervention” option, and has therefore not been assessed for the in situ minimal intervention” option.
C
R
in s
itu
: m
ino
r
inte
rve
ntio
n
L 4 4 4 4 4 3 3
All impacts will be small, localised and temporary in nature.
Any possible deterioration of water quality will be rapidly dispersed and diluted.
Note: A discussion between ConocoPhillips and DECC will be required to establish what method (jetting or trenching) is required.
C 1 2 1 2 1 2 3
R 4 8 4 8 4 6 9
Waste management
Use of waste disposal resources and landfill capacity onshore.
Small amount of marine growth and associated odours
Materials will be reused or recycled where possible thereby minimising landfill requirements.
Compliance with UK waste legislation and duty of care.
Use of designated licensed sites only.
Permits and traceable chain of custody for waste management, shipment, treatment and onshore disposal.
Sections of pipeline will be taken on-board and assessed for NORM.
in s
itu
: m
inim
al
inte
rve
ntio
n L 1 4 4 This includes the removal and
disposal of concrete mattresses
Any cleaning required will be undertaken by a specialist contractor.
The majority of pipelines will be steel and have a concrete coating.
Cost of marine growth removal if brought onshore
Potential for NORM/ additional chemicals to be removed affecting other commercial users
There will be fewer mattresses taken to landfill under minimum intervention, as only the mattresses requiring removal will be the ones moved for access during the pipeline cutting.
C 2 2 2
R 2 8 8
in s
itu: m
inor
inte
rventio
n
L 1 4 4
C 2 2 2
R 2 8 8
Bracelet anodes (Al/ Zn or Iridium) located around the pipelines to prevent corrosion.
Deterioration of water quality.
Potential effect on benthos communities.
N/A
in s
itu:
min
imal
inte
rventio
n
L
The dissipation of the low levels of components (Zinc and Aluminium) released over time could result bioaccumulation in sediments. This has not been assessed as the anodes have already completely depleted in situ
C
R
in s
itu: m
inor
inte
rventio
n
L
C
R
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E16 April 2015
Table E5 (continued): Activities associated with decommission in situ methods
Operation or End-Point Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Se
dim
en
t str
uctu
re
Se
ab
ed I
nte
gri
ty/
Physic
al
ch
ang
e
Wa
ter
qu
alit
y
Air
qu
alit
y
La
nd
Fre
sh
-wate
r
Se
dim
en
t b
iolo
gy (
ben
thos)
Wa
ter
co
lum
n (
pla
nkto
n)
Fin
fish
an
d s
hellf
ish
Se
a m
am
ma
ls
Se
ab
irds
Eco
syste
m In
teg
rity
Co
nse
rva
tio
n s
ites
Te
rre
str
ial flo
ra &
fau
na
Co
mm
erc
ial fishin
g
Sh
ipp
ing
Go
ve
rnm
en
t, institu
tion
use
rs
(e.g
. M
OD
)
Oth
er
co
mm
erc
ial u
se
rs
Re
cre
atio
n a
nd
am
en
ity u
se
rs
On
sh
ore
Co
mm
unitie
s
(Re
so
urc
es)
Planned Operations
Mattresses decommissioned in situ
Snagging hazards Position mapped on
navigational charts
in s
itu: m
inim
al in
terv
entio
n
L 4 3 This activity is only applicable for the in situ minimal intervention option, and has therefore not been assessed for the in situ minor intervention option.
The associated impacts are expected to be small:
Mattresses are already in place for 12 to 40 years.
Surveys indicate that majority of mattresses are buried or partially buried.
No serious snagging incidents were recorded throughout their lifetime.
Removal of mattresses would result in a requirement for rock placement to stabilise the pipeline.
C 1 2
R 4 6
Mattresses removed where safe to do so
Snagging hazards
Seabed disturbance
Small number of mattresses maybe decommissioned in situ – damaged or buried mattresses.
Any mattresses decommissioned in situ will be mapped on navigational charts
in s
itu: m
inor
inte
rventio
n
L 4 4 4 4 4 This activity is only applicable for the in situ minor intervention option, and has therefore not been assessed for the in situ minimal intervention option.
The associated impacts are expected to be small:
Mattresses are already in place for 12 to 40 years.
Surveys indicate that majority of mattresses are buried or partially buried.
No serious snagging incidents were recorded throughout their lifetime.
Removal of mattresses would result in a requirement for rock placement to stabilise the pipeline.
C 1 1 1 1 1
R 4 4 4 4 4
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E17 April 2015
Table E6: Activities associated with partial removal methods
Operation or End-Point Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Sed
imen
t st
ruct
ure
Sea
bed
Inte
gri
ty/ P
hys
ical
ch
ang
e
Wat
er q
ual
ity
Air
qu
alit
y
Lan
d
Fre
sh-w
ater
Sed
imen
t b
iolo
gy
(ben
tho
s)
Wat
er c
olu
mn
(p
lan
kto
n)
Fin
fish
an
d s
hel
lfis
h
Sea
mam
mal
s
Sea
bir
ds
Eco
syst
em In
teg
rity
Co
nse
rvat
ion
sit
es
Ter
rest
rial
flo
ra &
fau
na
Co
mm
erci
al f
ish
ing
Sh
ipp
ing
Go
vern
men
t, in
stit
uti
on
use
rs (
e.g
.
MO
D)
Oth
er c
om
mer
cial
use
rs
Rec
reat
ion
an
d a
men
ity
use
rs
On
sho
re C
om
mu
nit
ies
(Res
ou
rces
)
Planned Operations
Dredging operations to water jet out pipeline at each end.
Water jetting operations will result in the displacement and redistribution of seabed sediments.
Dredging operations will result in the:
Alteration of sediment structure and smothering of seabed organisms.
Some associated deterioration of water quality.
Potential effect on plankton, fish and shellfish.
Small area of impact in the North Norfolk Sandbanks and Saturn Reef SCI which is a protected area for both sandbanks and the biogenic reef forming worm Sabellaria spinulosa.
The dredging operations will result in a hole approximately 9 m by 5m and ~ 2m deep at each pipeline end.
Pre-decommissioning site data obtained from the operational phase and post-decommissioning surveys will be undertaken to determine the status of the pipeline and seabed before and after the proposed operations.
ConocoPhillips will fill the hole with rock or another material after completion of the jetting or trenching operations.
Cut
an
d L
ift
L 3 3 2 3 2 2 2
All impacts will be small, localised and temporary in nature.
Any possible deterioration of water quality will be rapidly dispersed and diluted.
Vessel positioning (anchoring) may also affect risk rating
C 1 1 1 1 1 1 1
R 3 3 2 3 2 2 2
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E18 April 2015
Table E6 (continued): Activities associated with partial removal methods
Operation or End-Point Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Sed
imen
t st
ruct
ure
Sea
bed
Inte
gri
ty/ P
hys
ical
ch
ang
e
Wat
er q
ual
ity
Air
qu
alit
y
Lan
d
Fre
sh-w
ater
Sed
imen
t b
iolo
gy
(ben
tho
s)
Wat
er c
olu
mn
(p
lan
kto
n)
Fin
fish
an
d s
hel
lfis
h
Sea
mam
mal
s
Sea
bir
ds
Eco
syst
em In
teg
rity
Co
nse
rvat
ion
sit
es
Ter
rest
rial
flo
ra &
fau
na
Co
mm
erci
al f
ish
ing
Sh
ipp
ing
Go
vern
men
t, in
stit
uti
on
use
rs (
e.g
.
MO
D)
Oth
er c
om
mer
cial
use
rs
Rec
reat
ion
an
d a
men
ity
use
rs
On
sho
re C
om
mu
nit
ies
(Res
ou
rces
)
Planned Operations
Rock placed on the seabed to fill the hole created by the dredging operation (as above) and on cut ends where exposed sections have been removed
Change of habitat type and therefore benthic community
Snagging hazard for the commercial fisheries.
The use of a fall pipe to ensure accurate placement of rock
On-going consultation with fisheries representatives such as the NFFO.
The placement of rock will be designed to be over-trawlable
Subsea rock-placement will be included on navigational charts.
Post-decommissioning seabed clearance and an over-trawlability survey to ensure that the rock-placement gradient is within acceptable limits.
Post-decommissioning monitoring of the pipelines.
Remedial intervention in the event that burial and protection is found to be inadequate.
Cut
an
d L
ift
L 4 4 4 2 2 2 3 The dredging operations will result in a hole approximately 9 m by 5m and ~ 2m deep at each pipeline end.
The cumulative impact to the SCI was taken into consideration when assessing the conservation site column.
Differences of opinion regarding the Likelihood rating for “Conservation Site” :
One voted for 1
Five voted for 2
Three voted for 3
There was also a difference of opinion regarding the Consequence rating for “Conservation Site”.
C 2 2 2 2 2 2 1
R 8 8 8 4 4 4 3
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E19 April 2015
Table E6 (continued): Activities associated with partial removal methods
Operation or End-Point Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Sed
imen
t st
ruct
ure
Sea
bed
Inte
gri
ty/ P
hys
ical
ch
ang
e
Wat
er q
ual
ity
Air
qu
alit
y
Lan
d
Fre
sh-w
ater
Sed
imen
t b
iolo
gy
(ben
tho
s)
Wat
er c
olu
mn
(p
lan
kto
n)
Fin
fish
an
d s
hel
lfis
h
Sea
mam
mal
s
Sea
bir
ds
Eco
syst
em In
teg
rity
Co
nse
rvat
ion
sit
es
Ter
rest
rial
flo
ra &
fau
na
Co
mm
erci
al f
ish
ing
Sh
ipp
ing
Go
vern
men
t, in
stit
uti
on
use
rs (
e.g
.
MO
D)
Oth
er c
om
mer
cial
use
rs
Rec
reat
ion
an
d a
men
ity
use
rs
On
sho
re C
om
mu
nit
ies
(Res
ou
rces
)
Planned Operations
Cutting the pipelines with diamond wires.
Alteration of sediment structure.
Some associated deterioration of water quality.
Potential effect on fish and shellfish.
Small area of impact in the North Norfolk Sandbanks and Saturn Reef SCI which is a protected area for both sandbanks and the biogenic reef forming worm Sabellaria spinulosa.
Pre-decommissioning site data obtained from the operational phase and post-decommissioning surveys will be undertaken to determine the status of the pipeline and seabed before and after the proposed operations.
Cut
an
d L
ift
L 3 2 2 1 1
Discharges to the marine environment from the cutting operations will be single discrete releases.
Any concrete released into the marine environment from the pipeline will be benign and last in environment for many years.
The pipeline will be flooded before cutting, which will result in the natural dissipation of the pipeline contents.
If any NORM is released with the pipeline contents it will be localised.
C 1 1 1 1 1
R 3 2 2 1 1
Waste management
Use of waste disposal resources and landfill capacity onshore.
Sections of pipeline will be taken on-board and assessed for NORM.
Small amount of marine growth and associated odours
ConocoPhillips will have in place the following industry standard controls:
Materials will be reused or recycled where possible thereby minimising landfill requirements.
Compliance with UK waste legislation and duty of care.
Use of designated licensed sites only.
Permits and traceable chain of custody for waste management, shipment, treatment and onshore disposal.
Cut
an
d L
ift
L 1 4 4 This includes the removal and disposal of concrete mattresses
Any cleaning required will be undertaken by a specialist contractor.
The majority of pipelines will be steel and have a concrete coating.
Cost of marine growth removal if brought onshore
Potential for NORM/ additional chemicals to be removed affecting other commercial users.
C 2 2 2
R 2 8 8
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E20 April 2015
Table E6 (continued): Activities associated with partial removal methods
Operation or End-Point Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Sed
imen
t st
ruct
ure
Sea
bed
Inte
gri
ty/ P
hys
ical
ch
ang
e
Wat
er q
ual
ity
Air
qu
alit
y
Lan
d
Fre
sh-w
ater
Sed
imen
t b
iolo
gy
(ben
tho
s)
Wat
er c
olu
mn
(p
lan
kto
n)
Fin
fish
an
d s
hel
lfis
h
Sea
mam
mal
s
Sea
bir
ds
Eco
syst
em In
teg
rity
Co
nse
rvat
ion
sit
es
Ter
rest
rial
flo
ra &
fau
na
Co
mm
erci
al f
ish
ing
Sh
ipp
ing
Go
vern
men
t, in
stit
uti
on
use
rs (
e.g
.
MO
D)
Oth
er c
om
mer
cial
use
rs
Rec
reat
ion
an
d a
men
ity
use
rs
On
sho
re C
om
mu
nit
ies
(Res
ou
rces
)
Planned Operations
Bracelet anodes (Al/ Zn or Iridium) located around the pipelines to prevent corrosion.
Deterioration of water quality.
Potential effect on benthos communities.
N/A
Cut
an
d L
ift
L The dissipation of the low levels of components (Zinc and Aluminium) released over time could result bioaccumulation in sediments. This has not been assessed as the majority of anodes have already deteriorated in situ and
therefore there will be a negligible future impact.
C
R
Release of contaminants from within the pipelines as they are lifted from the seabed to the vessels onsite (applies to partial clean option and level of success of cleanliness to 30 ppm).
Small loss of pipeline contents (contaminated sand) to the marine environment as the pipelines sections are lifted from the seabed to the vessels onsite.
These releases will result in:
Some associated deterioration of water quality.
Potential effect on plankton, fish, shellfish and marine mammals.
As the sections of the pipeline are brought to the onsite vessels, they will be placed in a bunded area.
Any spillage will be dealt with accordingly.
Capped and sealed and any waste will be dealt with for treatment and disposal onshore.
Permits required to undertake these operations.
Cut
an
d L
ift
L 2 2 2 2 2
The infield hydrocarbon pipelines will contain:
Silica based (sand mix) content.
Sand with some NORM.
Condensate coated sand.
Several hundred ppm hydrocarbon content
Traces of methanol, corrosion inhibitor (CI) and rust
Potentially mercury.
The methanol pipelines will contain:
Methanol and CI.
Rust.
Discharges will be rapidly dispersed and diluted in the offshore environment and will not be expected to significantly impact the benthos, water column, fish or marine mammals.
(See sections 9 and 11 of the ES)
**permit requirements to be confirmed
C 1 2 1 1 1
R 2 4 2 2 2
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E21 April 2015
Table E6 (continued): Activities associated with partial removal methods
Operation or End-Point Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Se
dim
en
t str
uctu
re
Se
ab
ed I
nte
gri
ty/
Physic
al
ch
ang
e
Wa
ter
qu
alit
y
Air
qu
alit
y
La
nd
Fre
sh
-wate
r
Se
dim
en
t b
iolo
gy (
ben
thos)
Wa
ter
co
lum
n (
pla
nkto
n)
Fin
fish
an
d s
hellf
ish
Se
a m
am
ma
ls
Se
ab
irds
Eco
syste
m In
teg
rity
Co
nse
rva
tio
n s
ites
Te
rre
str
ial flo
ra &
fau
na
Co
mm
erc
ial fishin
g
Sh
ipp
ing
Go
ve
rnm
en
t, institu
tion
use
rs
(e.g
. M
OD
)
Oth
er
co
mm
erc
ial u
se
rs
Re
cre
atio
n a
nd
am
en
ity u
se
rs
On
sh
ore
Co
mm
unitie
s
(Re
so
urc
es)
Planned Operations
Mattresses removed where safe to do so
Snagging hazards (where mattresses are left)
Seabed disturbance
Small number of mattresses maybe decommissioned in situ – damaged or buried mattresses.
Any mattresses decommissioned in situ will
be mapped on navigational charts
Cut
and L
ift
L 4 4 4 4 4 The associated impacts are expected to be small:
Mattresses are already in place for 12 to 40 years.
Surveys indicate that majority of mattresses are buried or partially buried.
No serious snagging incidents were recorded throughout their lifetime.
Removal of mattresses would result in a requirement for rock placement to stabilise the pipeline.
C 1 1 1 1 1
R 4 4 4 4 4
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E22 April 2015
Table E7: Activities associated with full removal methods
Operation or End-Point Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Sed
imen
t st
ruct
ure
Sea
bed
Inte
gri
ty/ P
hys
ical
ch
ang
e
Wat
er q
ual
ity
Air
qu
alit
y
Lan
d
Fre
sh-w
ater
Sed
imen
t b
iolo
gy
(ben
tho
s)
Wat
er c
olu
mn
(p
lan
kto
n)
Fin
fish
an
d s
hel
lfis
h
Sea
mam
mal
s
Sea
bir
ds
Eco
syst
em In
teg
rity
Co
nse
rvat
ion
sit
es
Ter
rest
rial
flo
ra &
fau
na
Co
mm
erci
al f
ish
ing
Sh
ipp
ing
Go
vern
men
t, in
stit
uti
on
use
rs (
e.g
.
MO
D)
Oth
er c
om
mer
cial
use
rs
Rec
reat
ion
an
d a
men
ity
use
rs
On
sho
re C
om
mu
nit
ies
(Res
ou
rces
)
Planned Operations
Dredging operations to water jet out pipeline.
Water jetting operations will result in the displacement and redistribution of seabed sediments.
Dredging operations will result in the:
Alteration of sediment structure and smothering of seabed organisms.
Some associated deterioration of water quality.
Potential effect on plankton, fish and shellfish.
Small area of impact in the North Norfolk Sandbanks and Saturn Reef SCI which is a protected area for both sandbanks and the biogenic reef forming worm Sabellaria spinulosa.
Along the length of the pipeline there will be sediment disturbance up to 500 m on each side of the pipeline
Pre-decommissioning site data obtained from the operational phase and post-decommissioning surveys will be undertaken to determine the status of the pipeline and seabed before and after the proposed operations
Cut
an
d L
ift
L 3 3 2 3 2 2 2
All impacts will be small, localised and temporary in nature.
Any sediments in the water column will be rapidly dispersed. Any associated deterioration in water quality will be short-lived.
Vessel positioning (anchoring) may also affect risk rating
C 1 1 1 1 1 1 1
R 3 3 2 3 2 2 2
Reve
rse
re
el/ r
eve
rse
S-la
y
L 3 3 2 3 2 2 2
C 1 1 1 1 1 1 1
R 3 3 2 3 2 2 2
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E23 April 2015
Table E7 (continued): Activities associated with full removal methods
Operation or End-Point Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Sed
imen
t st
ruct
ure
Sea
bed
Inte
gri
ty/ P
hys
ical
ch
ang
e
Wat
er q
ual
ity
Air
qu
alit
y
Lan
d
Fre
sh-w
ater
Sed
imen
t b
iolo
gy
(ben
tho
s)
Wat
er c
olu
mn
(p
lan
kto
n)
Fin
fish
an
d s
hel
lfis
h
Sea
mam
mal
s
Sea
bir
ds
Eco
syst
em In
teg
rity
Co
nse
rvat
ion
sit
es
Ter
rest
rial
flo
ra &
fau
na
Co
mm
erci
al f
ish
ing
Sh
ipp
ing
Go
vern
men
t, in
stit
uti
on
use
rs (
e.g
.
MO
D)
Oth
er c
om
mer
cial
use
rs
Rec
reat
ion
an
d a
men
ity
use
rs
On
sho
re C
om
mu
nit
ies
(Res
ou
rces
)
Planned Operations
Cutting the pipeline ends with diamond wires.
Alteration of sediment structure.
Some associated deterioration of water quality.
Potential effect on fish and shellfish.
Small area of impact in the North Norfolk Sandbanks and Saturn Reef SCI which is a protected area for both sandbanks and the biogenic reef forming worm Sabellaria spinulosa.
Pre-decommissioning site data obtained from the operational phase and post-decommissioning surveys will be undertaken to determine the status of the pipeline and seabed before and after the proposed operations.
Cut
an
d L
ift L 3 2 2 1 1 Discharges to the marine
environment from the cutting operations will be negligible discrete releases.
Any concrete released into the marine environment from the pipeline will be benign and last in environment for many years.
The pipeline will be flooded before they are cut, result in the natural dissipation of the pipeline contents.
If any NORM is released in the pipeline contents will be localised
C 1 1 1 1 1
R 3 2 2 1 1
Reve
rse
re
el/ r
eve
rse
S-l
ay
L 3 2 2 1 1
C 1 1 1 1 1
R 3 2 2 1 1
Waste management
Use of waste disposal resources and landfill capacity onshore.
Sections of pipeline will be taken on-board and assessed for NORM.
Small amount of marine growth and associated odours
Materials will be reused or recycled where possible thereby minimising landfill requirements.
Compliance with UK waste legislation and duty of care.
Use of designated licensed sites only.
Permits and traceable chain of custody for waste management, shipment, treatment and onshore disposal.
Cut
an
d L
ift
L 2 4 4 This includes the removal and disposal of concrete mattresses
Any cleaning required will be undertaken by a specialist contractor.
The majority of pipelines will be steel and have a concrete coating.
Cost of marine growth removal if brought onshore
Potential for NORM/ additional chemicals to be removed affecting other commercial users
C 1 2 2
R 2 8 8
Reve
rse
re
el/ r
eve
rse
S-l
ay
L 2 4 4
C 1 2 2
R 2 8 8
Leaving behind unidentified mattresses
Potentially a snagging hazard for trawlers if mattresses become exposed.
All mattresses will be removed where it is feasible and safe to do so.
Cut
an
d
Lift
L
No impact to marine environment is expected as mattresses have been in place for an extended length of time.
Considered to have no impact therefore not ranked.
C
R
Reve
rse
re
el/
reve
rse
S-la
y
L
C
R
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E24 April 2015
Table E7 (continued): Activities associated with full removal methods
Operation or End-Point Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Se
dim
en
t str
uctu
re
Se
ab
ed I
nte
gri
ty/
Physic
al
ch
ang
e
Wa
ter
qu
alit
y
Air
qu
alit
y
La
nd
Fre
sh
-wate
r
Se
dim
en
t b
iolo
gy (
ben
thos)
Wa
ter
co
lum
n (
pla
nkto
n)
Fin
fish
an
d s
hellf
ish
Se
a m
am
ma
ls
Se
ab
irds
Eco
syste
m In
teg
rity
Co
nse
rva
tio
n s
ites
Te
rre
str
ial flo
ra &
fau
na
Co
mm
erc
ial fishin
g
Sh
ipp
ing
Go
ve
rnm
en
t, institu
tion
use
rs
(e.g
. M
OD
)
Oth
er
co
mm
erc
ial u
se
rs
Re
cre
atio
n a
nd
am
en
ity u
se
rs
On
sh
ore
Co
mm
unitie
s
(Re
so
urc
es)
Planned Operations
Live crossings – Decommission in situ
Snagging hazard
Damage to live pipelines/ cables
Rock-placement/ trenching/ mattress cover of exposed ends
Marking and Notification to Mariners
Post-removal survey
Cutting ~100m from crossing point
Review of crossing agreement and third party responsibilities.
C
ut
an
d L
ift L 2
Remaining pipelines and associated protection are the responsibility of the operator/owner.
Any potential release of hydrocarbons will be assessed in the Environmental Statement.
C 1
R 2
Reve
rse
re
el/
reve
rse
S-la
y
L 2
C 1
R 2
Release of contaminants from within the pipelines as they are lifted from the seabed to the vessels onsite (applies to partial clean option and level of success of cleanliness to 30 ppm).
Some deterioration of water quality.
Potential effect on plankton, fish, shellfish and marine mammals.
As the sections of the pipeline are brought to the onsite vessels, they will be placed in a bunded area.
Any spillage will be dealt with accordingly.
Capped and sealed and any waste will be dealt with for treatment and disposal onshore.
This mitigation applies to reverse S-lay but not reverse reel. Pipeline will only be cut on the deck during reverse S-Lay
Cut
an
d L
ift L 2 2 2 2 2 2 The infield hydrocarbon
pipelines will contain:
Silica based (sand mix) content.
Sand with some NORM.
Condensate coated sand.
Several hundred ppm in the hydrocarbon content
Traces of methanol, corrosion inhibitor (CI) and rust
Potential mercury.
The methanol pipelines will contain:
Methanol and CI.
Rust.
Discharges will be rapidly dispersed and diluted in the offshore environment and will not be expected to significantly impact the benthos, water column, fish or marine mammals (See sections 9 and 11 of the ES).
C 1 2 1 1 1 2
R 2 4 2 2 2 4
Reve
rse
re
el/ r
eve
rse
S-la
y
L 2 2 2 2 2 2
C 1 2 1 1 1 2
R 2 4 2 2 2 4
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E25 April 2015
Table E7 (continued): Activities associated with full removal methods
Operation or End-Point Potential Impact Mitigation
Me
tho
d
Sc
ori
ng
Cri
teri
a
Physical and Chemical Biological Societal
Justification for Risk Ratings Assigned
Se
dim
en
t str
uctu
re
Se
ab
ed I
nte
gri
ty/
Physic
al
ch
ang
e
Wa
ter
qu
alit
y
Air
qu
alit
y
La
nd
Fre
sh
-wate
r
Se
dim
en
t b
iolo
gy (
ben
thos)
Wa
ter
co
lum
n (
pla
nkto
n)
Fin
fish
an
d s
hellf
ish
Se
a m
am
ma
ls
Se
ab
irds
Eco
syste
m In
teg
rity
Co
nse
rva
tio
n s
ites
Te
rre
str
ial flo
ra &
fau
na
Co
mm
erc
ial fishin
g
Sh
ipp
ing
Go
ve
rnm
en
t, institu
tion
use
rs
(e.g
. M
OD
)
Oth
er
co
mm
erc
ial u
se
rs
Re
cre
atio
n a
nd
am
en
ity u
se
rs
On
sh
ore
Co
mm
unitie
s
(Re
so
urc
es)
Planned Operations
Mattresses removed where safe to do so
Snagging hazards (where mattresses are left)
Seabed disturbance
Small number of mattresses maybe decommissioned in situ – damaged or buried mattresses.
Any mattresses decommissioned in situ will
be mapped on navigational charts
Cut
and L
ift
L 4 4 4 4 4 The associated impacts are expected to be small:
Mattresses are already in place for 12 to 40 years.
Surveys indicate that majority of mattresses are buried or partially buried.
No serious snagging incidents were recorded throughout their lifetime.
Removal of mattresses would result in a requirement for rock placement to stabilise the pipeline.
C 1 1 1 1 1
R 4 4 4 4 4 R
evers
e R
eel/ R
evers
e S
-Lay
L 4 4 4 4 4 The associated impacts are expected to be small:
Mattresses are already in place for 12 to 40 years.
Surveys indicate that majority of mattresses are buried or partially buried.
No serious snagging incidents were recorded throughout their lifetime.
Removal of mattresses would result in a requirement for rock placement to stabilise the pipeline.
C 1 1 1 1 1
R 4 4 4 4 4
Key: L= Likelihood; C= Consequence, R= Risk.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E26 April 2015
Intentionally blank page
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E27 April 2015
Table E8: Summary of environmental risk assessment and contribution numbers of receptors per risk class
Activity
Option 1 Option 2 Option 3 Option 4 Option 5
Total Score
Number of Receptors per Risk
Class
Total Score
Number of Receptors per Risk
Class
Total Score
Number of Receptors per Risk
Class
Total Score
Number of Receptors per Risk
Class
Total Score
Number of Receptors per Risk
Class
Dredging operations to water jet out pipeline at each end (diver operated)
17 7 17 7 17 7
0 0 0
0 0 0
0 0 0
Dredging operation to water jet out the buried pipeline
17 7
17 7
0 0
0 0
0 0
Rock placed on the seabed to fill the hole created by the dredging operation and cover the pipeline ends(as above) and crossings ends (partial/ full removal)
36 3
18 6
18 6
3 0 0
0 0 0
0 0 0
Cutting the pipelines with diamond wires.
9 5 9 5 9 5 9 5 9 5
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
Rock-placement on exposed or span sections to 0.6 m cover and replace stability following mattress removal
93 1
0
2
3
Re-burial (trench and bury)
43 3
4
0
0
Waste management
2 1
2 1
2 1
2 1
2 1
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E28 April 2015
Table E8 (continued): Summary of environmental risk assessment and contribution numbers of receptors per risk class
Activity
Option 1 Option 2 Option 3 Option 4 Option 5
Total Score
Number of Receptors per Risk
Class
Total Score
Number of Receptors per Risk
Class
Total Score
Number of Receptors per Risk
Class
Total Score
Number of Receptors per Risk
Class
Total Score
Number of Receptors per Risk
Class
Release of contaminants from within the pipelines as they are lifted from the seabed to the vessels onsite (applies to partial clean)
16 6 16 6 12 5
0 0 0
0 0 0
0 0 0
Mattresses decommissioned in situ
4 1
0
0
0
Mattress removal 16 4 16 4 16 4 16 4
0 0 0 0
0 0 0 0
0 0 0 0
Decommissioning activities common to all options (as described in Table E4)
134 11 134 11 134 11 134 11 134 11
20 20 20 20 20
0 0 0 0 0
0 0 0 0 0
Total Score 194 194 226 332 184
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E29 April 2015
Table E9: Summary of societal risk assessment and contribution numbers of receptors per risk class
Activity
Option 1 Option 2 Option 3 Option 4 Option 5
Total Score
Number of Receptors per Risk
Class
Total Score
Number of Receptors per Risk
Class
Total Score
Number of Receptors per Risk
Class
Total Score
Number of Receptors per Risk
Class
Total Score
Number of Receptors per Risk
Class
Rock placed on the seabed to fill the hole created by the dredging operation and cover the pipeline ends(as above) and crossings ends (partial/ full removal)
3 1
3 1
3 1
0 0 0
0 0 0
0 0 0
Rock-placement on exposed or span sections to 0.6 m cover and replace stability following mattress removal
6 0
1
0
0
Waste management
16 0
16 0
16 0
16 0
16 0
2 2 2 2 2
0 0 0 0 0
0 0 0 0 0
Mattresses decommissioned in situ
6 0
1
0
0
Mattress removal
4 1 4 1 4 1 4 1
0 0 0 0
0 0 0 0
0 0 0 0
Live crossings – Decommissioning in situ
2 1 2 1
0 0
0 0
0 0
Decommissioning activities common to all options (as described in Table E4)
25 10 25 10 25 10 25 10 25 10
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
Total Score 47 47 48 54 50
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited E30 April 2015
Summary
The scores against each receptor were added up for every activity/ operation. These
were subsequently added together to give a total score for each option. The scores for
general activities were added to all options. Tables E8 and E9 summarises the scores
per activity/ operation and the number of receptors assessed as having the potential to
be impacted by this activity/ operation. These are colour coded based on the risk
category that each receptors score received. Tables E10 and E11 presents the ranked
summed total scores for each option in order of best to worst performance.
Table E10: Decommissioning options ranked according to the total risk scores for environmental risk.
Decommissioning Option Total Risk Score*
Environmental
5: Decommission in situ – Minimum Intervention 184
1: Full Removal – Reverse S-Lay/ Reel 194
2: Full Removal – Cut and Lift 194
3: Partial Removal – Cut and Lift 226
4: Decommission in situ – Minor Intervention 332
*Compiled by totalling the individual criteria scoring for each operation/activity relevant to societal risk across each row of Tables E4 to E7
Table E11: Decommissioning options ranked according to the total risk scores for societal risk.
Decommissioning Option Total Risk Score*
Societal
1: Full Removal – Reverse S-Lay/ Reel 47
2: Full Removal – Cut and Lift 47
3: Partial Removal – Cut and Lift 48
5: Decommission in situ – Minimum Intervention 50
4: Decommission in situ – Minor Intervention 54
*Compiled by totalling the individual criteria scoring for each operation/activity relevant to societal risk across each row of Tables E4 to E7
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited April 2015
APPENDIX F
ENERGY USAGE AND EMISSIONS ESTIMATES
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited April 2015
Intentionally blank page
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F1 April 2015
Introduction
This section presents the quantitative estimates of energy usage and emissions that
provide the basis for differentiating between options for decommissioning the
ConocoPhillips Phase 1 Decommissioning Project pipelines. The method follows the
“Guidelines for Calculation of Energy Use and Gaseous Emissions in Decommissioning”
(IoP, 2000).
Assessment Method
The method encompasses the fate of decommissioned material from pre-
decommissioning preparation to an onshore end-point, such as recycling or disposal in
landfill. The total quantities of energy usage and CO2 emissions were calculated by:
1. Estimating quantities of diesel fuel consumed by vessels involved in the work programmes offshore;
2. Estimating quantities of diesel consumed during the haulage onshore of the redundant materials to landfill, treatment or recycling facilities;
3. Estimating quantities of aviation fuel used for helicopter operations;
4. Estimating quantities of materials required, hypothetically, for the manufacture of new materials equivalent to the materials lost to society by leaving recyclable material in situ in the seabed or by disposal to landfill;
5. Estimating the energy required for the recycling of pipeline materials;
6. Multiplying these quantities by energy content and emissions factors which are provided in Tables F1 and F2;
7. The estimated energy and emissions were then summed to provide a total figure for each decommissioning option. Within the bounds of uncertainty inherent in all energy and emission assessments, these figures may be used as an indicator of environmental performance and assist in selecting the most energy-efficient decommissioning methods.
Table F1: Conversion factors for fuels
Fuel type Energy consumption (GJ/Tonne)
CO2 Emissions (Tonne CO2/ Tonne)
Source*
Marine diesel fuel 43.1 3.2 IoP (2000)
Aviation fuel 46.1 3.2 IoP (2000)
DERV (diesel fuel) 44.0 3.2 Defra/DECC 2011
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F2 April 2015
Table F2: Conversion factors for recycling and manufacture of replacement materials
Material
Recycling New Manufacture
Source Energy consumption (GJ/Tonne)
CO2
emissions (Tonne
CO2/Tonne)
Energy consumption (GJ/ Tonne)
CO2
Emissions (Tonne CO2
/Tonne)
Standard steel 9 0.96 25 1.889 IoP (2000)
Aluminium 15 1.080 215 3.589 IoP (2000)
Plastics* 20 0.693 105 3.179
Harvey (2010); Defra/ DECC(2011)
Concrete ND ND 1 0.88 IoP (2000)
Aggregate ND ND 0.1 0.005
University of Bath (2008)
Note: ND = No Data available
* Mid-range energy consumption for 'Plastics' from Harvey (2010); CO2 expressed as CO2 equivalent emissions from open loop manufacture of plastics from recycled and raw materials from Defra/ DECC (2011)
Assumptions
For the calculation of the energy use and gaseous emissions during the
decommissioning of the Viking and LOGGS pipelines, the following assumptions were
made:
It was assumed that energy usage and emissions would originate principally from six sources:
1. Combustion of marine diesel fuel by the vessels involved removal operations;
2. combustion of aviation fuel by the helicopters used to transport personnel offshore;
3. combustion of diesel fuel by trucks transporting material to treatment, landfill and recycling facilities;
4. the onshore deconstruction of the pipeline components;
5. the recycling of materials following deconstruction and treatment; and
6. the hypothetical manufacture of new materials to replace those lost to society because otherwise recyclable material has been sent to landfill.
All options have post-decommissioning surveys associated with them and draw on pre-decommissioning data acquired during the operating phase. Any option with ongoing liability (i.e. the partial removal and decommission in situ options), have, for comparative assessment purposes, three further monitoring surveys associated with them at two, five and ten years post-decommissioning.
Pipeline component weights are taken from the D3 Consulting (2014) materials inventory.
It is not yet clear whether pipeline burial will take place using trenching or rock-placement methods. As rock-placement is a worst case scenario from an environmental perspective, the energy and emissions assessment also accounts for burial of all exposed pipelines and pipeline ends by means of rock-placement.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F3 April 2015
Where parts of a pipeline are to be removed or covered by rock-placement (where decommissioned in situ), values have been calculated using Costain’s (2014) estimations of all exposed and free-spanning section lengths and an overtrawlable (3:1) rock berm profile.
A round trip by helicopter to the centre of the Viking and LOGGS area is estimated to take 1 hour and the helicopter (a Superpuma EC225 is used in this example) uses approximately 1030 litres of aviation fuel per hour (Airbus, 2014).
Recovered material is assumed to be landed at Hartlepool (Teesside docks) and subsequently taken to landfill and/or recycling sites approximately, 1 km to the north of the landing site. Any steel component which has been exposed to production fluids is assumed to contain naturally occurring radioactive material (NORM), NORM material will be removed and transported to the Kings Cliffe disposal facility in Northamptonshire, approximately, 266 km to the south, for disposal to landfill. Any waste requiring incineration is assumed to be sent to Ellesmere Port on Merseyside, approximately, 150 km to the west of the landing site. Although sufficient information is not available at this stage in the decommissioning process to be certain which landing and onshore processing locations will be selected, it is necessary to made this assumption in order to account for onshore transportation within the energy and emissions budget. As this assumption is made for decommissioning of all the Viking and LOGGS pipelines, it has the advantage of enabling a comparison to be made between decommissioning options on the basis of the quantity of material returned to shore.
Material is transported by lorries that have a capacity of approximately 33 tonnes. Lorries are assumed to use approximately 0.46 litres of fuel per km (Defra/ DECC, 2011) and are assumed to make a return trip from the landing site to the point of disposal/ treatment/ recycling facility.
The energy use associated with offshore and onshore deconstruction of materials is calculated according to the IoP factor for “overall dismantling” (IoP, 2000). This assumption has been made for two reasons. First, there is inconsistency in the level of information provided by contractors on the fuel use of their deconstruction equipment. Second, there is a lack of published data in general on the deconstruction of different types of materials and components. An overall value is used, therefore, to enable a comparison to be made between options based on the quantity of material requiring deconstruction. This also avoids “penalising” any option for which information on deconstruction was provided.
Emissions (CO2) values are not available for the onshore dismantling of infrastructure onshore, and have therefore have not been included in this part of the assessment.
A theoretical replacement cost is calculated for recyclable material decommissioned in situ or disposed of in a landfill site.
Recovered steel and anode material is recycled; recovered concrete, plastic and coal-tar coverings are taken to landfill.
As the aluminium (anode) components of the pipeline are indistinguishable from the surrounding steel, energy and emissions values associated with steel recycling and replacement have been used. As aluminium yields higher energy and emissions values for recycling and replacement, the outcome will be considered as an under-estimate.
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F4 April 2015
Recovered concrete and plastic associated with the pipelines is assumed to be removed and taken directly to landfill.
IoP (2000) energy and emissions values for pipelay vessels have been used to represent those of a pipeline removal vessel (reverse lay and reverse reel).
IoP (2000) energy and emissions values for a DSV (Dive Support Vessel) have been used to represent those of a survey vessel.
Energy and emissions values for a CSV (Construction Support Vessel) and cleaning contractor vessel have been based on the IoP (2000) values for a MSV (Multi Support Vessel).
Contingency vessel days due to changes in tidal conditions and Wait on weather (WOW) are variable depending on the decommissioning option:
o Option 1 (full removal by reverse lay/ reel): 10% WOW.
o Options 2 and 3 (full and partial removal by cut and lift): 20% WOW and 50% to account for tidal conditions.
o Options 4 and 5 (Decommission in situ minor and minimum intervention): 30% WOW.
All of the above are percentages of the working vessel days only.
Results
Option 1: Full Removal – Reverse S-Lay/ Reel
Tables F3a and F3b provide the offshore and onshore (respectively) results for the
energy usage and emissions calculations for Option 1. In line with DECC
Decommissioning Guidance (Defra/ DECC, 2011), energy usage is expressed as GJ and
gaseous emissions are expressed as tonnes of CO2. Total (offshore and onshore)
energy and emissions for this option are provided at the end of Table F3b.
Table F3a: Energy usage and emissions for Option 1: Offshore operations
Activity Duration
(day)
Fuel consumption rate (Tonne/
day)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Calculation 1: Supply vessel – removal operations
Mobilisation and demobilisation 35 2 70 3017 224
Transit to and from site 28 10 280 12068 896
Working on site 14 5 70 3017 224
Wait on weather 1.4 5 7 301.7 22.4
Subtotal 78.4 22 427 18,403.7 1366.4
Calculation 2: DSV - removal operations
Mobilisation and demobilisation 118 3 354 15,257.4 1,132.8
Transit to and from site 34 22 748 32,238.8 2,393.6
Working on site 49 18 882 38,014.2 2,822.4
Wait on weather 4.9 10 49 2,111.9 156.8
Subtotal 205.9 53 2033 87,622.3 6,505.6
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F5 April 2015
Table F3a (continued): Energy usage and emissions for Option 1: Offshore operations
Activity Duration
(day)
Fuel consumption rate (Tonne/
day)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Calculation 3: CSV - removal operations
Mobilisation and demobilisation 48 2 96 4,137.6 307.2
Transit to and from site 16 26 416 17,929.6 1,331.2
Working on site 38.3 18 689.4 29,713.1 2,206.1
Wait on weather 3.8 9 34.5 1,485.7 110.3
Subtotal 106.1 55 1,235.9 53,266 3,954.8
Calculation 4: Pipelay vessel – removal operations
Mobilisation and demobilisation 50.8 2 101.6 4,380.7 325.2
Transit to and from site 16 8 128 5,516.8 409.6
Working on site 19.4 15 291.2 12,548.6 931.7
Wait on weather 1.9 15 29.1 1,254.9 93.2
Subtotal 88.2 40 549.9 23,700.9 1,759.7
Calculation 5: Survey vessel – pre and post removal surveys
Mobilisation and demobilisation 4 3 12 517.2 38.4
Transit to and from site 4 22 88 3,792.8 281.6
Working on site 4.9 18 88.2 3,801.4 282.2
Wait on weather 2.5 10 24.5 1,056 78.4
Subtotal 15.4 53 212.7 9,167.4 680.6
Calculation 6: Supply Vessel – Mattress removal
Mobilisation and demobilisation 10 2 20 862 64
Transit to and from site 8 10 80 3,448 256
Working on site 8 5 40 1,724 128
Wait on weather 0.8 5 4 172.4 12.8
Subtotal 26.8 22 144 6,206.4 460.8
Calculation 7: DSV – Mattress removal
Mobilisation and demobilisation 14 3 42 1,810.2 134.4
Transit to and from site 4 22 88 3,792.8 281.6
Working on site 15 18 270 11,637 864
Wait on weather 1.5 10 15 646.5 48
Subtotal 34.5 53 415 17,886.5 1,328
Calculation 8: Helicopter Operations
Activity Duration
(hrs)
Fuel consumption rate (Tonne/
hr)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Transport of personnel to and from the vessels on location
225.6 0.5 105.355 4856.9 337.1
Total for offshore operations 219,453 16,278
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F6 April 2015
Table F3b: Energy usage and emissions for Option 1: Onshore operations
Calculation 7: Onshore transport
Activity Distance
(km)
Fuel consumption rate (Tonne/
km)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Onshore transportation of material
to treatment, landfill and recycling 122,896 0.000391 48 2,144 153
Calculation 8: Recycling
Materials Recycled
Total Weight of Materials (Tonne)
Energy Usage (GJ)
CO2 (Tonne)
Steel 7,278 65,505 6,987
Calculation 9: Manufacture of Replacement Materials
Materials
Total Weight of Materials (Tonne)
Energy Usage (GJ)
CO2 (Tonne)
Concrete 4,646 4,646 4,088
Plastics 66 6,959 211
Subtotal 4,712 11,605 4,299
Total for Onshore operations 79,224 11,439
TOTAL FOR OPTION 1 298,677 27,717
Option 2: Full Removal – Cut and Lift
Tables F4a and F4b provide the offshore and onshore (respectively) results for the
energy usage and emissions calculations for Option 2. In line with DECC
Decommissioning Guidance (Defra/ DECC, 2011), energy usage is expressed as GJ and
gaseous emissions are expressed as tonnes of CO2. Total (offshore and onshore)
energy and emissions for this option are provided at the end of Table F4b.
Table F4a: Energy usage and emissions for Option 2: Offshore operations
Activity Duration
(day)
Fuel consumption rate (Tonne/
day)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Calculation 1: CSV - removal operations
Mobilisation and demobilisation 16 2 32 1379.2 102.4
Transit to and from site 121 26 3146 135,592.6 10,067.2
Working on site 993 18 17874 770,369.4 57,196.8
Wait on weather 695 9 6255 269,590.5 20,016
Subtotal 1,825 55 27,307 1,176,932 87,382
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F7 April 2015
Table F4a (continued): Energy usage and emissions for Option 2: Offshore operations
Activity Duration
(hrs)
Fuel consumption rate (Tonne/
hr)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Calculation 2: Survey vessel – pre and post removal surveys
Mobilisation and demobilisation 4 3 12 517.2 38.4
Transit to and from site 4 22 88 3,792.8 281.6
Working on site 4.9 18 88.2 3,801.4 282.2
Wait on weather 2.5 10 24.5 1,056 78.4
Subtotal 15.4 53 212.7 9,168 681
Calculation 3: Supply Vessel – Mattress removal
Mobilisation and demobilisation 10 2 20 862 64
Transit to and from site 8 10 80 3,448 256
Working on site 8 5 40 1,724 128
Wait on weather 0.8 5 4 172.4 12.8
Subtotal 26.8 22 144 6,206 460
Calculation 4: DSV – Mattress removal
Mobilisation and demobilisation 14 3 42 1,810.2 134.4
Transit to and from site 4 22 88 3,792.8 281.6
Working on site 15 18 270 11,637 864
Wait on weather 1.5 10 15 646.5 48
Subtotal 34.5 53 415 17,887 1,328
Calculation 5: Helicopter Operations
Transport of personnel to and from the vessels on location
1021 0.5 476.8 21,979 1,526
Total for offshore operations 1,232,171 91,377
Table F4b: Energy usage and emissions for Option 2: Onshore operations
Calculation 6: Onshore transport
Activity Distance
(km)
Fuel consumption rate (Tonne/
km)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Onshore transportation of material
to treatment, landfill and recycling 122,896 0.000391 48 2,114 153
Calculation 7: Recycling
Materials Recycled Total Weight of
Materials (Tonne) Energy
Usage (GJ) CO2
(Tonne)
Steel 7,278 65,505 7,337
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F8 April 2015
Table F4b (continued): Energy usage and emissions for Option 2: Onshore operations
Calculation 8: Manufacture of Replacement Materials
Materials Total Weight of
Materials (Tonne)
Energy Usage (GJ)
CO2 (Tonne)
Concrete 4,646 4,646 4,088
Plastics 66 6,959 211
Subtotal 4,721 11,605 4,299
Total for Onshore operations 95,797 11,083
TOTAL FOR OPTION 2 1,311,394 102,816
Option 3: Partial Removal – Cut and Lift.
Tables F5a and F5b provide the offshore and onshore (respectively) results for the
energy usage and emissions calculations for Option 3. In line with DECC
Decommissioning Guidance (Defra/ DECC, 2011), energy usage is expressed as GJ and
gaseous emissions are expressed as tonnes of CO2. Total (offshore and onshore)
energy and emissions for this option are provided at the end of Table F5b.
Table F5a: Energy usage and emissions for Option 3: Offshore operations
Activity Duration
(day)
Fuel consumption rate (Tonne/
day)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Calculation 1: CSV - removal operations
Mobilisation and demobilisation 12 2 24 1034.4 76.8
Transit to and from site 22.6 26 587.6 25,325.6 1,880.3
Working on site 186.1 18 3,349.8 144,376.4 10,719.4
Wait on weather 130.3 9 1,172.7 50,543.4 3,752.6
Subtotal 351 55 5,134.1 221,279.7 16,429.1
Calculation 2: Survey vessel – 1 pre- removal survey and 3 post removal monitoring surveys
Mobilisation and demobilisation 10.0 3.0 30.0 1,293.0 96.0
Transit to and from site 10.0 22.0 220.0 9,482.0 704.0
Working on site 12.5 18.0 225.0 9,697.5 720.0
Wait on weather 6.1 10.0 61.3 2,639.9 196.0
Subtotal 38.6 53.0 536.3 231,12.4 1,716.0
Calculation 3: CSV: rock-placement
Mobilisation and demobilisation 4 2 8 344.8 25.6
Transit to and from site 5.5 26 143 6,163.3 457.6
Working on site 4 18 72 3,103.2 230.4
Wait on weather 2.9 9 26.1 1,124.9 83.5
Subtotal 16.4 55.0 249 10,736 797
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F9 April 2015
Table F5a (continued): Energy usage and emissions for Option 3: Offshore operations
Activity Duration
(day)
Fuel consumption rate (Tonne/
day)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Calculation 4:Supply Vessel – Mattress removal
Mobilisation and demobilisation 10 2 20 862 64
Transit to and from site 8 10 80 3,448 256
Working on site 8 5 40 1,724 128
Wait on weather 0.8 5 4 172.4 12.8
Subtotal 26.8 22 144 6,206.4 460.8
Calculation 5: DSV – Mattress removal
Mobilisation and demobilisation 14 3 42 1,810.2 134.4
Transit to and from site 4 22 88 3,792.8 281.6
Working on site 15 18 270 11,637 864
Wait on weather 1.5 10 15 646.5 48
Subtotal 34.5 53 415 17,886.5 1,328
Calculation 4: Helicopter Operations
Activity Duration
(hrs)
Fuel consumption rate (Tonne/
hr)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Transport of personnel to and from the vessels on location
225.6 0.5 105.355 4,856.875 337.137
Total for offshore operations 284,078 21,068
Table F5b: Energy usage and emissions for Option 3: Onshore operations
Calculation 7: Manufacture of new components/ materials
Materials
Total Weight of Materials (Tonne)
Energy Usage (GJ)
CO2 (Tonne)
Rock for protection (aggregate) 3,036 303.6 15
Calculation 5: Onshore transport
Activity Distance (km)
Fuel consumption rate (Tonne/ km)
Fuel consumed (Tonne)
Energy usage (GJ)
CO2 (Tonne)
Onshore transportation of material
to treatment, landfill and recycling 9,851 0.000391 4 169 12
Calculation 6: Recycling
Materials Recycled Total Weight of
Materials (Tonne)
Energy Usage (GJ)
CO2 (Tonne)
Steel 563 5,068 541
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F10 April 2015
Table F5b (continued): Energy usage and emissions for Option 3: Onshore operations
Calculation 7: Manufacture of Replacement Materials
Materials Total Weight of
Materials (Tonne)
Energy Usage (GJ)
CO2 (Tonne)
Steel 6,715 167,881 12,685
Concrete 4,646 4,646 4,088
Plastics 66 6,959 211
Subtotal 10,965 179,486 16,984
Total for onshore operations 195,678 17,552
TOTAL FOR OPTION 3 469,105 38,620
Option 4: Decommission in situ – Minor Intervention
Tables F6a and F6b provide the offshore and onshore (respectively) results for the
energy usage and emissions calculations for Option 4. In line with DECC
Decommissioning Guidance (Defra/ DECC, 2011), energy usage is expressed as GJ and
gaseous emissions are expressed as tonnes of CO2. Total (offshore and onshore)
energy and emissions for this option are provided at the end of Table F6b.
Table F6a: Energy usage and emissions for Option 4: Offshore operations
Activity Duration
(day)
Fuel consumption rate (Tonne/
day)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Calculation 1: DSV - removal operations
Mobilisation and demobilisation 18 3 54 2327.4 172.8
Transit to and from site 31.5 22 693 29,868.3 2,217.6
Working on site 47 18 846 36,462.6 2,707.2
Wait on weather 25.9 10 259.1 11,165.1 829
Subtotal 122.4 53 1,852.1 79,823.4 5,926.6
Calculation 2: CSV - removal operations and rock-placement
Mobilisation and demobilisation 18 2 36 1551.6 115.2
Transit to and from site 29.4 26 764.4 32945.6 2446.1
Working on site 17 18 306 13188.6 979.2
Wait on weather 12.4 9 111.4 4800.3 356.4
Subtotal 38.6 53 536.3 23112.4 1716
Calculation 3: Survey vessel – 1 pre and 1 post- removal survey and 3 monitoring surveys
Mobilisation and demobilisation 10 2.0 20.0 862.0 64.0
Transit to and from site 8 10.0 80.0 3448.0 256.0
Working on site 8 5.0 40.0 1724.0 128.0
Wait on weather 0.8 5.0 4.0 172.4 12.8
Subtotal 30.7 53.0 425.4 18,334.7 1,361.3
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F11 April 2015
Table F6a (continued): Energy usage and emissions for Option 4: Offshore operations
Activity Duration
(day)
Fuel consumption rate (Tonne/
day)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Calculation 4: CSV: rock-placement
Mobilisation and demobilisation 16.0 2.0 32.0 1,379.2 102.4
Transit to and from site 25.9 26.0 673.4 29,023.5 2,154.9
Working on site 14.0 18.0 252.0 10,861.2 806.4
Wait on weather 9.9 9.0 89.1 3,840.2 285.1
Subtotal 65.8 55.0 1046.5 45,104.2 3,348.8
Calculation 5:Supply Vessel – Mattress removal
Mobilisation and demobilisation 10 2 20 862 64
Transit to and from site 8 10 80 3,448 256
Working on site 8 5 40 1,724 128
Wait on weather 0.8 5 4 172.4 12.8
Subtotal 26.8 22 144 6,206.4 460.8
Calculation 6: DSV – Mattress removal
Mobilisation and demobilisation 14 3 42 1,810.2 134.4
Transit to and from site 4 22 88 3,792.8 281.6
Working on site 15 18 270 11,637 864
Wait on weather 1.5 10 15 646.5 48
Subtotal 34.5 53 415 17,886.5 1,328
Calculation 7: Helicopter Operations
Activity Duration
(hrs)
Fuel consumption rate (Tonne/
hr)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Transport of personnel to and from the vessels on location
99.5 0.5 46.5 2142 149
Total for offshore operations 181,657 13,477
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F12 April 2015
Table F6b: Energy usage and emissions for Option 4: Onshore operations
Calculation 7: Manufacture of new components/ materials
Materials Total Weight of Materials
(Tonne)
Energy Usage (GJ)
CO2 (Tonne)
Rock for protection (aggregate) 22,613 2,261.3 113
Calculation 8: Onshore transport
Activity Distance
(km)
Fuel consumption rate (Tonne/
km)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Onshore transportation of material
to treatment, landfill and recycling 532 0.000391 0.2 9.2 0.7
*ND = No Data
Option 5: Decommission in situ – Minimum Intervention
Tables F7a and F7b provide the offshore and onshore (respectively) results for the
energy usage and emissions calculations for Option 5. In line with DECC
Decommissioning Guidance (Defra/ DECC, 2011), energy usage is expressed as GJ and
gaseous emissions are expressed as tonnes of CO2. Total (offshore and onshore)
energy and emissions for this option are provided at the end of Table F7b.
Calculation 9: Recycling
Materials Recycled Total Weight of Materials
(Tonne)
Energy Usage (GJ)
CO2 (Tonne)
Steel 9.7 88 9
Calculation 11: Manufacture of Replacement Materials
Materials Total Weight of Materials
(Tonne)
Energy Usage (GJ)
CO2 (Tonne)
Steel 7,269 181,715 13,730
Concrete 4646 4646 4088
Plastics 66 6959 211
Subtotal 11,981 193,320 18,029
Total for Onshore operations 195,678 18,152
TOTAL FOR OPTION 4 377,335 31,629
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F13 April 2015
Table F7a: Energy usage and emissions for Option 5: Offshore operations
Activity Duration
(day)
Fuel consumption rate (Tonne/
day)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Calculation 1: DSV - removal operations
Mobilisation and demobilisation 18 3 54 2327.4 172.8
Transit to and from site 31.5 22 693 29,868.3 2,217.6
Working on site 47 18 846 36,462.6 2,707.2
Wait on weather 25.9 10 259.1 11,165.1 829
Subtotal 122.4 53 1,852.1 79,823.4 5,926.6
Calculation 2: CSV - removal operations and rock-placement
Mobilisation and demobilisation 3 2.0 6.0 258.6 19.2
Transit to and from site 4 26.0 104.0 4482.4 332.8
Working on site 3 18.0 54.0 2327.4 172.8
Wait on weather 2.1 9.0 18.9 814.6 60.5
Subtotal 12.1 55.0 182.9 7,883.0 585.3
Activity Duration
(day)
Fuel consumption rate (Tonne/
day)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Calculation 3: Survey vessel – 1 pre- removal survey and 3 post removal monitoring surveys
Mobilisation and demobilisation 10.0 3.0 30.0 1293.0 96.0
Transit to and from site 10.0 22.0 220.0 9482.0 704.0
Working on site 12.5 18.0 225.0 9697.5 720.0
Wait on weather 6.1 10.0 61.3 2639.9 196.0
Subtotal 38.6 53.0 536.3 23,112.4 1,716.0
Calculation 4: Helicopter Operations
Activity Duration
(hrs)
Fuel consumption rate (Tonne/
hr)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Transport of personnel to and from the vessels on location
63.5 0.5 29.2 1,346 93
Total for offshore operations 112,228 8,326
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F14 April 2015
Table F7b: Energy usage and emissions for Option 5: Onshore operations
Calculation 7: Manufacture of new components/ materials
Materials
Total Weight of Materials (Tonne)
Energy Usage (GJ)
CO2 (Tonne)
Rock for protection (aggregate) 736 73.6 4
Calculation 8: Onshore transport
Activity Distance
(km)
Fuel consumption rate (Tonne/
km)
Fuel consumed
(Tonne)
Energy usage (GJ)
CO2 (Tonne)
Onshore transportation of material
to treatment, landfill and recycling 532 0.000391 0.2 9 1
Calculation 9: Recycling
Materials Recycled
Total Weight of Materials (Tonne)
Energy Usage (GJ)
CO2 (Tonne)
Steel 9.7 88 9
Calculation 10: Manufacture of Replacement Materials
Materials
Total Weight of Materials (Tonne)
Energy Usage (GJ)
CO2 (Tonne)
Steel 7,269 181,715 13,730
Concrete 4,646 4,646 4,088
Plastics 66 6,959 211
Subtotal 11,981 193,320 18,029
Total for Onshore operations 193,491 18,043
TOTAL FOR OPTION 5 305,719 26,368
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
BMT Cordah Limited F15 April 2015
Summary
Tables F8 and F9 provide summaries of the energy use (in GJ) and emissions (in tonnes
of CO2) respectively, for each decommissioning option. The best performing option (i.e.
the option with the lowest energy use and emissions) has been assigned the highest
score. The subsequent scores are all inversely proportional to the highest scoring option.
Table F8. Summary of energy use for all decommissioning options
Option Energy Usage (GJ)
1. Full removal – reverse s-lay/ reel 298,677
5. Decommission in situ – minimum intervention 305,719
4. Decommission in situ – minor intervention 377,335
3. Partial removal – cut and lift 469,105
2. Full removal – cut and lift 1,311,394
Table F9. Summary of emissions for all decommissioning options
Option Emissions (Tonne/ CO2)
5. Decommission in situ – minimum intervention 26,368
1. Full removal – reverse s-lay/ reel 27,717
4. Decommission in situ – minor intervention 31,629
3. Partial removal – cut and lift 38,620
2. Full removal – cut and lift 102,816
References
Costain Upstream Ltd, 2014. Pipeline Burial Technical Note. Ref No: CU-J1690-R-TN-004-A01.
D3, 2014. DAWN Materials Inventory. Online Portal D3 Consulting and ConocoPhillips UK Limited. [Assessed August 2014]
Defra/DECC, 2011. Guidelines to DERFA/DECC's Greenhouse Gas Conversion factors for Company Reporting. Produced by AEA for the Department of Energy and Climate Change (DECC) and the Department for Environment, Food and Rural Affairs (Defra). www.gov.uk/government/uploads/system/aggachment data/file/69544/pb13773-ghg-conversion-factors-2012.pdf [Accessed August 2014]
Airbus, 2014. Profile for Superpuma helicopter. http://www.airbushelicopters.com/site/en/ref/Characteristics_117.html [Accessed August 2014]
Harvey, L.D.D., 2010. Energy Efficiency and Demand for Energy Services. Energy and the New Reality 1. Earthscan Ltd. Cromwell Press, London, UK. ISBN: 978-1-84971-912.
IoP (Institute of Petroleum), 2000. Guidelines for the calculation of estimates of energy use and emissions in the decommissioning of offshore structures.
University of Bath, 2008. Inventory of carbon and energy (ice) version 1.6a. Department of mechanical engineering. http://www.bath.ac.uk/mech_eng/sert/embodied/ [Accessed May 2013]
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
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Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
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APPENDIX G
COST ESTIMATES
Information provided to DECC
Comparative Assessment Report for SNS Phase 1 Decommissioning Project: Viking VDP1 and LOGGS LDP1 Infield Pipelines and Associated Mattresses
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