View
216
Download
1
Category
Preview:
Citation preview
NPCR 013, Rev. 1, Steel as construction material
PRODUCT-CATEGORY RULES
EN 15804
NPCR 013rev1 Issue date: 22.08.2013
Valid to: 22.08.2018
Steel as construction material
NPCR 013-Revision 1, Steel as construction material
page 2 of 24
Content Content ..................................................................................................................................... 2 Introduction .............................................................................................................................. 4 Cross references ....................................................................................................................... 5 1 Scope ...................................................................................................................................... 6 2 Normative references ............................................................................................................. 6 3 Terms and definitions ............................................................................................................ 7 4 Abbreviations ......................................................................................................................... 9 5 General aspects ...................................................................................................................... 9
5.1 Objective of the PCR ............................................................................................... 9 5.2 Types of EPD ........................................................................................................... 9 5.3 Comparability of EPD of construction products ...................................................... 9 5.4 Additional information ............................................................................................. 9 5.5 Ownership, responsibility and liability for the EPD .............................................. 10 5.6 Communication formats ......................................................................................... 10
6 Product Category Rules for LCA ......................................................................................... 10 6.1 Product Category .................................................................................................... 10
6.1.1 Steel products ........................................................................................................... 10 6.1.2 Steel components ..................................................................................................... 11
6.2 Life cycle stages and their information modules to be included ............................ 13 6.2.1 General ..................................................................................................................... 13 6.2.2 A1-A3, Product stage information modules............................................................. 13 6.2.3 A4-A5, Construction process stage, information modules ...................................... 13 6.2.4 B1-B5, use stage, information modules related to the building fabric..................... 13 6.2.5 B6-B7, use stage, information modules related to operation of the building .......... 13 6.2.6 C1-C4, end-of-life stage, information modules ....................................................... 13 6.2.7 D, benefits and loads beyond the system boundary, information modules .............. 13
6.3 Calculation rules for the LCA ................................................................................ 14 6.3.1 Functional unit ......................................................................................................... 14 6.3.2 Declared unit ............................................................................................................ 14 6.3.3 Reference service life (RSL) .................................................................................... 14 6.3.4 System boundaries ................................................................................................... 14 6.3.5 Criteria for the inclusion of inputs and outputs (cut-off) ......................................... 16 6.3.6 Selection of data ....................................................................................................... 16 6.3.7 Data quality requirements ........................................................................................ 17 6.3.8 Developing product level scenarios ......................................................................... 17 6.3.9 Units ......................................................................................................................... 17
6.4 Inventory analysis .................................................................................................. 18 6.4.1 Collecting data ......................................................................................................... 18 6.4.2 Calculation procedures ............................................................................................. 18 6.4.3 Allocation of input flows and output emissions ....................................................... 18
6.5 Impact assessment .................................................................................................. 18 7 Content of the EPD .............................................................................................................. 19
7.1 Declaration of general information ........................................................................ 19
NPCR 013-Revision 1, Steel as construction material
page 3 of 24
7.2 Declaration of environmental parameters derived from LCA ............................... 19 7.2.1 General ..................................................................................................................... 19 7.2.2 Rules for declaring LCA information per module ................................................... 19 7.2.3 Parameters describing environmental impacts ......................................................... 19 7.2.4 Parameters describing resource use ......................................................................... 19 7.2.5 Other environmental information describing waste categories and output flows .... 19
7.3 Scenarios and technical information ...................................................................... 19 7.3.1 General ..................................................................................................................... 19 7.3.2 Construction process stage ....................................................................................... 20 7.3.3 Use stage .................................................................................................................. 20 7.3.4 End-of-life ................................................................................................................ 20
7.4 Additional information ........................................................................................... 20 7.4.1 Indoor air .................................................................................................................. 20 7.4.2 Soil and water ........................................................................................................... 21 7.4.3 Aggregation of information modules ....................................................................... 21
8 Project report ........................................................................................................................ 21 9 Verification and validity of an EPD..................................................................................... 21 10 Bibliography ............................................................................................................... 21 APPENDIX A1 ...................................................................................................................... 23 1 Norwegian conditions and requirements ............................................................................. 23 2 Communication format and content of the Norwegian EPD ............................................... 23 3 Treatment of electricity ........................................................................................................ 23 4 Transport .............................................................................................................................. 23 5 Reference service life ........................................................................................................... 23 6 Key Environmental Parameters ........................................................................................... 23
6.1 Dangerous substances in the Candidate or Priority lists ........................................ 23 6.2 Candidate or Priority list ........................................................................................ 24
7 Scenarios .............................................................................................................................. 24 7.1 Construction process stage ..................................................................................... 24 7.2 Use stage ................................................................................................................ 24 7.3 End-of-life .............................................................................................................. 24
8 Indoor emissions .................................................................................................................. 24
NPCR 013-Revision 1, Steel as construction material
page 4 of 24
Introduction These product category rules (PCR) are intended for companies preparing an Environmental
Product Declaration (EPD) for steel as construction material. The purpose of this document is to
define clear guidelines for performing the underlying life cycle assessment (LCA) to ensure
comparability between EPDs.
The PCR is based on and represent a supplement to the European standard EN 15804:2012 -
Sustainability of construction works – Environmental Product Declarations – core rules for the
product category of construction products. The PCR complies with the ISO standards, ISO
21930:2007 - Building construction - Sustainability in building construction – Environmental
declaration of building products and the requirements of ISO 14025:2006 - Environmental
labelling and declarations – Type III environmental declarations – Principles and procedures
and the provisions in ISO 14044:2006 - Environmental management — Life cycle assessment —
Requirements and guidelines.
Definitions from NS-EN ISO 14044:2006 and NS-EN 15804:2012 are reproduced by the
Norwegian EPD Foundation under licence from Standard Online AS 01/2012. © All rights are
reserved. Standard Online makes no guarantees or warranties as to the correctness of the
reproduction. See www.standard.no
The EPDs based on this PCR-document are covering two perspectives:
EPD – cradle to gate
EPD – cradle to grave including beyond life cycle of building and will present data that has been aggregated over the relevant life cycle stages as described in
chapter 6 and shown in figure 2.
Program operator:
Næringslivets Stiftelse for Miljødeklarasjoner
P.B. 5250 Majorstuen, 0303 Oslo
The members of the Norwegian PCR Work Group have prepared this PCR.
Members of the PCR WG:
Norsk Stålforbund
Stål og Metallgrosistenes Forening
Contiga
EMV Construction
Skanska Stålfabrikker
AK Mekaniske
Global & Local miljørådgivning
This is a common PCR, but with an appendix A1 giving specific guidelines according to
Norwegian requirements.
NPCR 013-Revision 1, Steel as construction material
page 5 of 24
Cross references Table 1 sums up the most important aspects defined distinctively for this particular product
category. More details are given in the following chapters.
Table 1: PCR for Steel as construction material executive summary
Chapter Topic PCR – Steel as construction
material
Cross references
ISO
14044
ISO
14025
ISO
21930
EN
15804
4 Terms and
definitions
3 3 3 3
5.2 Type of EPDs
with respect to
life cycle stages
covered
Cradle to gate for all products (A1 – A3)
Cradle to grave (A1 – C4)
Beyond the building life cycle (D)
5.2
6.1 Definition of
product category
Steel as construction material 6.7.1
6.7.2
6.2.2 6.1
6.3.1 Functional unit
per kg with an expected specified
service life
4.2.3.2 6.2.4 6.3.1
6.3.2 Declared unit per kg.
6.2.3 6.3.2
6.3.3 Reference service
life
EPD Cradle to grave:
Steel components with carrying
capacity in buildings
6.3.3
6.3.4 System
boundaries
EPD Cradle to gate: A1-A3
EPD Cradle to grave: A1-C4
EPD including life beyond the
building life cycle: A1-C4 + D
4.2.3.3
4.3.3.4
6.2.5
5.5
6.3.4
6.3.4.2 Product stage 4.2.3.6 6.2.6
6.2.8
6.3.4.2
6.3.8 Construction
stage A4-A5
6.3.8
6.3.4.4 Use stage B1- B7 6.3.4.4
6.3.8 End of life C1-C4 6.3.8
6.3.7 Data quality 4.2.3.6 6.2.6
6.2.8
6.3.7
6.3.8 Scenarios
6.3.8
NPCR 013-Revision 1, Steel as construction material
page 6 of 24
Chapter Topic PCR – Steel as construction
material
Cross references
ISO
14044
ISO
14025
ISO
21930
EN
15804
6.4.3 Allocation rules Allocation according to mass [kg]
Allocation to co-products should be
by economic value when the
difference in economic value of these
co-products is high (above 25%), in
accordance with EN 15804.
4.3.4 6.2.7.1 6.4.3
7.4 Additional
information
The content of harmful substances/
chemicals, as well as impacts on
indoor environment must be declared
in EPD
7.2.3
7.2.4
7.4
8.2
1 Scope The intended application of this Product Category Rules (PCR) is to give guidelines for
development of Environmental Product Declarations (EPD) for Steel as construction material
and to further specify the underlying requirements of the LCA. The core rules valid for all
construction products are given in standard EN 15804 and shall be used by those preparing the
EPD.
2 Normative references
ISO 14025: 2006, Environmental management – Type III environmental declarations –
Principles and procedure.
ISO 21930: 2007, Sustainability in building and construction – Environmental declaration of
building products.
ISO 14044: 2006, Environmental management – Life cycle assessment – Requirements and
guidelines.
ISO 15686-1: 2000, Buildings and constructed assets — Service life planning — Part 1: General
principles.
ISO 15686-8: 2008 Buildings and constructed assets – Service life planning – Part 8: Reference
service life.
EN 15804: 2012, Sustainability in construction works – Environmental product declarations –
Core rules for the product category of construction products.
EN 15942: 2011, Sustainability of construction works – Environmental declarations –
Communication formats: business to business.
NPCR 013-Revision 1, Steel as construction material
page 7 of 24
3 Terms and definitions For the purposes of this document, the following terms and definitions apply.
3.1 declared unit quantity of a building product for use as a reference unit in an EPD, based on LCA, for the
expression of environmental information needed in information modules
Example: Mass (kg), Volume (m³)
[ISO 21930]
3.2
functional unit quantified performance of a product system for a building product for use as a reference unit in
an EPD based on LCA
[ISO 21930]
3.3
information module
compilation of data to be used as a basis for a Type III environmental declaration, covering a unit
process or a combination of unit processes that are part of the life cycle of a product
[ISO 21930]
3.4
life cycle assessment (LCA)
compilation and evaluation of the inputs, outputs and the potential environmental impacts of a
product system throughout its life cycle
[ISO 14040]
3.5 product category group of building products that can fulfill equivalent functions
[ISO 21930]
3.6
reference service life
service life of a building product that is known or expected under particular set, i.e., a reference
set, of in-use conditions and that may form the basis of estimating the service life under other in-
use conditions
NOTE The reference service life is applied in the functional unit
[Adapted from ISO 21930]
3.7
Type III environmental declaration, Environmental product declaration, EPD
environmental declaration providing quantified environmental data using predetermined
parameters and, where relevant, additional environmental information
NPCR 013-Revision 1, Steel as construction material
page 9 of 24
4 Abbreviations EPD Environmental product declaration
PCR Product category rules
LCA Life cycle assessment
LCI Life cycle inventory analysis
LCIA Life cycle impact assessment
RSL Reference service life
5 General aspects
5.1 Objective of the PCR
To ensure provision of verifiable and consistent data for an EPD based on LCA and describe
reliable scenarios.
5.2 Types of EPD
This PCR cover the following types of EPD (see figure 2):
EPD 1: Cradle to gate (A1-A3) and beyond the building life cycle (D) for: Type 1.1: Hot rolled steel plates (thickness 3 – 60 mm) Type 2.1: Hot rolled open H, I, U, L - steel sections Type 3.1: Cold formed hollow steel sections Type 4.1: Hot-rolled hollow steel sections Type 5.1: Reinforcement
EPD 2: Cradle to grave as constructed products (A1 – C4) and beyond the building life cycle (D) for: Type 1.2: Welded plated beams; e.g hat sections Type 2.2: Hot rolled open H, I, U, L - steel sections Type 3.2: Cold formed hollow steel sections Type 4.2: Hot-rolled hollow steel sections Type 5.2: Reinforcements
5.3 Comparability of EPD of construction products
General rules for comparability are given in the standard EN 15804:2012, clause 5.3.
Contents of EPD project report and EPD shall be as specified in EN 15804:2012, clause 8
5.4 Additional information
See clause 7.4.
NPCR 013-Revision 1, Steel as construction material
page 10 of 24
5.5 Ownership, responsibility and liability for the EPD
The manufacturer or a group of manufacturers are the sole owners and have liability and
responsibility for an EPD.
5.6 Communication formats
The communication format of the EPD shall be in accordance with EN 15942: 2011
Sustainability of construction works – Environmental product declarations – Communication
formats: business to business.
6 Product Category Rules for LCA
6.1 Product Category
The product group “Steel as construction material” comprises all kinds of steel components with
a defined carrying capacity in buildings according to NS-EN 10025 (årstall), NS-EN 10219
(årstall) and NS-EN 10210 (årstall).
Steel products 6.1.1
Type 1.1: Hot rolled steel plates (thickness 3 – 60 mm) used in building frame structures, made by European manufacturers. Dimensions: t= 3-60. The requirements of the EN 10025 standard are applied. The standard steel grade is ≤ S355.
Type 2.1: Hot rolled open H, I, U, L - steel sections and wide flats are hot-rolled sections used in frame structures made by European manufacturers. Dimensions: IPE 80-600, HEA/B/M 100-600, UNP/UPE 80-400, L 40-200, L 65x50 - 200x150, T 30-140 and wide steels:160-500, t=5-40. The requirements of the EN 10025 standard are applied. The standard steel grade is ≤ S355.
Type 3.1: Cold formed hollow steel sections (CFSHS): Circular, square and rectangular sections are used in building frame structures, made of hot-rolled steel strip by cold-rolling and welding by European manufacturers. Dimensions: Square HS: 25x2 - 300x12,5. Rectangular HS: 50x25x2 - 400x200x12,5 and Circular HS: 21,3x2 - 711x60 The requirements of the EN 10219 standard are
NPCR 013-Revision 1, Steel as construction material
page 11 of 24
applied. The standard steel grade is ≤ S355.
Type 4.1: Hot-finished hollow steel sections (HFSHS): Circular, square and rectangular sections are used in building frame structures, made of hot-rolled steel by European manufacturers. Dimensions: Square HS: 40x3 - 400x20. Rectangular HS: 50x30x3,2 - 500x300x20 and Circular HS: 21,3x2 - 711x60. The requirements of the EN 10210 standard are applied. The standard steel grade is ≤ S355.
Type 5.1: Steel for the reinforcement of concrete, weldable, made by European manufacturers. Dimensions: D= 6-50. The requirements of the EN 10080 standard are applied. The standard steel grade is ≤ B500.
Figure 1: Example of steel products; Type 1.1, Type 2.1, Type 3.1, Type 4.1, Type 5.1.
Steel components 6.1.2
Steel components are used to construct structures for buildings. The components can have shapes and qualities according to Type 1.2 - 4.2, and the structures shall have carrying capacity according to predefined standards. The structures are static and part of the building. They can be built-in structures or open structures.
Type 1.2: Welded plated beams; HSQ, ISQ and
HSK sections made of welded hot-rolled steel
plates used in building frame structures. Plates are
made by European manufacturers. Sections are
prefabricated and erected on-site by Norwegian
steel contractors. Dimensions: H = 150-600, B1 =
110-600, B2 = 140-700, d = 5-12, t1/t2 = 6-60. The
requirements of the EN 10025 and EN 1090-2
standards are applied. The standard steel grade is ≤
S355.
NPCR 013-Revision 1, Steel as construction material
page 12 of 24
Type 2.2: I, H, U, L, T and wide flats are hot-rolled sections used in frame structures made by European manufacturers. Steel components are prefabricated and erected on-site by Norwegian steel contractors. Dimensions: IPE 80-600, HEA/B/M 100-600, UNP/UPE 80-400, L 40-200, L 65x50 -200x150, T 30-140 and wide steels:160-500, t=5-40. The requirements of the EN 10025 and EN 1090-2 standards are applied. The standard steel grade is ≤ S355. Type 3.2 Cold formed structural hollow sections (CFSHS): Circular, square and rectangular sections are used in building frame structures, made of hot-rolled steel strip by cold-rolling and welding by European manufacturers. Steel components are prefabricated and erected on-site by Norwegian steel contractors. Dimensions: Square HS: 25x2 - 300x12,5. Rectangular HS: 50x25x2 - 400x200x12,5 and Circular HS: 21,3x2 - 711x60. The requirements of the EN 10219 and EN 1090-2 standards are applied. The standard steel grade is ≤ S355.
Type 4.2 Hot finished structural hollow sections (HFSHS): Circular, square and rectangular sections are used in building frame structures, made by European manufacturers. Steel components are prefabricated and erected on-site by Norwegian steel contractors. Dimensions: Square HS: 40x3 - 400x20. Rectangular HS: 50x30x3,2 - 500x300x20 and Circular HS: 21,3x2 - 711x60. The requirements of the EN 10210 and EN 1090-2 standards are applied. The standard steel grade is ≤ S355.
Type 5.2: Reinforcement steel for concrete, weldable, made by European manufacturers. Straight ribbed bars, cut and bend, mesh, and combinations of these (special welded products) are prefabricated and erected on-site by Norwegian fabricators & prefab contractors. Dimensions: D= 6-50. The requirements of the EN 10080 and EN 13670 standards are applied. The standard steel grade is ≤ B500.
Figure 2: Example of steel components; Type 1.2, Type 2.2, Type 3.2, Type 4.2, Type 5.2.
NPCR 013-Revision 1, Steel as construction material
page 13 of 24
6.2 Life cycle stages and their information modules to be included
General 6.2.1
The environmental information of an EPD covering all life cycle stages shall be subdivided into
the information module groups A1-A3, A4-A5, B1-B5, B6-B7, C1-C4 and module D. Only the
declaration on the product stage modules, A1-A3, is required for compliance with the standard.
The declaration of the modules of the other life cycle stages is optional.
Information modules within any of the life cycle stages are communicated depending on the
types of EPD as specified in 5.2. They include impacts and aspects related to losses in the module
in which the losses occur (i.e. production, transport, and waste processing and disposal of the lost
waste products and materials).
A1-A3, Product stage information modules 6.2.2
- A1, raw materials extraction and processing
- A2, transport to manufacturer
- A3, manufacturing of steel components
A4-A5, Construction process stage, information modules 6.2.3
- A4, transport to the building site
- A5, installation in building
B1-B5, use stage, information modules related to the building fabric 6.2.4
- B1, use not relevant for the LCA
- B2, maintenance, only for exposed structures, not relevant for inbuilt structures
- B3, repair
- B4, replacement
- B5, refurbishment
B6-B7, use stage, information modules related to operation of the building 6.2.5
- B6, operational energy use not relevant
- B7, operational water use not relevant
C1-C4, end-of-life stage, information modules 6.2.6
- C1, deconstruction, demolition
- C2, transport to processing-plant
- C3, processing for reuse or recycling
- C4, disposal only relevant for reinforcement steel
D, benefits and loads beyond the system boundary, information modules 6.2.7
- D, reuse, recovery, recycling potentials
NPCR 013-Revision 1, Steel as construction material
page 14 of 24
6.3 Calculation rules for the LCA
Functional unit 6.3.1
This PCR is valid for all steel components, manufactured in accordance with EN 1090 and EN
13670.
The functional unit (cradle to grave)
per kg with an expected specified service life
Results should be displayed per functional unit based on scenarios for construction process stage,
use stage and end of life stage.
Declared unit 6.3.2
This PCR is valid for all steel products that correspond with the standards EN 10025, EN 10219,
and EN 10210.
The declared unit (cradle to gate) is per kg.
Reference service life (RSL) 6.3.3
Service life has to be defined in compliance with EN15804 or as minimum based on verified
European statistic data for the considered building. RSL information to be declared in the EPD
covering the use stage shall be provided and documented by the manufacturer.
System boundaries 6.3.4
6.3.4.1 General
The life cycle stages for steel as construction material are shown in Figure 2. See also Figure 1 in
standard EN 15804: 2012.
The different life cycle stages for steel as construction material are shown in Figure 3. The
environmental impact shall be documented for each of the life cycle stages and in total.
NPCR 013-Revision 1, Steel as construction material
page 15 of 24
Figure 2 Life cycle stages for steel as construction material
6.3.4.2 Product stage
- A1, Extraction of new materials, reuse of materials from previous systems, processing of
secondary materials
- A2, Transport to the manufacturer
- A3, Production of steel components, manufacturing of packaging
6.3.4.3 Construction stage (on the building site)
- A4, transport to the building site
- A5, storage of products including provision of heating and cooling, not relevant waste, waste
processing, installation of the product including ancillary products and energy required for
installation
6.3.4.4 Use stage
- B1, not relevant for the LCA
- B2, production and transport of any component and ancillary products used for maintenance,
including cleaning, transport of any waste from maintenance process, end of life process of any
waste from maintenance
- B3, production of repaired part, use of energy, transportation of repaired part, end treatment of
repaired part
- B4, production of replacement part, use of energy, transportation of replenishment part, end
treatment of replenishment part
NPCR 013-Revision 1, Steel as construction material
page 16 of 24
- B5, production of components used for refurbishment, related energy used, transport of waste of
the refurbishment
- B6, not relevant
- B7, not relevant
6.3.4.5 End-of-life stage
- C1, deconstruction, on site sorting
- C2, transport
- C3, processing for reuse and recycling
- C4, disposal, only relevant fore reinforcement
6.3.4.6 Benefits and loads beyond the product system boundary in module D
- D, information of net benefits and loads that have not been allocated as co-products and that is
beyond the life-cycle of the building
Criteria for the inclusion of inputs and outputs (cut-off) 6.3.5
General cut-off criteria are given in standard EN 15804: 2012, clause 6.3.5. The listed procedures
shall be followed for the execution of inputs and outputs:
- all inputs and outputs to a (unit) process shall be included in the calculation, for which
data are available. Data gaps may be filled by conservative assumptions with average or
generic data. Any assumptions for such choices shall be documented.
- In case of insufficient data or data gaps for a unit proves, the cut-off criteria shall be 1 %
of renewable and non-renewable primary energy usage and 1 % of the total mass input of
that unit process. The total of neglected input flows per module (A1-A3, etc.) shall be the
maximum of 5 % of energy usage and mass
- Particular care should be taken to include material and energy flows known to have the
potential to cause significant emission into air and water or soil related to the
environmental indicators
Selection of data 6.3.6
The application of generic and specific data shall follow the model in Table 1. Specific data
derived from the production process shall be used. Generic data can be used for processes the
manufacturer cannot influence, i.e. up- and downstream processes.
Table 1: Application of specific and generic data
Modules
Module A1-A3 A4 and A5 B1-B7 C1-C4
Production of
commodities,
raw materials
Product
manufacture
Installation
process
Use process End-of-life
process
Process type
Upstream
processes
Processes the
manufacturer
has influence
over
Downstream processes
Generic data Manufacturer’s Generic data
NPCR 013-Revision 1, Steel as construction material
page 17 of 24
Data type average or
specific data
Data quality requirements 6.3.7
General requirements and guidelines concerning use of generic and specific data and the quality
of those are described in the standard EN 15804: 2012, clause 6.3.6 and 6.3.7.
In addition the following rules shall be applied:
For manufacturing of product, specific annual data shall be applied.
Actual data age (when data was collected) shall be stated.
If site-specific data with certificate of origin cannot be obtained, the mix of electricity used shall be the grid mix in the country where main energy consuming processes take
place. The mix of electricity (calculation procedure) shall be documented.
For directly consumed heat and electricity, infrastructure shall be included
Hazardous waste shall be specified according to relevant national regulations.
Developing product level scenarios 6.3.8
Scenarios shall support the calculation of information modules except the modules A1-A3.
A scenario shall be based on relevant technical information and is shown in 7.3:
- A4: Transport to the building site (e.g. truck, railway, boat)
- A5: Installation in the building (e.g. Auxiliary, Water consumption, Electricity
consumption, Other energy carriers, Material loss, Output materials from waste treatment,
Dust in the air)
- B2: Maintenance (e.g. Maintenance cycle, Auxiliary, Other resources, Water
consumption, Electricity consumption, Other energy carriers, Material loss)
- B3: Repair (e.g. Maintenance cycle, Auxiliary, Other resources, Water consumption,
Electricity consumption, Other energy carriers, Material loss)
- B4: Replacement (e.g. Maintenance cycle, Auxiliary, Other resources, Water
consumption, Electricity consumption, Other energy carriers, Material loss)
- B5: Refurbishment (e.g. Maintenance cycle, Auxiliary, Other resources, Water
consumption, Electricity consumption, Other energy carriers, Material loss)
- C1: Deconstruction
- C2: Transport from site to recycling plant (e.g. truck, railway, boat)
- C3: Processing for reuse and recycling (e.g. Collected separately, Collected as mixed
construction waste, Reuse, Recycling, To landfill)
- C4: Disposal, only relevant fore reinforcement
Units 6.3.9
SI units shall be used.
NPCR 013-Revision 1, Steel as construction material
page 18 of 24
6.4 Inventory analysis
Collecting data 6.4.1
Data collection shall follow the guidelines provided in EN ISO 14044:2006, clause 4.3.2.
Calculation procedures 6.4.2
The calculation procedures described in EN ISO 14044 shall apply.
Allocation of input flows and output emissions 6.4.3
General allocation rules including closed-loop and open-loop allocation procedures are given in
the standard EN 15804: 2012 clause 6.4.3.
Allocation should be performed in the following order
1 Physical properties (e.g. mass)
2 Economic value
Flows leaving the system and that are at the end-of-waste boundary of the products stage (A1-
A3), should be allocated as co-products by physical properties or by economic value when the
unit price difference is larger than 25%.
For the calculation of module D, a justified value-correction factor should be used to reflect the
functional equivalence of a product substituting primary raw materials.
6.5 Impact assessment
The characterisation factors in the European Reference Life Cycle Database (ELCD) provided by
the European Commission shall be used.
Parameters shall be declared and reported according to standard EN 15804: 2012, clause 7.2.2.
Environmental impact shall be declared as stated in EN 15804: 2012, clause 7.2.3, table 3:
Global warming potential, GWP, in kg CO2 equivalents, 100 years.
Depletion potential of the stratospheric ozone layer, ODP, in kg CFC 11 equivalents, 20 years.
Acidification potential of land and water sources, AP, in kg SO2 equivalents.
Eutrophication potential, EP in kg PO4 equivalents.
Formation potential of tropospheric ozone photochemical oxidants, POCP, in kg C2H4
equivalents.
Abiotic depletion potential for non-fossil fuels in Sb equivalents.1
Abiotic depletion potential for fossil resources in MJ, net calorific value.2
1-2
The indicator describing the depletion of abiotic resources is subject to further scientific development. The use of
this indicator is intended to be reviewed during the revision of the Standard EN 15804: 2012.
NPCR 013-Revision 1, Steel as construction material
page 19 of 24
Waste to disposal should be declared as:
Hazardous waste (kg) according to EU directive 91/689/EEC and 75/442/EE. or relevant national regulations
Non hazardous waste (kg)
Radioactive waste (kg)
7 Content of the EPD
7.1 Declaration of general information
The content of the EPD shall follow the instruction given in EN 15804: 2012 clause 7.1 and 7.2.
The declaration of material content of the product shall list as a minimum substances contained in
the product that are listed in the “Candidate list of Substances of Very High Concern for
authorization” when their content or the sum of the different contents exceeds the limits for
registration with the European Chemicals Agency.
7.2 Declaration of environmental parameters derived from LCA
General 7.2.1
Documentation of technical information for the construction process shall follow the
requirements given in EN 15804: 2012 clause 7.3.2.
Transport shall be allocated based on weight or volume. Generic data may be used for emission
factors from the transportation vehicle.
Rules for declaring LCA information per module 7.2.2
The rules shall follow EN 15804: 2012, clause 7.2.2.
Parameters describing environmental impacts 7.2.3
Parameters shall be specified according to EN 15804: 2012, table 3.
Parameters describing resource use 7.2.4
Parameters shall be specified according to EN 15804: 2012, table 4.
Other environmental information describing waste categories and output 7.2.5
flows
Parameters shall be specified according to EN 15804: 2012, table 5 and 6.
7.3 Scenarios and technical information
General 7.3.1
Scenarios shall be described for construction process stage, use stage and end of life stage.
NPCR 013-Revision 1, Steel as construction material
page 20 of 24
Construction process stage 7.3.2
7.3.2.1 A4, Transport from production site to the construction site.
If no European information is available, national transport scenarios and distances may be used
and documented in the EPD project report. Information shall be given according to EN 15804:
2012, table 7.
7.3.2.2 A5, Installation
The installation phase includes all materials and activities connected to installation of steel
components and kits of steel components. Information shall be given according to EN 15804:
2012, table 8.
This includes use of machines, transportation, lifting equipment and energy and fuel consumption
of machinery.
Personnel activities and transport of personnel shall not be included, as well as environmental
impact from production of capital goods.
If the EPD deviates from the predefined scenarios, this shall be clearly stated and justified.
Use stage 7.3.3
- B1, This module shall not be part of the LCA, but the release of substances from the installed
product shall be included as additional information as specified in 7.4.1 and 7.4.2.
- B2- B5, information required for maintenance, repair, replacement and refurbishment shall be
given according to EN 15804: 2012, Table 9 (use stage reference to the building fabric) and
Table 10 (reference service life). Maintenance/replacements are to be modelled according to
manufacturers’ guidelines. The necessary maintenance of the steel construction that will be
required to reach the expected reference service life shall be described.
- B6 – B7, not relevant
The reference service life of steel as construction material is depending on materials used and
location. The number of replacements of steel as construction material shall be declared
accordingly to the building’s reference service life.
Cleaning activities of steel as construction material during the use stage shall be included. If
hazardous or toxic materials are used for cleaning, the activity shall be included and documented.
End-of-life 7.3.4
End of life shall be specified according to EN 15804: 2012, Table 12.
7.4 Additional information
Indoor air 7.4.1
The emissions to air shall be provided for products exposed to indoor air after their installation in
buildings during the use stage. This shall be done according to the horizontal standard for
measurements of release of regulated dangerous substances. Until the horizontal standards are
NPCR 013-Revision 1, Steel as construction material
page 21 of 24
available, the EPD does not need to include this information, but the emissions should be
declared according to national standards and practices.
Soil and water 7.4.2
A description of toxicity effects occurring in the use of the product, e.g. in processes such as
leaching, shall be given. Releases to ground and surface water during the use of the steel
components shall be declared in accordance with national standards and practices.
Aggregation of information modules 7.4.3
Indicators declared in the individual information modules shall not be added up in any
combination of the individual information modules into a total or sub-total of the life cycle stages
A, B, C or D, with exception of A1, A2 and A3 that may be aggregated.
8 Project report The project report is the systematic and comprehensive summary of the project documentation
supporting the verification of an EPD. The project report shall record that the LCA based
information and the additional information as declared in the EPD meet the requirements of EN
15804. It shall be made available to the verifier with the requirements on confidentiality stated in
ISO 14025. The project report is not part of the public communication.
The project report shall follow the instructions given in ISO 14044, clause 5.2 and
EN15804:2012 clause 8.
9 Verification and validity of an EPD The process of verification of an EPD shall be in accordance with EN ISO 14025, clause 8 and
ISO 21930, clause 9.
After verification the EPD is valid for 5 years. An EPD does not have to be recalculated after 5
years, if the underlying data has not changed significantly.
Approved 22.08.2013, valid until 22.08.2018
Norwegian EPD Foundation, Verification committee.
Sverre Fossdal
Panel chairman
10 Bibliography EN 10025: 2004 Hot rolled products of structural steels - Part 2: Technical delivery
conditions for non-alloy structural steels
NPCR 013-Revision 1, Steel as construction material
page 22 of 24
EN 10219: 2006 Cold formed welded structural hollow sections of non-alloy and fine grain steels.
EN 10210: 2006 Hot finished structural hollow sections of non-alloy and fine grain steels
ISO 21930: 2007 Sustainability in building construction - Environmental declaration of
building products
ISO 15686-8: 2008 Buildings and constructed assets – Service life planning – Part 8:
Reference service life
EN 15251:2007: Indoor environmental input parameters for design and assessment of energy performance of buildings addressing indoor air quality, thermal environment,
lighting and acoustics.
ISO 14044: 2006 Environmental management – Life cycle assessment – Requirements and guidelines.
EN 1090-2: 2008 Execution of steel structures and aluminium structures: Technical
requirements for steel structures.
EN 13670: 2009 Execution of concrete structures.
NPCR 013-Revision 1, Steel as construction material
page 23 of 24
APPENDIX A1 (informative)
1 Norwegian conditions and requirements This appendix describes Norwegian scenarios and other recommendations given by the program
operator The Norwegian EPD Foundation.
2 Communication format and content of the Norwegian EPD The communication format of the EPD shall be in accordance to EN 15942:2010 EN 15804
referees to EN 15942 and the presentation template shown in www.epd-norge.no.
3 Treatment of electricity The electricity mix used shall be shown in the EPD as emissions of g CO2 -equivalents per kWh
or g CO2 -equivalents per MJ.
4 Transport Transport from Production site to central warehouse in Norway shall be shown. For Norwegian
manufacturer this is set to 50 km.
5 Reference service life Reference service life shall be 100 years
6 Key Environmental Parameters Key Environmental parameters (maximum 5) shall be shown in a table surrounded by a red frame
in the EPD.
Parameters to be shown are;
Global warming potential, GWP, in kg CO2-equivalents
Total energy consumption in MJ
Dangerous substances on EU Candidate list and the Norwegian Priority list and quantity in kg
6.1 Dangerous substances in the Candidate or Priority lists
If the product contains substances given on the EU Candidate and Norwegian Priority lists, they
shall be declared and justified. If no such substances occur the following statement shall be given
in the EPD: “The product contains no substances given on the EU Candidate and Norwegian
Priority lists”.
NPCR 013-Revision 1, Steel as construction material
page 24 of 24
6.2 Candidate or Priority list
Substances on the EU Candidate list and the Norwegian Priority list are available at:
http://www.echa.europa.eu/web/guest/candidate-list-table
http://www.miljostatus.no/no/Tema/Kjemikalier/Kjemikalielister/Prioritetslisten/
See also BREEAM NOR A20 List
(http://www.byggalliansen.no/veiledere/dokumenter/Sjekkliste_A20.pdf)
7 Scenarios
7.1 Construction process stage
Generic data for transport to building site in Norway from domestic manufacturers (A4) and
installation (A5) provided by Norsk Stålforbund and Stål og Metallgrosistenes Forening (EN
1090-2, EN 13670) shall be used to calculate this module.
This should include average transport forms and distances to building site, on-site energy usage
(for lifting etc.), assumed maintenance (for out door exposed/not outdoor exposed). Reference
figures can be used.
7.2 Use stage
Maintenance and replacements are to be performed according to manufacturer's guidelines.
Steel construction’s maintenance, repair and replacement are described in SINTEF Building Design
Sheets
7.3 End-of-life
The current practice of waste management of the product shall be described including the
utilization of reused, recycled or recovered materials.
8 Indoor emissions For painted and lacked products in contact with indoor air, test according to requirements in EN-
ISO 11890-2 and BREEAM-NOR Hea 9. It is not necessary to do emission tests on the clean
steel construction.
Indoor tests should also comply with requirements in the M1-method and the Breeam Nor A20-
list.
Recommended