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Document Title:
Leachate Report Round 1
Document Ref: RP 5.1.5
Responsibility: Facility Manager / Environmental Manager
Licence Condition:
Author: Patrick Rogers
Version: 001 Version Date: 12th June 2020
Integrated Materials Solutions Partnership Limited W0129‐02
Page 1 of 12
ROUND 1 2020
Integrated Materials Solutions Licence No. W0129-02
Bi‐annual Leachate Monitoring Report 2020
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EPA Export 22-02-2021:06:51:36
Document Title:
Leachate Report Round 1
Document Ref: RP 5.1.5
Responsibility: Facility Manager / Environmental Manager
Licence Condition:
Author: Patrick Rogers
Version: 001 Version Date: 12th June 2020
Integrated Materials Solutions Partnership Limited W0129‐02
Page 2 of 12
Table of Contents 1.0 Introduction .............................................................................................................................. 3
1.1 Background ................................................................................................................................ 3
1.2 Sampling Locations .................................................................................................................... 3
Table 1: Leachate Monitoring Locations .......................................................................................... 3
1.3 Sampling & Analysis .................................................................................................................. 4
1.3.1 Sampling Personnel ................................................................................................................ 4
1.3.2 Sampling Methodology ........................................................................................................... 4
1.3.3 Laboratory details ................................................................................................................... 4
1.3.4 Interpretation of Results .......................................................................................................... 4
2.0 Results .................................................................................................................................... 5
2.1 Leachate Analysis ...................................................................................................................... 5
Table 2.1: Leachate Monitoring Results for LC1 (Lab Cert No.20/7108) ............................................ 5
Table 2.2: Leachate Monitoring Results for LC3 (Lab Cert No.20/7109) ........................................ 6
Table 2.3: Leachate Monitoring Results for LC4 (Lab Cert No.20/7111) ........................................ 7
Table 2.4: Leachate Monitoring Results for LC5 (Lab Cert No.20/7118) ........................................ 8
Table 2.5: Leachate Monitoring Results for LC6 (Lab Cert No.20/7119) ........................................ 9
Table 2.6: Leachate Monitoring Results for LC7 (Lab Cert No.20/7120) ...................................... 10
3.0 Discussion ................................................................................................................................... 11
4.0 Conclusion ................................................................................................................................... 11
Appendix 1 ............................................................................................................................................ 12
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Document Title:
Leachate Report Round 1
Document Ref: RP 5.1.5
Responsibility: Facility Manager / Environmental Manager
Licence Condition:
Author: Patrick Rogers
Version: 001 Version Date: 12th June 2020
Integrated Materials Solutions Partnership Limited W0129‐02
Page 3 of 12
1.0 Introduction
1.1 Background Integrated Materials Solutions Limited Partnership (IMS) operates a landfill for inert waste at its site at Hollywood Great, Nag’s Head, Naul, Co. Dublin. The site is a former shale and limestone quarry. Restoration of the site will return it to pre‐quarrying conditions and blend it into the surrounding landscape As part of the requirements set out in EPA Waste License No. W0129‐02, Integrated Materials Solutions (IMS) are required to monitor Leachate Bi‐annually (see Schedule D of License) at several locations across site. Sampling was carried out by Patrick Rogers (BSc (Hons), & Jason Mc Guirk (BSc (Hons), of IMS on the 4th of June 2020 and the samples taken were appropriately stored prior to being transported to a certified laboratory for analysis.
1.2 Sampling Locations
Table 1: Leachate Monitoring Locations
Name/Ref Location Co‐ordinates
LC1 Leachate monitoring borehole within Cell 1
53.560372, ‐6.256196
LC3 Leachate monitoring borehole within Cell 3 extension
53.559572, ‐6.255890
LC4 Leachate monitoring borehole within Cell 3
53.560015, ‐6.256963
LC5 Leachate monitoring borehole within Cell 4
53.560132, ‐6.253507
LC6 Leachate monitoring borehole within Cell 4
53.560525, ‐6.253122
LC7 Leachate monitoring borehole within Cell 4
53.561465, ‐6.252693
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Document Title:
Leachate Report Round 1
Document Ref: RP 5.1.5
Responsibility: Facility Manager / Environmental Manager
Licence Condition:
Author: Patrick Rogers
Version: 001 Version Date: 12th June 2020
Integrated Materials Solutions Partnership Limited W0129‐02
Page 4 of 12
1.3 Sampling & Analysis
1.3.1 Sampling Personnel Sampling was carried out by Patrick Rogers (BSc (Hons), and Jason Mc Guirk (BSc (Hons), of IMS Ltd. on the 4th of June 2020.
1.3.2 Sampling Methodology Samples were extracted from monitoring boreholes using bailers and filled into the corresponding sampling bottles. Temperature was not recorded due to meter being inoperable at the time. All samples were estimated to be <15˚C prior to chilling. The samples were labelled, place in a cooler box and appropriately stored at 4˚C according to standard sampling techniques. The samples were sent via courier to Element Materials Technology Laboratories for chemical analysis.
1.3.3 Laboratory details Analysis of the surface water samples were conducted by Element Materials Technology. Element Materials Technology is UKAS and MCERTS accredited. Certified laboratory results are included as Appendix 1.
1.3.4 Interpretation of Results Results were received on the 12th of June 2020 (See Appendix 1.) These results were tabulated and compared against Waste Acceptance Criteria values listed in Table A.4.1 of EPA Licence W0129‐02 and the EPA Parameters of Water Quality – Interpretation and Standards (2001). If results exceeded limits prescribed in legislation or trigger levels, these would be highlighted in the report and possible causes described.
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EPA Export 22-02-2021:06:51:36
Document Title:
Leachate Report Round 1
Document Ref: RP 5.1.5
Responsibility: Facility Manager / Environmental Manager
Licence Condition:
Author: Patrick Rogers
Version: 001 Version Date: 12th June 2020
Integrated Materials Solutions Partnership Limited W0129‐02
Page 5 of 12
2.0 Results 2.1 Leachate Analysis
2.1.1 Laboratory results for Q2, 2020 are attached in Appendix 1.
2.1.2 The results of analysis of Leachate for Q2, 2020, as well as historic monitoring results, are given in Tables 2.1 – 2.6.
2.1.3 If results were in excess of limits prescribed in legislation, these would be
highlighted in the tables and possible causes would be investigated and discussed.
2.1.4 Only parameters which are found to be in excess of the limit value concentrations and/or EPA trigger levels for the site and which are directly attributable to site operations, are reported to The Agency as “Incidents”.
Table 2.1: Leachate Monitoring Results for LC1 (Lab Cert No.20/7108)
Parameter Units WAC W0129‐ 02 Table A.4.1
Q2, 2020 Q4, 2019 Q2, 2019 Q2, 2018
Ammoniacal Nitrogen mg/l NH4‐N
‐ 3.0 9.74 1.56 0.36
Chloride mg/l 800 26.7 103.3 77.4 78.4
COD mg/l ‐ 8 36 27 28
Colour N/A ‐ Clear Clear Clear Clear
Conductivity mS/cm ‐ 0.62 1.7 1.3 1.6
Leachate Level m aOD Malin
‐ 122.98 121.90 122.58 121.49
List I & II Substances mg/l ‐ N/A <0.0001 <0.00003 N/A
Odour N/A ‐ None None None Sulphurous
Organic Carbon, Dissolved
500
<2 13 6 6
Organic Carbon, Total mg/l ‐ 6 11 8 6
pH mg/l ‐ 7.47 7.3 7.0 7.4
Potassium pH ‐ 30.1 44.7 30.4 35.2
Sodium mg/l ‐ 93.7 124.2 78.1 96.6
Sulphate mg/l 1000 154.2 665.6 976.6 914.9
Total Oxidised Nitrogen
mg/l ‐ 2.0 4.3 <0.2 0.9
Total Phenols mg/l ‐ <0.15 <0.2 <0.2 <0.2
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EPA Export 22-02-2021:06:51:36
Document Title:
Leachate Report Round 1
Document Ref: RP 5.1.5
Responsibility: Facility Manager / Environmental Manager
Licence Condition:
Author: Patrick Rogers
Version: 001 Version Date: 12th June 2020
Integrated Materials Solutions Partnership Limited W0129‐02
Page 6 of 12
Table 2.2: Leachate Monitoring Results for LC3 (Lab Cert No.20/7109)
Parameter Units WAC W0129‐ 02 Table A.4.1
Q2, 2020 Q4, 2019 Q2, 2019 Q2, 2018
Ammoniacal Nitrogen mg/l NH4‐N
‐ 0.40 0.05 <0.03 0.05
Chloride mg/l 800 109 83.1 81.6 157.6
COD mg/l ‐ 27 27 25 27
Colour N/A ‐ Clear Clear Clear Black precipitate
Conductivity mS/cm ‐ 2.05 1.5 1.1 1.7
Leachate Level m aOD Malin
‐ 112.93 113.54 119.20 115.10
List I & II Substances mg/l ‐ N/A <0.00003 <0.00003 N/A
Odour N/A ‐ None None None None
Organic Carbon, Dissolved
500
9 11
6
10
Organic Carbon, Total mg/l ‐ 8 8 16 9
pH mg/l ‐ 7.69 7.4 7.5 7.8
Potassium pH ‐ 31.8 35.4 32.8 35.7
Sodium mg/l ‐ 98.7 117.7 106.8 141.3
Sulphate mg/l 1000 841 633.5 711.9 908.5
Total Oxidised Nitrogen
mg/l ‐ <0.2 1.0 0.7 <0.2
Total Phenols mg/l ‐ <0.15 <0.2 <0.2 <0.2
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EPA Export 22-02-2021:06:51:36
Document Title:
Leachate Report Round 1
Document Ref: RP 5.1.5
Responsibility: Facility Manager / Environmental Manager
Licence Condition:
Author: Patrick Rogers
Version: 001 Version Date: 12th June 2020
Integrated Materials Solutions Partnership Limited W0129‐02
Page 7 of 12
Table 2.3: Leachate Monitoring Results for LC4 (Lab Cert No.20/7111)
Parameter Units WAC W0129‐ 02 Table A.4.1
Q2, 2020 Q4, 2019 Q2, 2019 Q2, 2018
Ammoniacal Nitrogen mg/l NH4‐N
‐ 0.14
Insufficient sample volume
0.21 1.20
Chloride mg/l 800 364.9 222 315.7
COD mg/l ‐ 263 140 305
Colour N/A ‐ Yellow Tinge Black SS Black
Conductivity mS/cm ‐ 2.7 1.5 1.9
Leachate Level m aOD Malin
‐ 107.3 107.33 107.39
List I & II Substances mg/l ‐ N/A <0.00003 N/A
Odour N/A ‐ None None Sulphurous
Organic Carbon, Dissolved
500
96 49
103
Organic Carbon, Total mg/l ‐ 95 50 106
pH mg/l ‐ 7.91 7.3 8.0
Potassium pH ‐ 62 49.1 68.6
Sodium mg/l ‐ 318.5 180.2 245.6
Sulphate mg/l 1000 655.6 976.5 662.3
Total Oxidised Nitrogen
mg/l ‐ 5.6 5.3 2.0
Total Phenols mg/l ‐ <0.15 <0.2 <0.2
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Document Title:
Leachate Report Round 1
Document Ref: RP 5.1.5
Responsibility: Facility Manager / Environmental Manager
Licence Condition:
Author: Patrick Rogers
Version: 001 Version Date: 12th June 2020
Integrated Materials Solutions Partnership Limited W0129‐02
Page 8 of 12
Table 2.4: Leachate Monitoring Results for LC5 (Lab Cert No.20/7118)
Parameter Units WAC W0129‐ 02 Table A.4.1
Q2, 2020 Q4, 2019 Q2, 2019 Q2, 2018
Ammoniacal Nitrogen mg/l NH4‐N
‐ 7.14 8.6 1.8 11.4
Chloride mg/l 800 333.1 402.9 145.7 932.6
COD mg/l ‐ 92 108 39 75
Colour N/A ‐ Clear Green tinge Green tinge Green tinge
Conductivity mS/cm ‐ 2.5 1.8 1.2 2.7
Leachate Level m aOD Malin
‐ 109.61 117.78 108.27 106.52
List I & II Substances mg/l ‐ N/A <0.0003 <0.0003 N/A
Odour N/A ‐ None Sulphurous Sulphurous Sulphurous
Organic Carbon, Dissolved
500
32 38
16
39
Organic Carbon, Total mg/l ‐ 32 38
14
41
pH mg/l ‐ 10.54 11.2 8.7 11.3
Potassium pH ‐ 46.1 32.8 43.3 35.7
Sodium mg/l ‐ 340.1 370.2 185.9 558.2
Sulphate mg/l 1000 661.2 435.2 808.4 236.6
Total Oxidised Nitrogen
mg/l ‐ <0.2 8.6
7.2
<0.2
Total Phenols mg/l ‐ <0.15 <0.2 <0.2 0.5
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Document Title:
Leachate Report Round 1
Document Ref: RP 5.1.5
Responsibility: Facility Manager / Environmental Manager
Licence Condition:
Author: Patrick Rogers
Version: 001 Version Date: 12th June 2020
Integrated Materials Solutions Partnership Limited W0129‐02
Page 9 of 12
Table 2.5: Leachate Monitoring Results for LC6 (Lab Cert No.20/7119)
Parameter Units WAC W0129‐ 02 Table A.4.1
Q2, 2020 Q4, 2019 Q2, 2019 Q2, 2018
Ammoniacal Nitrogen mg/l NH4‐N
‐ 8.90 7.95 3.82 2.63
Chloride mg/l 800 285.5 233.5 149.9 291.8
COD mg/l ‐ 88 82 78 52
Colour N/A ‐ Clear Brown Tinge Clear Clear
Conductivity mS/cm ‐ 2.1 1.6 1.3 2.3
Leachate Level m aOD Malin
‐ 110.25 109.55 109.10 106.92
List I & II Substances mg/l ‐ N/A <0.0003 <0.0003 N/A
Odour N/A ‐ None None None None
Organic Carbon, Dissolved
500
29 28
20
15
Organic Carbon, Total mg/l ‐ 30 28
23
15
pH mg/l ‐ 10.83 10.6 9.7 8.7
Potassium pH ‐ 38.8 43.4 34.1 34.8
Sodium mg/l ‐ 190.6 181.0 127.0 279.2
Sulphate mg/l 1000 502.9 545.8 753.1 1125.8
Total Oxidised Nitrogen
mg/l ‐ 0.4 0.5 2.4 0.9
Total Phenols mg/l ‐ <0.15 <0.2 <0.2 <0.2
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Document Title:
Leachate Report Round 1
Document Ref: RP 5.1.5
Responsibility: Facility Manager / Environmental Manager
Licence Condition:
Author: Patrick Rogers
Version: 001 Version Date: 12th June 2020
Integrated Materials Solutions Partnership Limited W0129‐02
Page 10 of 12
Table 2.6: Leachate Monitoring Results for LC7 (Lab Cert No.20/7120)
Parameter Units WAC W0129‐ 02 Table A.4.1
Q2, 2020 Q4, 2019 Q2, 2019 Q2, 2018
Ammoniacal Nitrogen mg/l NH4‐N
‐ 8.02
No Access
12.57 10.72
Chloride mg/l 800 314.5 413.4 204.7
COD mg/l ‐ 74 100 84
Colour N/A ‐ Yellow Tinge Clear Clear
Conductivity mS/cm ‐ 2.5 1.2 1.9
Leachate Level m aOD Malin
‐ 110.54 110.27 107.38
List I & II Substances mg/l ‐ N/A <0.0003 N/A
Odour N/A ‐ Slight Odour Sharp Smell None
Organic Carbon, Dissolved
500
21 29
26
Organic Carbon, Total mg/l ‐ 21 31
26
pH mg/l ‐ 11.72 10.6 12.2
Potassium pH ‐ 67.8 108.8 90.9
Sodium mg/l ‐ 317.0 354.6 265.6
Sulphate mg/l 1000 270.6 190.1 245.4
Total Oxidised Nitrogen
mg/l ‐ <0.2 0.6
1.3
Total Phenols mg/l ‐ <0.15 <0.2 0.3
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EPA Export 22-02-2021:06:51:36
Document Title:
Leachate Report Round 1
Document Ref: RP 5.1.5
Responsibility: Facility Manager / Environmental Manager
Licence Condition:
Author: Patrick Rogers
Version: 001 Version Date: 12th June 2020
Integrated Materials Solutions Partnership Limited W0129‐02
Page 12 of 12
Appendix 1
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EPA Export 22-02-2021:06:51:36
Element Materials Technology P: +44 (0) 1244 833780
Unit 3 Deeside Point F: +44 (0) 1244 833781
Zone 3
Deeside Industrial Park W: www.element.com
Deeside
CH5 2UA
IMS Integrated Material Solutions Limited Partnership
Attention :
Date :
Your reference :
Our reference :
Location :
Date samples received :
Status :
Issue :
Please include all sections of this report if it is reproduced
Nags Head
Hollywood
Naul
Co Dublin
Ireland
Jason McGuirk
12th June, 2020
Leachate Testing No.1
Test Report 20/7108 Batch 1
Hollywood
5th June, 2020
Final report
Senior Project Manager
1
One sample was received for analysis on 5th June, 2020 of which one was scheduled for analysis. Please find attached our Test Report which
should be read with notes at the end of the report and should include all sections if reproduced. Interpretations and opinions are outside the scope of
any accreditation, and all results relate only to samples supplied.
All analysis is carried out on as received samples and reported on a dry weight basis unless stated otherwise. Results are not surrogate corrected.
Authorised By:
Phil Sommerton BSc
Element Materials Technology Environmental UK Limited
Registered in England and Wales
Registered Office: 10 Lower Grosvenor Place, London, SW1W 0EN
Company Registration No: 11371415 1 of 11
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Client Name: Report : Liquid
Reference:
Location:
Contact: Liquids/products: V=40ml vial, G=glass bottle, P=plastic bottle
EMT Job No: 20/7108 H=H2SO4, Z=ZnAc, N=NaOH, HN=HN03
EMT Sample No. 1-8
Sample IDIMS
LEACHATE
NO.1
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
Odour Absent None TM129/PM0
Odour Type none None TM129/PM0
Dissolved Potassium # 30.1 <0.1 mg/l TM30/PM14
Dissolved Sodium # 93.7 <0.1 mg/l TM30/PM14
Pesticides
Organochlorine Pesticides
Aldrin <0.01 <0.01 ug/l TM149/PM30
Alpha-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Beta-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Delta-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Dieldrin <0.01 <0.01 ug/l TM149/PM30
Endosulphan I <0.01 <0.01 ug/l TM149/PM30
Endosulphan II <0.01 <0.01 ug/l TM149/PM30
Endosulphan sulphate <0.01 <0.01 ug/l TM149/PM30
Endrin <0.01 <0.01 ug/l TM149/PM30
Gamma-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Heptachlor <0.01 <0.01 ug/l TM149/PM30
Heptachlor Epoxide <0.01 <0.01 ug/l TM149/PM30
o,p'-Methoxychlor <0.01 <0.01 ug/l TM149/PM30
p,p'-DDE <0.01 <0.01 ug/l TM149/PM30
p,p'-DDT <0.01 <0.01 ug/l TM149/PM30
p,p'-Methoxychlor <0.01 <0.01 ug/l TM149/PM30
p,p'-TDE <0.01 <0.01 ug/l TM149/PM30
Organophosphorus Pesticides
Azinphos methyl <0.01 <0.01 ug/l TM149/PM30
Diazinon <0.01 <0.01 ug/l TM149/PM30
Dichlorvos <0.01 <0.01 ug/l TM149/PM30
Disulfoton <0.01 <0.01 ug/l TM149/PM30
Ethion <0.01 <0.01 ug/l TM149/PM30
Ethyl Parathion (Parathion) <0.01 <0.01 ug/l TM149/PM30
Fenitrothion <0.01 <0.01 ug/l TM149/PM30
Malathion <0.01 <0.01 ug/l TM149/PM30
Methyl Parathion <0.01 <0.01 ug/l TM149/PM30
Mevinphos <0.01 <0.01 ug/l TM149/PM30
Total Phenols HPLC <0.15 <0.15 mg/l TM26/PM0
Sulphate as SO4 # 154.2 <0.5 mg/l TM38/PM0
Chloride # 26.7 <0.3 mg/l TM38/PM0
Total Oxidised Nitrogen as N # 2.0 <0.2 mg/l TM38/PM0
Ammoniacal Nitrogen as N # 3.00 <0.03 mg/l TM38/PM0
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.1
QF-PM 3.1.2 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 2 of 11
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EPA Export 22-02-2021:06:51:36
Client Name: Report : Liquid
Reference:
Location:
Contact: Liquids/products: V=40ml vial, G=glass bottle, P=plastic bottle
EMT Job No: 20/7108 H=H2SO4, Z=ZnAc, N=NaOH, HN=HN03
EMT Sample No. 1-8
Sample IDIMS
LEACHATE
NO.1
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
COD (Settled) # 8 <7 mg/l TM57/PM0
Dissolved Organic Carbon # <2 <2 mg/l TM60/PM0
Electrical Conductivity @25C # 620 <2 uS/cm TM76/PM0
pH # 7.47 <0.01 pH units TM73/PM0
Total Organic Carbon # 6 <2 mg/l TM60/PM0
True Colour <15 <15 PCU TM35/PM0
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.1
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
QF-PM 3.1.2 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 3 of 11
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Client Name: SVOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7108
EMT Sample No. 1-8
Sample IDIMS
LEACHATE
NO.1
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
SVOC MS
Phenols
2-Chlorophenol # <1 <1 ug/l TM16/PM30
2-Methylphenol # <0.5 <0.5 ug/l TM16/PM30
2-Nitrophenol <0.5 <0.5 ug/l TM16/PM30
2,4-Dichlorophenol # <0.5 <0.5 ug/l TM16/PM30
2,4-Dimethylphenol <1 <1 ug/l TM16/PM30
2,4,5-Trichlorophenol # <0.5 <0.5 ug/l TM16/PM30
2,4,6-Trichlorophenol <1 <1 ug/l TM16/PM30
4-Chloro-3-methylphenol # <0.5 <0.5 ug/l TM16/PM30
4-Methylphenol <1 <1 ug/l TM16/PM30
4-Nitrophenol <10 <10 ug/l TM16/PM30
Pentachlorophenol <1 <1 ug/l TM16/PM30
Phenol <1 <1 ug/l TM16/PM30
PAHs
2-Chloronaphthalene # <1 <1 ug/l TM16/PM30
2-Methylnaphthalene # <1 <1 ug/l TM16/PM30
Naphthalene # <1 <1 ug/l TM16/PM30
Acenaphthylene # <0.5 <0.5 ug/l TM16/PM30
Acenaphthene # <1 <1 ug/l TM16/PM30
Fluorene # <0.5 <0.5 ug/l TM16/PM30
Phenanthrene # <0.5 <0.5 ug/l TM16/PM30
Anthracene # <0.5 <0.5 ug/l TM16/PM30
Fluoranthene # <0.5 <0.5 ug/l TM16/PM30
Pyrene # <0.5 <0.5 ug/l TM16/PM30
Benzo(a)anthracene # <0.5 <0.5 ug/l TM16/PM30
Chrysene # <0.5 <0.5 ug/l TM16/PM30
Benzo(bk)fluoranthene # <1 <1 ug/l TM16/PM30
Benzo(a)pyrene <1 <1 ug/l TM16/PM30
Indeno(123cd)pyrene <1 <1 ug/l TM16/PM30
Dibenzo(ah)anthracene # <0.5 <0.5 ug/l TM16/PM30
Benzo(ghi)perylene # <0.5 <0.5 ug/l TM16/PM30
Phthalates
Bis(2-ethylhexyl) phthalate <5 <5 ug/l TM16/PM30
Butylbenzyl phthalate <1 <1 ug/l TM16/PM30
Di-n-butyl phthalate # <1.5 <1.5 ug/l TM16/PM30
Di-n-Octyl phthalate <1 <1 ug/l TM16/PM30
Diethyl phthalate # <1 <1 ug/l TM16/PM30
Dimethyl phthalate <1 <1 ug/l TM16/PM30
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.1
QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced
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Client Name: SVOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7108
EMT Sample No. 1-8
Sample IDIMS
LEACHATE
NO.1
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
SVOC MS
Other SVOCs
1,2-Dichlorobenzene # <1 <1 ug/l TM16/PM30
1,2,4-Trichlorobenzene # <1 <1 ug/l TM16/PM30
1,3-Dichlorobenzene # <1 <1 ug/l TM16/PM30
1,4-Dichlorobenzene # <1 <1 ug/l TM16/PM30
2-Nitroaniline <1 <1 ug/l TM16/PM30
2,4-Dinitrotoluene # <0.5 <0.5 ug/l TM16/PM30
2,6-Dinitrotoluene <1 <1 ug/l TM16/PM30
3-Nitroaniline <1 <1 ug/l TM16/PM30
4-Bromophenylphenylether # <1 <1 ug/l TM16/PM30
4-Chloroaniline <1 <1 ug/l TM16/PM30
4-Chlorophenylphenylether # <1 <1 ug/l TM16/PM30
4-Nitroaniline <0.5 <0.5 ug/l TM16/PM30
Azobenzene # <0.5 <0.5 ug/l TM16/PM30
Bis(2-chloroethoxy)methane # <0.5 <0.5 ug/l TM16/PM30
Bis(2-chloroethyl)ether # <1 <1 ug/l TM16/PM30
Carbazole # <0.5 <0.5 ug/l TM16/PM30
Dibenzofuran # <0.5 <0.5 ug/l TM16/PM30
Hexachlorobenzene # <1 <1 ug/l TM16/PM30
Hexachlorobutadiene # <1 <1 ug/l TM16/PM30
Hexachlorocyclopentadiene <1 <1 ug/l TM16/PM30
Hexachloroethane # <1 <1 ug/l TM16/PM30
Isophorone # <0.5 <0.5 ug/l TM16/PM30
N-nitrosodi-n-propylamine # <0.5 <0.5 ug/l TM16/PM30
Nitrobenzene # <1 <1 ug/l TM16/PM30
Surrogate Recovery 2-Fluorobiphenyl 90 <0 % TM16/PM30
Surrogate Recovery p-Terphenyl-d14 119 <0 % TM16/PM30
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.1
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
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EPA Export 22-02-2021:06:51:36
Client Name: VOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7108
EMT Sample No. 1-8
Sample IDIMS
LEACHATE
NO.1
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
VOC MS
Dichlorodifluoromethane <2 <2 ug/l TM15/PM10
Methyl Tertiary Butyl Ether # 7.3 <0.1 ug/l TM15/PM10
Chloromethane # <3 <3 ug/l TM15/PM10
Vinyl Chloride # <0.1 <0.1 ug/l TM15/PM10
Bromomethane <1 <1 ug/l TM15/PM10
Chloroethane # <3 <3 ug/l TM15/PM10
Trichlorofluoromethane # <3 <3 ug/l TM15/PM10
1,1-Dichloroethene (1,1 DCE) # <3 <3 ug/l TM15/PM10
Dichloromethane (DCM) # <5 <5 ug/l TM15/PM10
trans-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10
1,1-Dichloroethane # <3 <3 ug/l TM15/PM10
cis-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10
2,2-Dichloropropane <1 <1 ug/l TM15/PM10
Bromochloromethane # <2 <2 ug/l TM15/PM10
Chloroform # <2 <2 ug/l TM15/PM10
1,1,1-Trichloroethane # <2 <2 ug/l TM15/PM10
1,1-Dichloropropene # <3 <3 ug/l TM15/PM10
Carbon tetrachloride # <2 <2 ug/l TM15/PM10
1,2-Dichloroethane # <2 <2 ug/l TM15/PM10
Benzene # <0.5 <0.5 ug/l TM15/PM10
Trichloroethene (TCE) # <3 <3 ug/l TM15/PM10
1,2-Dichloropropane # <2 <2 ug/l TM15/PM10
Dibromomethane # <3 <3 ug/l TM15/PM10
Bromodichloromethane # <2 <2 ug/l TM15/PM10
cis-1-3-Dichloropropene <2 <2 ug/l TM15/PM10
Toluene # <5 <5 ug/l TM15/PM10
trans-1-3-Dichloropropene <2 <2 ug/l TM15/PM10
1,1,2-Trichloroethane # <2 <2 ug/l TM15/PM10
Tetrachloroethene (PCE) # <3 <3 ug/l TM15/PM10
1,3-Dichloropropane # <2 <2 ug/l TM15/PM10
Dibromochloromethane # <2 <2 ug/l TM15/PM10
1,2-Dibromoethane # <2 <2 ug/l TM15/PM10
Chlorobenzene # <2 <2 ug/l TM15/PM10
1,1,1,2-Tetrachloroethane # <2 <2 ug/l TM15/PM10
Ethylbenzene # <1 <1 ug/l TM15/PM10
m/p-Xylene # <2 <2 ug/l TM15/PM10
o-Xylene # <1 <1 ug/l TM15/PM10
Styrene <2 <2 ug/l TM15/PM10
Bromoform # <2 <2 ug/l TM15/PM10
Isopropylbenzene # <3 <3 ug/l TM15/PM10
1,1,2,2-Tetrachloroethane <4 <4 ug/l TM15/PM10
Bromobenzene # <2 <2 ug/l TM15/PM10
1,2,3-Trichloropropane # <3 <3 ug/l TM15/PM10
Propylbenzene # <3 <3 ug/l TM15/PM10
2-Chlorotoluene # <3 <3 ug/l TM15/PM10
1,3,5-Trimethylbenzene # <3 <3 ug/l TM15/PM10
4-Chlorotoluene # <3 <3 ug/l TM15/PM10
tert-Butylbenzene # <3 <3 ug/l TM15/PM10
1,2,4-Trimethylbenzene # <3 <3 ug/l TM15/PM10
sec-Butylbenzene # <3 <3 ug/l TM15/PM10
4-Isopropyltoluene # <3 <3 ug/l TM15/PM10
1,3-Dichlorobenzene # <3 <3 ug/l TM15/PM10
1,4-Dichlorobenzene # <3 <3 ug/l TM15/PM10
n-Butylbenzene # <3 <3 ug/l TM15/PM10
1,2-Dichlorobenzene # <3 <3 ug/l TM15/PM10
1,2-Dibromo-3-chloropropane <2 <2 ug/l TM15/PM10
1,2,4-Trichlorobenzene <3 <3 ug/l TM15/PM10
Hexachlorobutadiene <3 <3 ug/l TM15/PM10
1,2,3-Trichlorobenzene <3 <3 ug/l TM15/PM10
Surrogate Recovery Toluene D8 102 <0 % TM15/PM10
Surrogate Recovery 4-Bromofluorobenzene 107 <0 % TM15/PM10
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.1
QF-PM 3.1.4 v11Please include all sections of this report if it is reproduced
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EPA Export 22-02-2021:06:51:36
Notification of Deviating Samples
EMT
Job
No.
Batch Depth
EMT
Sample
No.
Analysis Reason
Please note that only samples that are deviating are mentioned in this report. If no samples are listed it is because none were deviating.
Only analyses which are accredited are recorded as deviating if set criteria are not met.
Contact:
Sample ID
Client Name: IMS Integrated Material Solutions Limited Partnership
Reference:
Location:
No deviating sample report results for job 20/7108
Element Materials Technology
Leachate Testing No.1
Hollywood
Jason McGuirk
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EMT Job No.:
SOILS
DEVIATING SAMPLES
SURROGATES
DILUTIONS
BLANKS
NOTE
Data is only reported if the laboratory is confident that the data is a true reflection of the samples analysed. Data is only reported as accredited when
all the requirements of our Quality System have been met. In certain circumstances where all the requirements of the Quality System have not been
met, for instance if the associated AQC has failed, the reason is fully investigated and documented. The sample data is then evaluated alongside
the other quality control checks performed during analysis to determine its suitability. Following this evaluation, provided the sample results have not
been effected, the data is reported but accreditation is removed. It is a UKAS requirement for data not reported as accredited to be considered
indicative only, but this does not mean the data is not valid.
Where possible, and if requested, samples will be re-extracted and a revised report issued with accredited results. Please do not hesitate to contact
the laboratory if further details are required of the circumstances which have led to the removal of accreditation.
As surface waters require different sample preparation to groundwaters the laboratory must be informed of the water type when submitting samples.
Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.
All samples should be submitted to the laboratory in suitable containers with sufficient ice packs to sustain an appropriate temperature for the
requested analysis. The temperature of sample receipt is recorded on the confirmation schedules in order that the client can make an informed
decision as to whether testing should still be undertaken.
Surrogate compounds are added during the preparation process to monitor recovery of analytes. However low recovery in soils is often due to peat,
clay or other organic rich matrices. For waters this can be due to oxidants, surfactants, organic rich sediments or remediation fluids. Acceptable
limits for most organic methods are 70 - 130% and for VOCs are 50 - 150%. When surrogate recoveries are outside the performance criteria but
the associated AQC passes this is assumed to be due to matrix effect. Results are not surrogate corrected.
A dilution suffix indicates a dilution has been performed and the reported result takes this into account. No further calculation is required.
Where analytes have been found in the blank, the sample will be treated in accordance with our laboratory procedure for dealing with contaminated
blanks.
Sufficient amount of sample must be received to carry out the testing specified. Where an insufficient amount of sample has been received the
testing may not meet the requirements of our accredited methods, as such accreditation may be removed.
Negative Neutralization Potential (NP) values are obtained when the volume of NaOH (0.1N) titrated (pH 8.3) is greater than the volume of HCl (1N)
to reduce the pH of the sample to 2.0 - 2.5. Any negative NP values are corrected to 0.
The calculation of Pyrite content assumes that all oxidisable sulphides present in the sample are pyrite. This may not be the case. The calculation
may be an overesitimate when other sulphides such as Barite (Barium Sulphate) are present.
WATERS
Please note we are not a UK Drinking Water Inspectorate (DWI) Approved Laboratory .
ISO17025 accreditation applies to surface water and groundwater and usually one other matrix which is analysis specific, any other liquids are
outside our scope of accreditation.
If you have not already done so, please send us a purchase order if this is required by your company.
Where appropriate please make sure that our detection limits are suitable for your needs, if they are not, please notify us immediately.
All analysis is reported on a dry weight basis unless stated otherwise. Limits of detection for analyses carried out on as received samples are not
moisture content corrected. Results are not surrogate corrected. Samples are dried at 35°C ±5°C unless otherwise stated. Moisture content for
CEN Leachate tests are dried at 105°C ±5°C.
Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.
Where a CEN 10:1 ZERO Headspace VOC test has been carried out, a 10:1 ratio of water to wet (as received) soil has been used.
% Asbestos in Asbestos Containing Materials (ACMs) is determined by reference to HSG 264 The Survey Guide - Appendix 2 : ACMs in buildings
listed in order of ease of fibre release.
NOTES TO ACCOMPANY ALL SCHEDULES AND REPORTS
20/7108
Please note we are only MCERTS accredited (UK soils only) for sand, loam and clay and any other matrix is outside our scope of accreditation.
Where an MCERTS report has been requested, you will be notified within 48 hours of any samples that have been identified as being outside our
MCERTS scope. As validation has been performed on clay, sand and loam, only samples that are predominantly these matrices, or combinations
of them will be within our MCERTS scope. If samples are not one of a combination of the above matrices they will not be marked as MCERTS
accredited.
It is assumed that you have taken representative samples on site and require analysis on a representative subsample. Stones will generally be
included unless we are requested to remove them.
All samples will be discarded one month after the date of reporting, unless we are instructed to the contrary.
QF-PM 3.1.9 v34Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 8 of 11
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EPA Export 22-02-2021:06:51:36
EMT Job No.:
Measurement Uncertainty
#
SA
B
DR
M
NA
NAD
ND
NDP
SS
SV
W
+
>>
*
AD
CO
LOD/LOR
ME
NFD
BS
LB
N
TB
OC Outside Calibration Range
Matrix Effect
No Fibres Detected
AQC Sample
Blank Sample
Client Sample
Trip Blank Sample
AQC failure, accreditation has been removed from this result, if appropriate, see 'Note' on previous page.
Results above calibration range, the result should be considered the minimum value. The actual result could be significantly
higher, this result is not accredited.
Analysis subcontracted to an Element Materials Technology approved laboratory.
Samples are dried at 35°C ±5°C
Suspected carry over
Limit of Detection (Limit of Reporting) in line with ISO 17025 and MCERTS
No Asbestos Detected.
None Detected (usually refers to VOC and/SVOC TICs).
No Determination Possible
Calibrated against a single substance
Surrogate recovery outside performance criteria. This may be due to a matrix effect.
Results expressed on as received basis.
ISO17025 (UKAS Ref No. 4225) accredited - UK.
ISO17025 (SANAS Ref No.T0729) accredited - South Africa
Indicates analyte found in associated method blank.
Dilution required.
MCERTS accredited.
Not applicable
20/7108
REPORTS FROM THE SOUTH AFRICA LABORATORY
Any method number not prefixed with SA has been undertaken in our UK laboratory unless reported as subcontracted.
Measurement uncertainty defines the range of values that could reasonably be attributed to the measured quantity. This range of values has not
been included within the reported results. Uncertainty expressed as a percentage can be provided upon request.
ABBREVIATIONS and ACRONYMS USED
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EMT Job No: 20/7108
Test Method No. Description
Prep Method
No. (if
appropriate)
Description
ISO
17025
(UKAS/S
ANAS)
MCERTS
(UK soils
only)
Analysis done
on As Received
(AR) or Dried
(AD)
Reported on
dry weight
basis
TM15Modified USEPA 8260B v2:1996. Quantitative Determination of Volatile Organic
Compounds (VOCs) by Headspace GC-MS.PM10
Modified US EPA method 5021A v2:2014. Preparation of solid and liquid samples for GC
headspace analysis.
TM15Modified USEPA 8260B v2:1996. Quantitative Determination of Volatile Organic
Compounds (VOCs) by Headspace GC-MS.PM10
Modified US EPA method 5021A v2:2014. Preparation of solid and liquid samples for GC
headspace analysis. Yes
TM16Modified USEPA 8270D v5:2014. Quantitative determination of Semi-Volatile Organic
compounds (SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex.
TM16Modified USEPA 8270D v5:2014. Quantitative determination of Semi-Volatile Organic
compounds (SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex. Yes
TM26Determination of phenols by Reversed Phased High Performance Liquid
Chromatography and Electro-Chemical Detection.PM0 No preparation is required.
TM30
Determination of Trace Metals by ICP-OES (Inductively Coupled Plasma – Optical
Emission Spectrometry): WATERS by Modified USEPA Method 200.7, Rev. 4.4, 1994;
Modified EPA Method 6010B, Rev.2, Dec 1996; Modified BS EN ISO 11885:2009:
SOILS by Modified USEP
PM14Preparation of waters and leachates for metals by ICP OES/ICP MS. Samples are filtered
for Dissolved metals, and remain unfiltered for Total metals then acidifiedYes
TM35
True and apparent colour by Hach Lange DR3800 spectrophotometer. Apparent colour
includes dissolved and suspended matter. True colour is determinined after filtration of
the sample.
PM0 No preparation is required.
TM38
Soluble Ion analysis using Discrete Analyser. Modified US EPA methods: Chloride 325.2
(1978), Sulphate 375.4 (Rev.2 1993), o-Phosphate 365.2 (Rev.2 1993), TON 353.1
(Rev.2 1993), Nitrite 354.1 (1971), Hex Cr 7196A (1992), NH4+ 350.1 (Rev.2 1993
(comparabl
PM0 No preparation is required. Yes
TM57
Modified US EPA Method 410.4. (Rev. 2.0 1993) Comparable with ISO 15705:2002.
Chemical Oxygen Demand is determined by hot digestion with Potassium Dichromate
and measured spectrophotometerically.
PM0 No preparation is required. Yes
TM60
TC/TOC analysis of Waters by High Temperature Combustion followed by NDIR
detection. Based on the following modified standard methods: USEPA 9060A (2002),
APHA SMEWW 5310B:1999 22nd Edition, ASTM D 7573, and USEPA 415.1.
PM0 No preparation is required. Yes
Element Materials Technology Method Code Appendix
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EMT Job No: 20/7108
Test Method No. Description
Prep Method
No. (if
appropriate)
Description
ISO
17025
(UKAS/S
ANAS)
MCERTS
(UK soils
only)
Analysis done
on As Received
(AR) or Dried
(AD)
Reported on
dry weight
basis
TM73Modified US EPA methods 150.1 (1982) and 9045D Rev. 4 - 2004) and BS1377-
3:1990. Determination of pH by Metrohm automated probe analyser.PM0 No preparation is required. Yes
TM76Modified US EPA method 120.1 (1982). Determination of Specific Conductance by
Metrohm automated probe analyser.PM0 No preparation is required. Yes
TM129 Odour of samples PM0 No preparation is required. AR
TM149Determination of Pesticides by Large Volume Injection on GC Triple Quad MS, based
upon USEPA method 8270D v5:2014PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex.
Element Materials Technology Method Code Appendix
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EPA Export 22-02-2021:06:51:36
Element Materials Technology P: +44 (0) 1244 833780
Unit 3 Deeside Point F: +44 (0) 1244 833781
Zone 3
Deeside Industrial Park W: www.element.com
Deeside
CH5 2UA
IMS Integrated Material Solutions Limited Partnership
Attention :
Date :
Your reference :
Our reference :
Location :
Date samples received :
Status :
Issue :
Please include all sections of this report if it is reproduced
Nags Head
Hollywood
Naul
Co Dublin
Ireland
Jason McGuirk
11th June, 2020
Leachate Testing No.3
Test Report 20/7109 Batch 1
Hollywood
5th June, 2020
Final report
Project Manager
1
One sample was received for analysis on 5th June, 2020 of which one was scheduled for analysis. Please find attached our Test Report which
should be read with notes at the end of the report and should include all sections if reproduced. Interpretations and opinions are outside the scope of
any accreditation, and all results relate only to samples supplied.
All analysis is carried out on as received samples and reported on a dry weight basis unless stated otherwise. Results are not surrogate corrected.
Authorised By:
Bruce Leslie
Element Materials Technology Environmental UK Limited
Registered in England and Wales
Registered Office: 10 Lower Grosvenor Place, London, SW1W 0EN
Company Registration No: 11371415 1 of 11
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Client Name: Report : Liquid
Reference:
Location:
Contact: Liquids/products: V=40ml vial, G=glass bottle, P=plastic bottle
EMT Job No: 20/7109 H=H2SO4, Z=ZnAc, N=NaOH, HN=HN03
EMT Sample No. 1-8
Sample IDIMS/LEACHAT
E NO.3
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
Odour Absent None TM129/PM0
Odour Type none None TM129/PM0
Dissolved Potassium # 31.8 <0.1 mg/l TM30/PM14
Dissolved Sodium # 98.7 <0.1 mg/l TM30/PM14
Pesticides
Organochlorine Pesticides
Aldrin <0.01 <0.01 ug/l TM149/PM30
Alpha-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Beta-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Delta-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Dieldrin <0.01 <0.01 ug/l TM149/PM30
Endosulphan I <0.01 <0.01 ug/l TM149/PM30
Endosulphan II <0.01 <0.01 ug/l TM149/PM30
Endosulphan sulphate <0.01 <0.01 ug/l TM149/PM30
Endrin <0.01 <0.01 ug/l TM149/PM30
Gamma-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Heptachlor <0.01 <0.01 ug/l TM149/PM30
Heptachlor Epoxide <0.01 <0.01 ug/l TM149/PM30
o,p'-Methoxychlor <0.01 <0.01 ug/l TM149/PM30
p,p'-DDE <0.01 <0.01 ug/l TM149/PM30
p,p'-DDT <0.01 <0.01 ug/l TM149/PM30
p,p'-Methoxychlor <0.01 <0.01 ug/l TM149/PM30
p,p'-TDE <0.01 <0.01 ug/l TM149/PM30
Organophosphorus Pesticides
Azinphos methyl <0.01 <0.01 ug/l TM149/PM30
Diazinon <0.01 <0.01 ug/l TM149/PM30
Dichlorvos <0.01 <0.01 ug/l TM149/PM30
Disulfoton <0.01 <0.01 ug/l TM149/PM30
Ethion <0.01 <0.01 ug/l TM149/PM30
Ethyl Parathion (Parathion) <0.01 <0.01 ug/l TM149/PM30
Fenitrothion <0.01 <0.01 ug/l TM149/PM30
Malathion <0.01 <0.01 ug/l TM149/PM30
Methyl Parathion <0.01 <0.01 ug/l TM149/PM30
Mevinphos <0.01 <0.01 ug/l TM149/PM30
Total Phenols HPLC <0.15 <0.15 mg/l TM26/PM0
Sulphate as SO4 # 841.0 <0.5 mg/l TM38/PM0
Chloride # 109.0 <0.3 mg/l TM38/PM0
Total Oxidised Nitrogen as N # <0.2 <0.2 mg/l TM38/PM0
Ammoniacal Nitrogen as N # 0.40 <0.03 mg/l TM38/PM0
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.3
QF-PM 3.1.2 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 2 of 11
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EPA Export 22-02-2021:06:51:36
Client Name: Report : Liquid
Reference:
Location:
Contact: Liquids/products: V=40ml vial, G=glass bottle, P=plastic bottle
EMT Job No: 20/7109 H=H2SO4, Z=ZnAc, N=NaOH, HN=HN03
EMT Sample No. 1-8
Sample IDIMS/LEACHAT
E NO.3
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
COD (Settled) # 27 <7 mg/l TM57/PM0
Dissolved Organic Carbon # 9 <2 mg/l TM60/PM0
Electrical Conductivity @25C # 2054 <2 uS/cm TM76/PM0
pH # 7.69 <0.01 pH units TM73/PM0
Total Organic Carbon # 8 <2 mg/l TM60/PM0
True Colour <15 <15 PCU TM35/PM0
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.3
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
QF-PM 3.1.2 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 3 of 11
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EPA Export 22-02-2021:06:51:36
Client Name: SVOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7109
EMT Sample No. 1-8
Sample IDIMS/LEACHAT
E NO.3
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
SVOC MS
Phenols
2-Chlorophenol # <1 <1 ug/l TM16/PM30
2-Methylphenol # <0.5 <0.5 ug/l TM16/PM30
2-Nitrophenol <0.5 <0.5 ug/l TM16/PM30
2,4-Dichlorophenol # <0.5 <0.5 ug/l TM16/PM30
2,4-Dimethylphenol <1 <1 ug/l TM16/PM30
2,4,5-Trichlorophenol # <0.5 <0.5 ug/l TM16/PM30
2,4,6-Trichlorophenol <1 <1 ug/l TM16/PM30
4-Chloro-3-methylphenol # <0.5 <0.5 ug/l TM16/PM30
4-Methylphenol <1 <1 ug/l TM16/PM30
4-Nitrophenol <10 <10 ug/l TM16/PM30
Pentachlorophenol <1 <1 ug/l TM16/PM30
Phenol <1 <1 ug/l TM16/PM30
PAHs
2-Chloronaphthalene # <1 <1 ug/l TM16/PM30
2-Methylnaphthalene # <1 <1 ug/l TM16/PM30
Naphthalene # <1 <1 ug/l TM16/PM30
Acenaphthylene # <0.5 <0.5 ug/l TM16/PM30
Acenaphthene # <1 <1 ug/l TM16/PM30
Fluorene # <0.5 <0.5 ug/l TM16/PM30
Phenanthrene # <0.5 <0.5 ug/l TM16/PM30
Anthracene # <0.5 <0.5 ug/l TM16/PM30
Fluoranthene # <0.5 <0.5 ug/l TM16/PM30
Pyrene # <0.5 <0.5 ug/l TM16/PM30
Benzo(a)anthracene # <0.5 <0.5 ug/l TM16/PM30
Chrysene # <0.5 <0.5 ug/l TM16/PM30
Benzo(bk)fluoranthene # <1 <1 ug/l TM16/PM30
Benzo(a)pyrene <1 <1 ug/l TM16/PM30
Indeno(123cd)pyrene <1 <1 ug/l TM16/PM30
Dibenzo(ah)anthracene # <0.5 <0.5 ug/l TM16/PM30
Benzo(ghi)perylene # <0.5 <0.5 ug/l TM16/PM30
Phthalates
Bis(2-ethylhexyl) phthalate <5 <5 ug/l TM16/PM30
Butylbenzyl phthalate <1 <1 ug/l TM16/PM30
Di-n-butyl phthalate # <1.5 <1.5 ug/l TM16/PM30
Di-n-Octyl phthalate <1 <1 ug/l TM16/PM30
Diethyl phthalate # <1 <1 ug/l TM16/PM30
Dimethyl phthalate <1 <1 ug/l TM16/PM30
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.3
QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 4 of 11
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EPA Export 22-02-2021:06:51:36
Client Name: SVOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7109
EMT Sample No. 1-8
Sample IDIMS/LEACHAT
E NO.3
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
SVOC MS
Other SVOCs
1,2-Dichlorobenzene # <1 <1 ug/l TM16/PM30
1,2,4-Trichlorobenzene # <1 <1 ug/l TM16/PM30
1,3-Dichlorobenzene # <1 <1 ug/l TM16/PM30
1,4-Dichlorobenzene # <1 <1 ug/l TM16/PM30
2-Nitroaniline <1 <1 ug/l TM16/PM30
2,4-Dinitrotoluene # <0.5 <0.5 ug/l TM16/PM30
2,6-Dinitrotoluene <1 <1 ug/l TM16/PM30
3-Nitroaniline <1 <1 ug/l TM16/PM30
4-Bromophenylphenylether # <1 <1 ug/l TM16/PM30
4-Chloroaniline <1 <1 ug/l TM16/PM30
4-Chlorophenylphenylether # <1 <1 ug/l TM16/PM30
4-Nitroaniline <0.5 <0.5 ug/l TM16/PM30
Azobenzene # <0.5 <0.5 ug/l TM16/PM30
Bis(2-chloroethoxy)methane # <0.5 <0.5 ug/l TM16/PM30
Bis(2-chloroethyl)ether # <1 <1 ug/l TM16/PM30
Carbazole # <0.5 <0.5 ug/l TM16/PM30
Dibenzofuran # <0.5 <0.5 ug/l TM16/PM30
Hexachlorobenzene # <1 <1 ug/l TM16/PM30
Hexachlorobutadiene # <1 <1 ug/l TM16/PM30
Hexachlorocyclopentadiene <1 <1 ug/l TM16/PM30
Hexachloroethane # <1 <1 ug/l TM16/PM30
Isophorone # <0.5 <0.5 ug/l TM16/PM30
N-nitrosodi-n-propylamine # <0.5 <0.5 ug/l TM16/PM30
Nitrobenzene # <1 <1 ug/l TM16/PM30
Surrogate Recovery 2-Fluorobiphenyl 88 <0 % TM16/PM30
Surrogate Recovery p-Terphenyl-d14 95 <0 % TM16/PM30
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.3
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced
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EPA Export 22-02-2021:06:51:36
Client Name: VOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7109
EMT Sample No. 1-8
Sample IDIMS/LEACHAT
E NO.3
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
VOC MS
Dichlorodifluoromethane <2 <2 ug/l TM15/PM10
Methyl Tertiary Butyl Ether # <0.1 <0.1 ug/l TM15/PM10
Chloromethane # <3 <3 ug/l TM15/PM10
Vinyl Chloride # <0.1 <0.1 ug/l TM15/PM10
Bromomethane <1 <1 ug/l TM15/PM10
Chloroethane # <3 <3 ug/l TM15/PM10
Trichlorofluoromethane # <3 <3 ug/l TM15/PM10
1,1-Dichloroethene (1,1 DCE) # <3 <3 ug/l TM15/PM10
Dichloromethane (DCM) # <5 <5 ug/l TM15/PM10
trans-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10
1,1-Dichloroethane # <3 <3 ug/l TM15/PM10
cis-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10
2,2-Dichloropropane <1 <1 ug/l TM15/PM10
Bromochloromethane # <2 <2 ug/l TM15/PM10
Chloroform # <2 <2 ug/l TM15/PM10
1,1,1-Trichloroethane # <2 <2 ug/l TM15/PM10
1,1-Dichloropropene # <3 <3 ug/l TM15/PM10
Carbon tetrachloride # <2 <2 ug/l TM15/PM10
1,2-Dichloroethane # <2 <2 ug/l TM15/PM10
Benzene # <0.5 <0.5 ug/l TM15/PM10
Trichloroethene (TCE) # <3 <3 ug/l TM15/PM10
1,2-Dichloropropane # <2 <2 ug/l TM15/PM10
Dibromomethane # <3 <3 ug/l TM15/PM10
Bromodichloromethane # <2 <2 ug/l TM15/PM10
cis-1-3-Dichloropropene <2 <2 ug/l TM15/PM10
Toluene # <5 <5 ug/l TM15/PM10
trans-1-3-Dichloropropene <2 <2 ug/l TM15/PM10
1,1,2-Trichloroethane # <2 <2 ug/l TM15/PM10
Tetrachloroethene (PCE) # <3 <3 ug/l TM15/PM10
1,3-Dichloropropane # <2 <2 ug/l TM15/PM10
Dibromochloromethane # <2 <2 ug/l TM15/PM10
1,2-Dibromoethane # <2 <2 ug/l TM15/PM10
Chlorobenzene # <2 <2 ug/l TM15/PM10
1,1,1,2-Tetrachloroethane # <2 <2 ug/l TM15/PM10
Ethylbenzene # <1 <1 ug/l TM15/PM10
m/p-Xylene # <2 <2 ug/l TM15/PM10
o-Xylene # <1 <1 ug/l TM15/PM10
Styrene <2 <2 ug/l TM15/PM10
Bromoform # <2 <2 ug/l TM15/PM10
Isopropylbenzene # <3 <3 ug/l TM15/PM10
1,1,2,2-Tetrachloroethane <4 <4 ug/l TM15/PM10
Bromobenzene # <2 <2 ug/l TM15/PM10
1,2,3-Trichloropropane # <3 <3 ug/l TM15/PM10
Propylbenzene # <3 <3 ug/l TM15/PM10
2-Chlorotoluene # <3 <3 ug/l TM15/PM10
1,3,5-Trimethylbenzene # <3 <3 ug/l TM15/PM10
4-Chlorotoluene # <3 <3 ug/l TM15/PM10
tert-Butylbenzene # <3 <3 ug/l TM15/PM10
1,2,4-Trimethylbenzene # <3 <3 ug/l TM15/PM10
sec-Butylbenzene # <3 <3 ug/l TM15/PM10
4-Isopropyltoluene # <3 <3 ug/l TM15/PM10
1,3-Dichlorobenzene # <3 <3 ug/l TM15/PM10
1,4-Dichlorobenzene # <3 <3 ug/l TM15/PM10
n-Butylbenzene # <3 <3 ug/l TM15/PM10
1,2-Dichlorobenzene # <3 <3 ug/l TM15/PM10
1,2-Dibromo-3-chloropropane <2 <2 ug/l TM15/PM10
1,2,4-Trichlorobenzene <3 <3 ug/l TM15/PM10
Hexachlorobutadiene <3 <3 ug/l TM15/PM10
Naphthalene <2 <2 ug/l TM15/PM10
1,2,3-Trichlorobenzene <3 <3 ug/l TM15/PM10
Surrogate Recovery Toluene D8 96 <0 % TM15/PM10
Surrogate Recovery 4-Bromofluorobenzene 95 <0 % TM15/PM10
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.3
QF-PM 3.1.4 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 6 of 11
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EPA Export 22-02-2021:06:51:36
Notification of Deviating Samples
EMT
Job
No.
Batch Depth
EMT
Sample
No.
Analysis Reason
Please note that only samples that are deviating are mentioned in this report. If no samples are listed it is because none were deviating.
Only analyses which are accredited are recorded as deviating if set criteria are not met.
Contact:
Sample ID
Client Name: IMS Integrated Material Solutions Limited Partnership
Reference:
Location:
No deviating sample report results for job 20/7109
Element Materials Technology
Leachate Testing No.3
Hollywood
Jason McGuirk
QF-PM 3.1.11 v3 Please include all sections of this report if it is reproduced 7 of 11
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EMT Job No.:
SOILS
DEVIATING SAMPLES
SURROGATES
DILUTIONS
BLANKS
NOTE
Data is only reported if the laboratory is confident that the data is a true reflection of the samples analysed. Data is only reported as accredited when
all the requirements of our Quality System have been met. In certain circumstances where all the requirements of the Quality System have not been
met, for instance if the associated AQC has failed, the reason is fully investigated and documented. The sample data is then evaluated alongside
the other quality control checks performed during analysis to determine its suitability. Following this evaluation, provided the sample results have not
been effected, the data is reported but accreditation is removed. It is a UKAS requirement for data not reported as accredited to be considered
indicative only, but this does not mean the data is not valid.
Where possible, and if requested, samples will be re-extracted and a revised report issued with accredited results. Please do not hesitate to contact
the laboratory if further details are required of the circumstances which have led to the removal of accreditation.
As surface waters require different sample preparation to groundwaters the laboratory must be informed of the water type when submitting samples.
Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.
All samples should be submitted to the laboratory in suitable containers with sufficient ice packs to sustain an appropriate temperature for the
requested analysis. The temperature of sample receipt is recorded on the confirmation schedules in order that the client can make an informed
decision as to whether testing should still be undertaken.
Surrogate compounds are added during the preparation process to monitor recovery of analytes. However low recovery in soils is often due to peat,
clay or other organic rich matrices. For waters this can be due to oxidants, surfactants, organic rich sediments or remediation fluids. Acceptable
limits for most organic methods are 70 - 130% and for VOCs are 50 - 150%. When surrogate recoveries are outside the performance criteria but
the associated AQC passes this is assumed to be due to matrix effect. Results are not surrogate corrected.
A dilution suffix indicates a dilution has been performed and the reported result takes this into account. No further calculation is required.
Where analytes have been found in the blank, the sample will be treated in accordance with our laboratory procedure for dealing with contaminated
blanks.
Sufficient amount of sample must be received to carry out the testing specified. Where an insufficient amount of sample has been received the
testing may not meet the requirements of our accredited methods, as such accreditation may be removed.
Negative Neutralization Potential (NP) values are obtained when the volume of NaOH (0.1N) titrated (pH 8.3) is greater than the volume of HCl (1N)
to reduce the pH of the sample to 2.0 - 2.5. Any negative NP values are corrected to 0.
The calculation of Pyrite content assumes that all oxidisable sulphides present in the sample are pyrite. This may not be the case. The calculation
may be an overesitimate when other sulphides such as Barite (Barium Sulphate) are present.
WATERS
Please note we are not a UK Drinking Water Inspectorate (DWI) Approved Laboratory .
ISO17025 accreditation applies to surface water and groundwater and usually one other matrix which is analysis specific, any other liquids are
outside our scope of accreditation.
If you have not already done so, please send us a purchase order if this is required by your company.
Where appropriate please make sure that our detection limits are suitable for your needs, if they are not, please notify us immediately.
All analysis is reported on a dry weight basis unless stated otherwise. Limits of detection for analyses carried out on as received samples are not
moisture content corrected. Results are not surrogate corrected. Samples are dried at 35°C ±5°C unless otherwise stated. Moisture content for
CEN Leachate tests are dried at 105°C ±5°C.
Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.
Where a CEN 10:1 ZERO Headspace VOC test has been carried out, a 10:1 ratio of water to wet (as received) soil has been used.
% Asbestos in Asbestos Containing Materials (ACMs) is determined by reference to HSG 264 The Survey Guide - Appendix 2 : ACMs in buildings
listed in order of ease of fibre release.
NOTES TO ACCOMPANY ALL SCHEDULES AND REPORTS
20/7109
Please note we are only MCERTS accredited (UK soils only) for sand, loam and clay and any other matrix is outside our scope of accreditation.
Where an MCERTS report has been requested, you will be notified within 48 hours of any samples that have been identified as being outside our
MCERTS scope. As validation has been performed on clay, sand and loam, only samples that are predominantly these matrices, or combinations
of them will be within our MCERTS scope. If samples are not one of a combination of the above matrices they will not be marked as MCERTS
accredited.
It is assumed that you have taken representative samples on site and require analysis on a representative subsample. Stones will generally be
included unless we are requested to remove them.
All samples will be discarded one month after the date of reporting, unless we are instructed to the contrary.
QF-PM 3.1.9 v34Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 8 of 11
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EPA Export 22-02-2021:06:51:36
EMT Job No.:
Measurement Uncertainty
#
SA
B
DR
M
NA
NAD
ND
NDP
SS
SV
W
+
>>
*
AD
CO
LOD/LOR
ME
NFD
BS
LB
N
TB
OC Outside Calibration Range
Matrix Effect
No Fibres Detected
AQC Sample
Blank Sample
Client Sample
Trip Blank Sample
AQC failure, accreditation has been removed from this result, if appropriate, see 'Note' on previous page.
Results above calibration range, the result should be considered the minimum value. The actual result could be significantly
higher, this result is not accredited.
Analysis subcontracted to an Element Materials Technology approved laboratory.
Samples are dried at 35°C ±5°C
Suspected carry over
Limit of Detection (Limit of Reporting) in line with ISO 17025 and MCERTS
No Asbestos Detected.
None Detected (usually refers to VOC and/SVOC TICs).
No Determination Possible
Calibrated against a single substance
Surrogate recovery outside performance criteria. This may be due to a matrix effect.
Results expressed on as received basis.
ISO17025 (UKAS Ref No. 4225) accredited - UK.
ISO17025 (SANAS Ref No.T0729) accredited - South Africa
Indicates analyte found in associated method blank.
Dilution required.
MCERTS accredited.
Not applicable
20/7109
REPORTS FROM THE SOUTH AFRICA LABORATORY
Any method number not prefixed with SA has been undertaken in our UK laboratory unless reported as subcontracted.
Measurement uncertainty defines the range of values that could reasonably be attributed to the measured quantity. This range of values has not
been included within the reported results. Uncertainty expressed as a percentage can be provided upon request.
ABBREVIATIONS and ACRONYMS USED
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EMT Job No: 20/7109
Test Method No. Description
Prep Method
No. (if
appropriate)
Description
ISO
17025
(UKAS/S
ANAS)
MCERTS
(UK soils
only)
Analysis done
on As Received
(AR) or Dried
(AD)
Reported on
dry weight
basis
TM15Modified USEPA 8260B v2:1996. Quantitative Determination of Volatile Organic
Compounds (VOCs) by Headspace GC-MS.PM10
Modified US EPA method 5021A v2:2014. Preparation of solid and liquid samples for GC
headspace analysis.
TM15Modified USEPA 8260B v2:1996. Quantitative Determination of Volatile Organic
Compounds (VOCs) by Headspace GC-MS.PM10
Modified US EPA method 5021A v2:2014. Preparation of solid and liquid samples for GC
headspace analysis. Yes
TM16Modified USEPA 8270D v5:2014. Quantitative determination of Semi-Volatile Organic
compounds (SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex.
TM16Modified USEPA 8270D v5:2014. Quantitative determination of Semi-Volatile Organic
compounds (SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex. Yes
TM26Determination of phenols by Reversed Phased High Performance Liquid
Chromatography and Electro-Chemical Detection.PM0 No preparation is required.
TM30
Determination of Trace Metals by ICP-OES (Inductively Coupled Plasma – Optical
Emission Spectrometry): WATERS by Modified USEPA Method 200.7, Rev. 4.4, 1994;
Modified EPA Method 6010B, Rev.2, Dec 1996; Modified BS EN ISO 11885:2009:
SOILS by Modified USEP
PM14Preparation of waters and leachates for metals by ICP OES/ICP MS. Samples are filtered
for Dissolved metals, and remain unfiltered for Total metals then acidifiedYes
TM35
True and apparent colour by Hach Lange DR3800 spectrophotometer. Apparent colour
includes dissolved and suspended matter. True colour is determinined after filtration of
the sample.
PM0 No preparation is required.
TM38
Soluble Ion analysis using Discrete Analyser. Modified US EPA methods: Chloride 325.2
(1978), Sulphate 375.4 (Rev.2 1993), o-Phosphate 365.2 (Rev.2 1993), TON 353.1
(Rev.2 1993), Nitrite 354.1 (1971), Hex Cr 7196A (1992), NH4+ 350.1 (Rev.2 1993
(comparabl
PM0 No preparation is required. Yes
TM57
Modified US EPA Method 410.4. (Rev. 2.0 1993) Comparable with ISO 15705:2002.
Chemical Oxygen Demand is determined by hot digestion with Potassium Dichromate
and measured spectrophotometerically.
PM0 No preparation is required. Yes
TM60
TC/TOC analysis of Waters by High Temperature Combustion followed by NDIR
detection. Based on the following modified standard methods: USEPA 9060A (2002),
APHA SMEWW 5310B:1999 22nd Edition, ASTM D 7573, and USEPA 415.1.
PM0 No preparation is required. Yes
Element Materials Technology Method Code Appendix
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EMT Job No: 20/7109
Test Method No. Description
Prep Method
No. (if
appropriate)
Description
ISO
17025
(UKAS/S
ANAS)
MCERTS
(UK soils
only)
Analysis done
on As Received
(AR) or Dried
(AD)
Reported on
dry weight
basis
TM73Modified US EPA methods 150.1 (1982) and 9045D Rev. 4 - 2004) and BS1377-
3:1990. Determination of pH by Metrohm automated probe analyser.PM0 No preparation is required. Yes
TM76Modified US EPA method 120.1 (1982). Determination of Specific Conductance by
Metrohm automated probe analyser.PM0 No preparation is required. Yes
TM129 Odour of samples PM0 No preparation is required. AR
TM149Determination of Pesticides by Large Volume Injection on GC Triple Quad MS, based
upon USEPA method 8270D v5:2014PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex.
Element Materials Technology Method Code Appendix
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EPA Export 22-02-2021:06:51:36
Element Materials Technology P: +44 (0) 1244 833780
Unit 3 Deeside Point F: +44 (0) 1244 833781
Zone 3
Deeside Industrial Park W: www.element.com
Deeside
CH5 2UA
IMS Integrated Material Solutions Limited Partnership
Attention :
Date :
Your reference :
Our reference :
Location :
Date samples received :
Status :
Issue :
Please include all sections of this report if it is reproduced
Nags Head
Hollywood
Naul
Co Dublin
Ireland
Jason McGuirk
12th June, 2020
Leachate Testing No.4
Test Report 20/7111 Batch 1
Hollywood
4th June, 2020
Final report
Senior Project Manager
1
One sample was received for analysis on 4th June, 2020 of which one was scheduled for analysis. Please find attached our Test Report which
should be read with notes at the end of the report and should include all sections if reproduced. Interpretations and opinions are outside the scope of
any accreditation, and all results relate only to samples supplied.
All analysis is carried out on as received samples and reported on a dry weight basis unless stated otherwise. Results are not surrogate corrected.
Authorised By:
Phil Sommerton BSc
Element Materials Technology Environmental UK Limited
Registered in England and Wales
Registered Office: 10 Lower Grosvenor Place, London, SW1W 0EN
Company Registration No: 11371415 1 of 11
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EPA Export 22-02-2021:06:51:36
Client Name: Report : Liquid
Reference:
Location:
Contact: Liquids/products: V=40ml vial, G=glass bottle, P=plastic bottle
EMT Job No: 20/7111 H=H2SO4, Z=ZnAc, N=NaOH, HN=HN03
EMT Sample No. 1-8
Sample IDIMS/LEACHAT
E NO.4
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 04/06/2020
Odour Absent None TM129/PM0
Odour Type none None TM129/PM0
Dissolved Potassium # 62.0 <0.1 mg/l TM30/PM14
Dissolved Sodium # 318.5AA <0.1 mg/l TM30/PM14
Pesticides
Organochlorine Pesticides
Aldrin <0.01 <0.01 ug/l TM149/PM30
Alpha-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Beta-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Delta-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Dieldrin <0.01 <0.01 ug/l TM149/PM30
Endosulphan I <0.01 <0.01 ug/l TM149/PM30
Endosulphan II <0.01 <0.01 ug/l TM149/PM30
Endosulphan sulphate <0.01 <0.01 ug/l TM149/PM30
Endrin <0.01 <0.01 ug/l TM149/PM30
Gamma-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Heptachlor <0.01 <0.01 ug/l TM149/PM30
Heptachlor Epoxide <0.01 <0.01 ug/l TM149/PM30
o,p'-Methoxychlor <0.01 <0.01 ug/l TM149/PM30
p,p'-DDE <0.01 <0.01 ug/l TM149/PM30
p,p'-DDT <0.01 <0.01 ug/l TM149/PM30
p,p'-Methoxychlor <0.01 <0.01 ug/l TM149/PM30
p,p'-TDE <0.01 <0.01 ug/l TM149/PM30
Organophosphorus Pesticides
Azinphos methyl <0.01 <0.01 ug/l TM149/PM30
Diazinon <0.01 <0.01 ug/l TM149/PM30
Dichlorvos <0.01 <0.01 ug/l TM149/PM30
Disulfoton <0.01 <0.01 ug/l TM149/PM30
Ethion <0.01 <0.01 ug/l TM149/PM30
Ethyl Parathion (Parathion) <0.01 <0.01 ug/l TM149/PM30
Fenitrothion <0.01 <0.01 ug/l TM149/PM30
Malathion <0.01 <0.01 ug/l TM149/PM30
Methyl Parathion <0.01 <0.01 ug/l TM149/PM30
Mevinphos <0.01 <0.01 ug/l TM149/PM30
Total Phenols HPLC <0.15 <0.15 mg/l TM26/PM0
Sulphate as SO4 # 655.6 <0.5 mg/l TM38/PM0
Chloride # 364.9 <0.3 mg/l TM38/PM0
Total Oxidised Nitrogen as N # 5.6 <0.2 mg/l TM38/PM0
Ammoniacal Nitrogen as N # 0.14 <0.03 mg/l TM38/PM0
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.4
QF-PM 3.1.2 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 2 of 11
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EPA Export 22-02-2021:06:51:36
Client Name: Report : Liquid
Reference:
Location:
Contact: Liquids/products: V=40ml vial, G=glass bottle, P=plastic bottle
EMT Job No: 20/7111 H=H2SO4, Z=ZnAc, N=NaOH, HN=HN03
EMT Sample No. 1-8
Sample IDIMS/LEACHAT
E NO.4
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 04/06/2020
COD (Settled) # 263 <7 mg/l TM57/PM0
Dissolved Organic Carbon # 96 <2 mg/l TM60/PM0
Electrical Conductivity @25C # 2774 <2 uS/cm TM76/PM0
pH # 7.91 <0.01 pH units TM73/PM0
Total Organic Carbon # 95 <2 mg/l TM60/PM0
True Colour 107 <15 PCU TM35/PM0
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.4
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
QF-PM 3.1.2 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 3 of 11
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EPA Export 22-02-2021:06:51:36
Client Name: SVOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7111
EMT Sample No. 1-8
Sample IDIMS/LEACHAT
E NO.4
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 04/06/2020
SVOC MS
Phenols
2-Chlorophenol # <1 <1 ug/l TM16/PM30
2-Methylphenol # <0.5 <0.5 ug/l TM16/PM30
2-Nitrophenol <0.5 <0.5 ug/l TM16/PM30
2,4-Dichlorophenol # <0.5 <0.5 ug/l TM16/PM30
2,4-Dimethylphenol <1 <1 ug/l TM16/PM30
2,4,5-Trichlorophenol # <0.5 <0.5 ug/l TM16/PM30
2,4,6-Trichlorophenol <1 <1 ug/l TM16/PM30
4-Chloro-3-methylphenol # <0.5 <0.5 ug/l TM16/PM30
4-Methylphenol <1 <1 ug/l TM16/PM30
4-Nitrophenol <10 <10 ug/l TM16/PM30
Pentachlorophenol <1 <1 ug/l TM16/PM30
Phenol <1 <1 ug/l TM16/PM30
PAHs
2-Chloronaphthalene # <1 <1 ug/l TM16/PM30
2-Methylnaphthalene # <1 <1 ug/l TM16/PM30
Naphthalene # <1 <1 ug/l TM16/PM30
Acenaphthylene # <0.5 <0.5 ug/l TM16/PM30
Acenaphthene # <1 <1 ug/l TM16/PM30
Fluorene # <0.5 <0.5 ug/l TM16/PM30
Phenanthrene # <0.5 <0.5 ug/l TM16/PM30
Anthracene # <0.5 <0.5 ug/l TM16/PM30
Fluoranthene # <0.5 <0.5 ug/l TM16/PM30
Pyrene # <0.5 <0.5 ug/l TM16/PM30
Benzo(a)anthracene # <0.5 <0.5 ug/l TM16/PM30
Chrysene # <0.5 <0.5 ug/l TM16/PM30
Benzo(bk)fluoranthene # <1 <1 ug/l TM16/PM30
Benzo(a)pyrene <1 <1 ug/l TM16/PM30
Indeno(123cd)pyrene <1 <1 ug/l TM16/PM30
Dibenzo(ah)anthracene # <0.5 <0.5 ug/l TM16/PM30
Benzo(ghi)perylene # <0.5 <0.5 ug/l TM16/PM30
Phthalates
Bis(2-ethylhexyl) phthalate 23 <5 ug/l TM16/PM30
Butylbenzyl phthalate <1 <1 ug/l TM16/PM30
Di-n-butyl phthalate # <1.5 <1.5 ug/l TM16/PM30
Di-n-Octyl phthalate <1 <1 ug/l TM16/PM30
Diethyl phthalate # <1 <1 ug/l TM16/PM30
Dimethyl phthalate <1 <1 ug/l TM16/PM30
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.4
QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 4 of 11
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EPA Export 22-02-2021:06:51:36
Client Name: SVOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7111
EMT Sample No. 1-8
Sample IDIMS/LEACHAT
E NO.4
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 04/06/2020
SVOC MS
Other SVOCs
1,2-Dichlorobenzene # <1 <1 ug/l TM16/PM30
1,2,4-Trichlorobenzene # <1 <1 ug/l TM16/PM30
1,3-Dichlorobenzene # <1 <1 ug/l TM16/PM30
1,4-Dichlorobenzene # <1 <1 ug/l TM16/PM30
2-Nitroaniline <1 <1 ug/l TM16/PM30
2,4-Dinitrotoluene # <0.5 <0.5 ug/l TM16/PM30
2,6-Dinitrotoluene <1 <1 ug/l TM16/PM30
3-Nitroaniline <1 <1 ug/l TM16/PM30
4-Bromophenylphenylether # <1 <1 ug/l TM16/PM30
4-Chloroaniline <1 <1 ug/l TM16/PM30
4-Chlorophenylphenylether # <1 <1 ug/l TM16/PM30
4-Nitroaniline <0.5 <0.5 ug/l TM16/PM30
Azobenzene # <0.5 <0.5 ug/l TM16/PM30
Bis(2-chloroethoxy)methane # <0.5 <0.5 ug/l TM16/PM30
Bis(2-chloroethyl)ether # <1 <1 ug/l TM16/PM30
Carbazole # <0.5 <0.5 ug/l TM16/PM30
Dibenzofuran # <0.5 <0.5 ug/l TM16/PM30
Hexachlorobenzene # <1 <1 ug/l TM16/PM30
Hexachlorobutadiene # <1 <1 ug/l TM16/PM30
Hexachlorocyclopentadiene <1 <1 ug/l TM16/PM30
Hexachloroethane # <1 <1 ug/l TM16/PM30
Isophorone # <0.5 <0.5 ug/l TM16/PM30
N-nitrosodi-n-propylamine # <0.5 <0.5 ug/l TM16/PM30
Nitrobenzene # <1 <1 ug/l TM16/PM30
Surrogate Recovery 2-Fluorobiphenyl 82 <0 % TM16/PM30
Surrogate Recovery p-Terphenyl-d14 97 <0 % TM16/PM30
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.4
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 5 of 11
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EPA Export 22-02-2021:06:51:36
Client Name: VOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7111
EMT Sample No. 1-8
Sample IDIMS/LEACHAT
E NO.4
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 04/06/2020
VOC MS
Dichlorodifluoromethane <2 <2 ug/l TM15/PM10
Methyl Tertiary Butyl Ether # <0.1 <0.1 ug/l TM15/PM10
Chloromethane # <3 <3 ug/l TM15/PM10
Vinyl Chloride # <0.1 <0.1 ug/l TM15/PM10
Bromomethane <1 <1 ug/l TM15/PM10
Chloroethane # <3 <3 ug/l TM15/PM10
Trichlorofluoromethane # <3 <3 ug/l TM15/PM10
1,1-Dichloroethene (1,1 DCE) # <3 <3 ug/l TM15/PM10
Dichloromethane (DCM) # <5 <5 ug/l TM15/PM10
trans-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10
1,1-Dichloroethane # <3 <3 ug/l TM15/PM10
cis-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10
2,2-Dichloropropane <1 <1 ug/l TM15/PM10
Bromochloromethane # <2 <2 ug/l TM15/PM10
Chloroform # <2 <2 ug/l TM15/PM10
1,1,1-Trichloroethane # <2 <2 ug/l TM15/PM10
1,1-Dichloropropene # <3 <3 ug/l TM15/PM10
Carbon tetrachloride # <2 <2 ug/l TM15/PM10
1,2-Dichloroethane # <2 <2 ug/l TM15/PM10
Benzene # <0.5 <0.5 ug/l TM15/PM10
Trichloroethene (TCE) # <3 <3 ug/l TM15/PM10
1,2-Dichloropropane # <2 <2 ug/l TM15/PM10
Dibromomethane # <3 <3 ug/l TM15/PM10
Bromodichloromethane # <2 <2 ug/l TM15/PM10
cis-1-3-Dichloropropene <2 <2 ug/l TM15/PM10
Toluene # <5 <5 ug/l TM15/PM10
trans-1-3-Dichloropropene <2 <2 ug/l TM15/PM10
1,1,2-Trichloroethane # <2 <2 ug/l TM15/PM10
Tetrachloroethene (PCE) # <3 <3 ug/l TM15/PM10
1,3-Dichloropropane # <2 <2 ug/l TM15/PM10
Dibromochloromethane # <2 <2 ug/l TM15/PM10
1,2-Dibromoethane # <2 <2 ug/l TM15/PM10
Chlorobenzene # <2 <2 ug/l TM15/PM10
1,1,1,2-Tetrachloroethane # <2 <2 ug/l TM15/PM10
Ethylbenzene # <1 <1 ug/l TM15/PM10
m/p-Xylene # <2 <2 ug/l TM15/PM10
o-Xylene # <1 <1 ug/l TM15/PM10
Styrene <2 <2 ug/l TM15/PM10
Bromoform # <2 <2 ug/l TM15/PM10
Isopropylbenzene # <3 <3 ug/l TM15/PM10
1,1,2,2-Tetrachloroethane <4 <4 ug/l TM15/PM10
Bromobenzene # <2 <2 ug/l TM15/PM10
1,2,3-Trichloropropane # <3 <3 ug/l TM15/PM10
Propylbenzene # <3 <3 ug/l TM15/PM10
2-Chlorotoluene # <3 <3 ug/l TM15/PM10
1,3,5-Trimethylbenzene # <3 <3 ug/l TM15/PM10
4-Chlorotoluene # <3 <3 ug/l TM15/PM10
tert-Butylbenzene # <3 <3 ug/l TM15/PM10
1,2,4-Trimethylbenzene # <3 <3 ug/l TM15/PM10
sec-Butylbenzene # <3 <3 ug/l TM15/PM10
4-Isopropyltoluene # <3 <3 ug/l TM15/PM10
1,3-Dichlorobenzene # <3 <3 ug/l TM15/PM10
1,4-Dichlorobenzene # <3 <3 ug/l TM15/PM10
n-Butylbenzene # <3 <3 ug/l TM15/PM10
1,2-Dichlorobenzene # <3 <3 ug/l TM15/PM10
1,2-Dibromo-3-chloropropane <2 <2 ug/l TM15/PM10
1,2,4-Trichlorobenzene <3 <3 ug/l TM15/PM10
Hexachlorobutadiene <3 <3 ug/l TM15/PM10
1,2,3-Trichlorobenzene <3 <3 ug/l TM15/PM10
Surrogate Recovery Toluene D8 101 <0 % TM15/PM10
Surrogate Recovery 4-Bromofluorobenzene 111 <0 % TM15/PM10
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.4
QF-PM 3.1.4 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 6 of 11
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EPA Export 22-02-2021:06:51:36
Notification of Deviating Samples
EMT
Job
No.
Batch Depth
EMT
Sample
No.
Analysis Reason
Please note that only samples that are deviating are mentioned in this report. If no samples are listed it is because none were deviating.
Only analyses which are accredited are recorded as deviating if set criteria are not met.
Contact:
Sample ID
Client Name: IMS Integrated Material Solutions Limited Partnership
Reference:
Location:
No deviating sample report results for job 20/7111
Element Materials Technology
Leachate Testing No.4
Hollywood
Jason McGuirk
QF-PM 3.1.11 v3 Please include all sections of this report if it is reproduced 7 of 11
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EMT Job No.:
SOILS
DEVIATING SAMPLES
SURROGATES
DILUTIONS
BLANKS
NOTE
Data is only reported if the laboratory is confident that the data is a true reflection of the samples analysed. Data is only reported as accredited when
all the requirements of our Quality System have been met. In certain circumstances where all the requirements of the Quality System have not been
met, for instance if the associated AQC has failed, the reason is fully investigated and documented. The sample data is then evaluated alongside
the other quality control checks performed during analysis to determine its suitability. Following this evaluation, provided the sample results have not
been effected, the data is reported but accreditation is removed. It is a UKAS requirement for data not reported as accredited to be considered
indicative only, but this does not mean the data is not valid.
Where possible, and if requested, samples will be re-extracted and a revised report issued with accredited results. Please do not hesitate to contact
the laboratory if further details are required of the circumstances which have led to the removal of accreditation.
As surface waters require different sample preparation to groundwaters the laboratory must be informed of the water type when submitting samples.
Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.
All samples should be submitted to the laboratory in suitable containers with sufficient ice packs to sustain an appropriate temperature for the
requested analysis. The temperature of sample receipt is recorded on the confirmation schedules in order that the client can make an informed
decision as to whether testing should still be undertaken.
Surrogate compounds are added during the preparation process to monitor recovery of analytes. However low recovery in soils is often due to peat,
clay or other organic rich matrices. For waters this can be due to oxidants, surfactants, organic rich sediments or remediation fluids. Acceptable
limits for most organic methods are 70 - 130% and for VOCs are 50 - 150%. When surrogate recoveries are outside the performance criteria but
the associated AQC passes this is assumed to be due to matrix effect. Results are not surrogate corrected.
A dilution suffix indicates a dilution has been performed and the reported result takes this into account. No further calculation is required.
Where analytes have been found in the blank, the sample will be treated in accordance with our laboratory procedure for dealing with contaminated
blanks.
Sufficient amount of sample must be received to carry out the testing specified. Where an insufficient amount of sample has been received the
testing may not meet the requirements of our accredited methods, as such accreditation may be removed.
Negative Neutralization Potential (NP) values are obtained when the volume of NaOH (0.1N) titrated (pH 8.3) is greater than the volume of HCl (1N)
to reduce the pH of the sample to 2.0 - 2.5. Any negative NP values are corrected to 0.
The calculation of Pyrite content assumes that all oxidisable sulphides present in the sample are pyrite. This may not be the case. The calculation
may be an overesitimate when other sulphides such as Barite (Barium Sulphate) are present.
WATERS
Please note we are not a UK Drinking Water Inspectorate (DWI) Approved Laboratory .
ISO17025 accreditation applies to surface water and groundwater and usually one other matrix which is analysis specific, any other liquids are
outside our scope of accreditation.
If you have not already done so, please send us a purchase order if this is required by your company.
Where appropriate please make sure that our detection limits are suitable for your needs, if they are not, please notify us immediately.
All analysis is reported on a dry weight basis unless stated otherwise. Limits of detection for analyses carried out on as received samples are not
moisture content corrected. Results are not surrogate corrected. Samples are dried at 35°C ±5°C unless otherwise stated. Moisture content for
CEN Leachate tests are dried at 105°C ±5°C.
Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.
Where a CEN 10:1 ZERO Headspace VOC test has been carried out, a 10:1 ratio of water to wet (as received) soil has been used.
% Asbestos in Asbestos Containing Materials (ACMs) is determined by reference to HSG 264 The Survey Guide - Appendix 2 : ACMs in buildings
listed in order of ease of fibre release.
NOTES TO ACCOMPANY ALL SCHEDULES AND REPORTS
20/7111
Please note we are only MCERTS accredited (UK soils only) for sand, loam and clay and any other matrix is outside our scope of accreditation.
Where an MCERTS report has been requested, you will be notified within 48 hours of any samples that have been identified as being outside our
MCERTS scope. As validation has been performed on clay, sand and loam, only samples that are predominantly these matrices, or combinations
of them will be within our MCERTS scope. If samples are not one of a combination of the above matrices they will not be marked as MCERTS
accredited.
It is assumed that you have taken representative samples on site and require analysis on a representative subsample. Stones will generally be
included unless we are requested to remove them.
All samples will be discarded one month after the date of reporting, unless we are instructed to the contrary.
QF-PM 3.1.9 v34Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 8 of 11
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EPA Export 22-02-2021:06:51:36
EMT Job No.:
Measurement Uncertainty
#
SA
B
DR
M
NA
NAD
ND
NDP
SS
SV
W
+
>>
*
AD
CO
LOD/LOR
ME
NFD
BS
LB
N
TB
OC
AA x5 Dilution
Outside Calibration Range
Matrix Effect
No Fibres Detected
AQC Sample
Blank Sample
Client Sample
Trip Blank Sample
AQC failure, accreditation has been removed from this result, if appropriate, see 'Note' on previous page.
Results above calibration range, the result should be considered the minimum value. The actual result could be significantly
higher, this result is not accredited.
Analysis subcontracted to an Element Materials Technology approved laboratory.
Samples are dried at 35°C ±5°C
Suspected carry over
Limit of Detection (Limit of Reporting) in line with ISO 17025 and MCERTS
No Asbestos Detected.
None Detected (usually refers to VOC and/SVOC TICs).
No Determination Possible
Calibrated against a single substance
Surrogate recovery outside performance criteria. This may be due to a matrix effect.
Results expressed on as received basis.
ISO17025 (UKAS Ref No. 4225) accredited - UK.
ISO17025 (SANAS Ref No.T0729) accredited - South Africa
Indicates analyte found in associated method blank.
Dilution required.
MCERTS accredited.
Not applicable
20/7111
REPORTS FROM THE SOUTH AFRICA LABORATORY
Any method number not prefixed with SA has been undertaken in our UK laboratory unless reported as subcontracted.
Measurement uncertainty defines the range of values that could reasonably be attributed to the measured quantity. This range of values has not
been included within the reported results. Uncertainty expressed as a percentage can be provided upon request.
ABBREVIATIONS and ACRONYMS USED
QF-PM 3.1.9 v34Please include all sections of this report if it is reproduced
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EPA Export 22-02-2021:06:51:36
EMT Job No: 20/7111
Test Method No. Description
Prep Method
No. (if
appropriate)
Description
ISO
17025
(UKAS/S
ANAS)
MCERTS
(UK soils
only)
Analysis done
on As Received
(AR) or Dried
(AD)
Reported on
dry weight
basis
TM15Modified USEPA 8260B v2:1996. Quantitative Determination of Volatile Organic
Compounds (VOCs) by Headspace GC-MS.PM10
Modified US EPA method 5021A v2:2014. Preparation of solid and liquid samples for GC
headspace analysis.
TM15Modified USEPA 8260B v2:1996. Quantitative Determination of Volatile Organic
Compounds (VOCs) by Headspace GC-MS.PM10
Modified US EPA method 5021A v2:2014. Preparation of solid and liquid samples for GC
headspace analysis. Yes
TM16Modified USEPA 8270D v5:2014. Quantitative determination of Semi-Volatile Organic
compounds (SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex.
TM16Modified USEPA 8270D v5:2014. Quantitative determination of Semi-Volatile Organic
compounds (SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex. Yes
TM26Determination of phenols by Reversed Phased High Performance Liquid
Chromatography and Electro-Chemical Detection.PM0 No preparation is required.
TM30
Determination of Trace Metals by ICP-OES (Inductively Coupled Plasma – Optical
Emission Spectrometry): WATERS by Modified USEPA Method 200.7, Rev. 4.4, 1994;
Modified EPA Method 6010B, Rev.2, Dec 1996; Modified BS EN ISO 11885:2009:
SOILS by Modified USEP
PM14Preparation of waters and leachates for metals by ICP OES/ICP MS. Samples are filtered
for Dissolved metals, and remain unfiltered for Total metals then acidifiedYes
TM35
True and apparent colour by Hach Lange DR3800 spectrophotometer. Apparent colour
includes dissolved and suspended matter. True colour is determinined after filtration of
the sample.
PM0 No preparation is required.
TM38
Soluble Ion analysis using Discrete Analyser. Modified US EPA methods: Chloride 325.2
(1978), Sulphate 375.4 (Rev.2 1993), o-Phosphate 365.2 (Rev.2 1993), TON 353.1
(Rev.2 1993), Nitrite 354.1 (1971), Hex Cr 7196A (1992), NH4+ 350.1 (Rev.2 1993
(comparabl
PM0 No preparation is required. Yes
TM57
Modified US EPA Method 410.4. (Rev. 2.0 1993) Comparable with ISO 15705:2002.
Chemical Oxygen Demand is determined by hot digestion with Potassium Dichromate
and measured spectrophotometerically.
PM0 No preparation is required. Yes
TM60
TC/TOC analysis of Waters by High Temperature Combustion followed by NDIR
detection. Based on the following modified standard methods: USEPA 9060A (2002),
APHA SMEWW 5310B:1999 22nd Edition, ASTM D 7573, and USEPA 415.1.
PM0 No preparation is required. Yes
Element Materials Technology Method Code Appendix
QF-PM 3.1.10 v14 Please include all sections of this report if it is reproduced 10 of 11
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EPA Export 22-02-2021:06:51:36
EMT Job No: 20/7111
Test Method No. Description
Prep Method
No. (if
appropriate)
Description
ISO
17025
(UKAS/S
ANAS)
MCERTS
(UK soils
only)
Analysis done
on As Received
(AR) or Dried
(AD)
Reported on
dry weight
basis
TM73Modified US EPA methods 150.1 (1982) and 9045D Rev. 4 - 2004) and BS1377-
3:1990. Determination of pH by Metrohm automated probe analyser.PM0 No preparation is required. Yes
TM76Modified US EPA method 120.1 (1982). Determination of Specific Conductance by
Metrohm automated probe analyser.PM0 No preparation is required. Yes
TM129 Odour of samples PM0 No preparation is required. AR
TM149Determination of Pesticides by Large Volume Injection on GC Triple Quad MS, based
upon USEPA method 8270D v5:2014PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex.
Element Materials Technology Method Code Appendix
QF-PM 3.1.10 v14 Please include all sections of this report if it is reproduced 11 of 11
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EPA Export 22-02-2021:06:51:36
Element Materials Technology P: +44 (0) 1244 833780
Unit 3 Deeside Point F: +44 (0) 1244 833781
Zone 3
Deeside Industrial Park W: www.element.com
Deeside
CH5 2UA
IMS Integrated Material Solutions Limited Partnership
Attention :
Date :
Your reference :
Our reference :
Location :
Date samples received :
Status :
Issue :
Please include all sections of this report if it is reproduced
Nags Head
Hollywood
Naul
Co Dublin
Ireland
Jason McGuirk
11th June, 2020
Leachate Testing No.5
Test Report 20/7118 Batch 1
Hollywood
5th June, 2020
Final report
Project Manager
1
One sample was received for analysis on 5th June, 2020 of which one was scheduled for analysis. Please find attached our Test Report which
should be read with notes at the end of the report and should include all sections if reproduced. Interpretations and opinions are outside the scope of
any accreditation, and all results relate only to samples supplied.
All analysis is carried out on as received samples and reported on a dry weight basis unless stated otherwise. Results are not surrogate corrected.
Authorised By:
Bruce Leslie
Element Materials Technology Environmental UK Limited
Registered in England and Wales
Registered Office: 10 Lower Grosvenor Place, London, SW1W 0EN
Company Registration No: 11371415 1 of 11
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Client Name: Report : Liquid
Reference:
Location:
Contact: Liquids/products: V=40ml vial, G=glass bottle, P=plastic bottle
EMT Job No: 20/7118 H=H2SO4, Z=ZnAc, N=NaOH, HN=HN03
EMT Sample No. 1-8
Sample IDLEACHATE
TESTING
NO.5
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
Odour Absent None TM129/PM0
Odour Type none None TM129/PM0
Dissolved Potassium # 46.1 <0.1 mg/l TM30/PM14
Dissolved Sodium # 340.1AA <0.1 mg/l TM30/PM14
Pesticides
Organochlorine Pesticides
Aldrin <0.01 <0.01 ug/l TM149/PM30
Alpha-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Beta-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Delta-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Dieldrin <0.01 <0.01 ug/l TM149/PM30
Endosulphan I <0.01 <0.01 ug/l TM149/PM30
Endosulphan II <0.01 <0.01 ug/l TM149/PM30
Endosulphan sulphate <0.01 <0.01 ug/l TM149/PM30
Endrin <0.01 <0.01 ug/l TM149/PM30
Gamma-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Heptachlor <0.01 <0.01 ug/l TM149/PM30
Heptachlor Epoxide <0.01 <0.01 ug/l TM149/PM30
o,p'-Methoxychlor <0.01 <0.01 ug/l TM149/PM30
p,p'-DDE <0.01 <0.01 ug/l TM149/PM30
p,p'-DDT <0.01 <0.01 ug/l TM149/PM30
p,p'-Methoxychlor <0.01 <0.01 ug/l TM149/PM30
p,p'-TDE <0.01 <0.01 ug/l TM149/PM30
Organophosphorus Pesticides
Azinphos methyl <0.01 <0.01 ug/l TM149/PM30
Diazinon <0.01 <0.01 ug/l TM149/PM30
Dichlorvos <0.01 <0.01 ug/l TM149/PM30
Disulfoton <0.01 <0.01 ug/l TM149/PM30
Ethion <0.01 <0.01 ug/l TM149/PM30
Ethyl Parathion (Parathion) <0.01 <0.01 ug/l TM149/PM30
Fenitrothion <0.01 <0.01 ug/l TM149/PM30
Malathion <0.01 <0.01 ug/l TM149/PM30
Methyl Parathion <0.01 <0.01 ug/l TM149/PM30
Mevinphos <0.01 <0.01 ug/l TM149/PM30
Total Phenols HPLC <0.15 <0.15 mg/l TM26/PM0
Sulphate as SO4 # 661.2 <0.5 mg/l TM38/PM0
Chloride # 333.1 <0.3 mg/l TM38/PM0
Total Oxidised Nitrogen as N # <0.2 <0.2 mg/l TM38/PM0
Ammoniacal Nitrogen as N # 7.14 <0.03 mg/l TM38/PM0
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.5
QF-PM 3.1.2 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 2 of 11
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EPA Export 22-02-2021:06:51:36
Client Name: Report : Liquid
Reference:
Location:
Contact: Liquids/products: V=40ml vial, G=glass bottle, P=plastic bottle
EMT Job No: 20/7118 H=H2SO4, Z=ZnAc, N=NaOH, HN=HN03
EMT Sample No. 1-8
Sample IDLEACHATE
TESTING
NO.5
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
COD (Settled) # 92 <7 mg/l TM57/PM0
Dissolved Organic Carbon # 32 <2 mg/l TM60/PM0
Electrical Conductivity @25C # 2534 <2 uS/cm TM76/PM0
pH # 10.54 <0.01 pH units TM73/PM0
Total Organic Carbon # 32 <2 mg/l TM60/PM0
True Colour 45 <15 PCU TM35/PM0
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.5
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
QF-PM 3.1.2 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 3 of 11
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EPA Export 22-02-2021:06:51:36
Client Name: SVOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7118
EMT Sample No. 1-8
Sample IDLEACHATE
TESTING
NO.5
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
SVOC MS
Phenols
2-Chlorophenol # <1 <1 ug/l TM16/PM30
2-Methylphenol # <0.5 <0.5 ug/l TM16/PM30
2-Nitrophenol <0.5 <0.5 ug/l TM16/PM30
2,4-Dichlorophenol # <0.5 <0.5 ug/l TM16/PM30
2,4-Dimethylphenol <1 <1 ug/l TM16/PM30
2,4,5-Trichlorophenol # <0.5 <0.5 ug/l TM16/PM30
2,4,6-Trichlorophenol <1 <1 ug/l TM16/PM30
4-Chloro-3-methylphenol # <0.5 <0.5 ug/l TM16/PM30
4-Methylphenol <1 <1 ug/l TM16/PM30
4-Nitrophenol <10 <10 ug/l TM16/PM30
Pentachlorophenol <1 <1 ug/l TM16/PM30
Phenol <1 <1 ug/l TM16/PM30
PAHs
2-Chloronaphthalene # <1 <1 ug/l TM16/PM30
2-Methylnaphthalene # <1 <1 ug/l TM16/PM30
Naphthalene # <1 <1 ug/l TM16/PM30
Acenaphthylene # <0.5 <0.5 ug/l TM16/PM30
Acenaphthene # <1 <1 ug/l TM16/PM30
Fluorene # <0.5 <0.5 ug/l TM16/PM30
Phenanthrene # <0.5 <0.5 ug/l TM16/PM30
Anthracene # <0.5 <0.5 ug/l TM16/PM30
Fluoranthene # <0.5 <0.5 ug/l TM16/PM30
Pyrene # <0.5 <0.5 ug/l TM16/PM30
Benzo(a)anthracene # <0.5 <0.5 ug/l TM16/PM30
Chrysene # <0.5 <0.5 ug/l TM16/PM30
Benzo(bk)fluoranthene # <1 <1 ug/l TM16/PM30
Benzo(a)pyrene <1 <1 ug/l TM16/PM30
Indeno(123cd)pyrene <1 <1 ug/l TM16/PM30
Dibenzo(ah)anthracene # <0.5 <0.5 ug/l TM16/PM30
Benzo(ghi)perylene # <0.5 <0.5 ug/l TM16/PM30
Phthalates
Bis(2-ethylhexyl) phthalate 8 <5 ug/l TM16/PM30
Butylbenzyl phthalate <1 <1 ug/l TM16/PM30
Di-n-butyl phthalate # <1.5 <1.5 ug/l TM16/PM30
Di-n-Octyl phthalate <1 <1 ug/l TM16/PM30
Diethyl phthalate # <1 <1 ug/l TM16/PM30
Dimethyl phthalate <1 <1 ug/l TM16/PM30
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.5
QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 4 of 11
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EPA Export 22-02-2021:06:51:37
Client Name: SVOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7118
EMT Sample No. 1-8
Sample IDLEACHATE
TESTING
NO.5
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
SVOC MS
Other SVOCs
1,2-Dichlorobenzene # <1 <1 ug/l TM16/PM30
1,2,4-Trichlorobenzene # <1 <1 ug/l TM16/PM30
1,3-Dichlorobenzene # <1 <1 ug/l TM16/PM30
1,4-Dichlorobenzene # <1 <1 ug/l TM16/PM30
2-Nitroaniline <1 <1 ug/l TM16/PM30
2,4-Dinitrotoluene # <0.5 <0.5 ug/l TM16/PM30
2,6-Dinitrotoluene <1 <1 ug/l TM16/PM30
3-Nitroaniline <1 <1 ug/l TM16/PM30
4-Bromophenylphenylether # <1 <1 ug/l TM16/PM30
4-Chloroaniline <1 <1 ug/l TM16/PM30
4-Chlorophenylphenylether # <1 <1 ug/l TM16/PM30
4-Nitroaniline <0.5 <0.5 ug/l TM16/PM30
Azobenzene # <0.5 <0.5 ug/l TM16/PM30
Bis(2-chloroethoxy)methane # <0.5 <0.5 ug/l TM16/PM30
Bis(2-chloroethyl)ether # <1 <1 ug/l TM16/PM30
Carbazole # <0.5 <0.5 ug/l TM16/PM30
Dibenzofuran # <0.5 <0.5 ug/l TM16/PM30
Hexachlorobenzene # <1 <1 ug/l TM16/PM30
Hexachlorobutadiene # <1 <1 ug/l TM16/PM30
Hexachlorocyclopentadiene <1 <1 ug/l TM16/PM30
Hexachloroethane # <1 <1 ug/l TM16/PM30
Isophorone # <0.5 <0.5 ug/l TM16/PM30
N-nitrosodi-n-propylamine # <0.5 <0.5 ug/l TM16/PM30
Nitrobenzene # <1 <1 ug/l TM16/PM30
Surrogate Recovery 2-Fluorobiphenyl 86 <0 % TM16/PM30
Surrogate Recovery p-Terphenyl-d14 93 <0 % TM16/PM30
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.5
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 5 of 11
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EPA Export 22-02-2021:06:51:37
Client Name: VOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7118
EMT Sample No. 1-8
Sample IDLEACHATE
TESTING
NO.5
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
VOC MS
Dichlorodifluoromethane <2 <2 ug/l TM15/PM10
Methyl Tertiary Butyl Ether # <0.1 <0.1 ug/l TM15/PM10
Chloromethane # <3 <3 ug/l TM15/PM10
Vinyl Chloride # <0.1 <0.1 ug/l TM15/PM10
Bromomethane <1 <1 ug/l TM15/PM10
Chloroethane # <3 <3 ug/l TM15/PM10
Trichlorofluoromethane # <3 <3 ug/l TM15/PM10
1,1-Dichloroethene (1,1 DCE) # <3 <3 ug/l TM15/PM10
Dichloromethane (DCM) # <5 <5 ug/l TM15/PM10
trans-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10
1,1-Dichloroethane # <3 <3 ug/l TM15/PM10
cis-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10
2,2-Dichloropropane <1 <1 ug/l TM15/PM10
Bromochloromethane # <2 <2 ug/l TM15/PM10
Chloroform # <2 <2 ug/l TM15/PM10
1,1,1-Trichloroethane # <2 <2 ug/l TM15/PM10
1,1-Dichloropropene # <3 <3 ug/l TM15/PM10
Carbon tetrachloride # <2 <2 ug/l TM15/PM10
1,2-Dichloroethane # <2 <2 ug/l TM15/PM10
Benzene # <0.5 <0.5 ug/l TM15/PM10
Trichloroethene (TCE) # <3 <3 ug/l TM15/PM10
1,2-Dichloropropane # <2 <2 ug/l TM15/PM10
Dibromomethane # <3 <3 ug/l TM15/PM10
Bromodichloromethane # <2 <2 ug/l TM15/PM10
cis-1-3-Dichloropropene <2 <2 ug/l TM15/PM10
Toluene # <5 <5 ug/l TM15/PM10
trans-1-3-Dichloropropene <2 <2 ug/l TM15/PM10
1,1,2-Trichloroethane # <2 <2 ug/l TM15/PM10
Tetrachloroethene (PCE) # <3 <3 ug/l TM15/PM10
1,3-Dichloropropane # <2 <2 ug/l TM15/PM10
Dibromochloromethane # <2 <2 ug/l TM15/PM10
1,2-Dibromoethane # <2 <2 ug/l TM15/PM10
Chlorobenzene # <2 <2 ug/l TM15/PM10
1,1,1,2-Tetrachloroethane # <2 <2 ug/l TM15/PM10
Ethylbenzene # <1 <1 ug/l TM15/PM10
m/p-Xylene # <2 <2 ug/l TM15/PM10
o-Xylene # <1 <1 ug/l TM15/PM10
Styrene <2 <2 ug/l TM15/PM10
Bromoform # <2 <2 ug/l TM15/PM10
Isopropylbenzene # <3 <3 ug/l TM15/PM10
1,1,2,2-Tetrachloroethane <4 <4 ug/l TM15/PM10
Bromobenzene # <2 <2 ug/l TM15/PM10
1,2,3-Trichloropropane # <3 <3 ug/l TM15/PM10
Propylbenzene # <3 <3 ug/l TM15/PM10
2-Chlorotoluene # <3 <3 ug/l TM15/PM10
1,3,5-Trimethylbenzene # <3 <3 ug/l TM15/PM10
4-Chlorotoluene # <3 <3 ug/l TM15/PM10
tert-Butylbenzene # <3 <3 ug/l TM15/PM10
1,2,4-Trimethylbenzene # <3 <3 ug/l TM15/PM10
sec-Butylbenzene # <3 <3 ug/l TM15/PM10
4-Isopropyltoluene # <3 <3 ug/l TM15/PM10
1,3-Dichlorobenzene # <3 <3 ug/l TM15/PM10
1,4-Dichlorobenzene # <3 <3 ug/l TM15/PM10
n-Butylbenzene # <3 <3 ug/l TM15/PM10
1,2-Dichlorobenzene # <3 <3 ug/l TM15/PM10
1,2-Dibromo-3-chloropropane <2 <2 ug/l TM15/PM10
1,2,4-Trichlorobenzene <3 <3 ug/l TM15/PM10
Hexachlorobutadiene <3 <3 ug/l TM15/PM10
Naphthalene <2 <2 ug/l TM15/PM10
1,2,3-Trichlorobenzene <3 <3 ug/l TM15/PM10
Surrogate Recovery Toluene D8 100 <0 % TM15/PM10
Surrogate Recovery 4-Bromofluorobenzene 111 <0 % TM15/PM10
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.5
QF-PM 3.1.4 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 6 of 11
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Notification of Deviating Samples
EMT
Job
No.
Batch Depth
EMT
Sample
No.
Analysis Reason
Please note that only samples that are deviating are mentioned in this report. If no samples are listed it is because none were deviating.
Only analyses which are accredited are recorded as deviating if set criteria are not met.
Contact:
Sample ID
Client Name: IMS Integrated Material Solutions Limited Partnership
Reference:
Location:
No deviating sample report results for job 20/7118
Element Materials Technology
Leachate Testing No.5
Hollywood
Jason McGuirk
QF-PM 3.1.11 v3 Please include all sections of this report if it is reproduced 7 of 11
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EMT Job No.:
SOILS
DEVIATING SAMPLES
SURROGATES
DILUTIONS
BLANKS
NOTE
Data is only reported if the laboratory is confident that the data is a true reflection of the samples analysed. Data is only reported as accredited when
all the requirements of our Quality System have been met. In certain circumstances where all the requirements of the Quality System have not been
met, for instance if the associated AQC has failed, the reason is fully investigated and documented. The sample data is then evaluated alongside
the other quality control checks performed during analysis to determine its suitability. Following this evaluation, provided the sample results have not
been effected, the data is reported but accreditation is removed. It is a UKAS requirement for data not reported as accredited to be considered
indicative only, but this does not mean the data is not valid.
Where possible, and if requested, samples will be re-extracted and a revised report issued with accredited results. Please do not hesitate to contact
the laboratory if further details are required of the circumstances which have led to the removal of accreditation.
As surface waters require different sample preparation to groundwaters the laboratory must be informed of the water type when submitting samples.
Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.
All samples should be submitted to the laboratory in suitable containers with sufficient ice packs to sustain an appropriate temperature for the
requested analysis. The temperature of sample receipt is recorded on the confirmation schedules in order that the client can make an informed
decision as to whether testing should still be undertaken.
Surrogate compounds are added during the preparation process to monitor recovery of analytes. However low recovery in soils is often due to peat,
clay or other organic rich matrices. For waters this can be due to oxidants, surfactants, organic rich sediments or remediation fluids. Acceptable
limits for most organic methods are 70 - 130% and for VOCs are 50 - 150%. When surrogate recoveries are outside the performance criteria but
the associated AQC passes this is assumed to be due to matrix effect. Results are not surrogate corrected.
A dilution suffix indicates a dilution has been performed and the reported result takes this into account. No further calculation is required.
Where analytes have been found in the blank, the sample will be treated in accordance with our laboratory procedure for dealing with contaminated
blanks.
Sufficient amount of sample must be received to carry out the testing specified. Where an insufficient amount of sample has been received the
testing may not meet the requirements of our accredited methods, as such accreditation may be removed.
Negative Neutralization Potential (NP) values are obtained when the volume of NaOH (0.1N) titrated (pH 8.3) is greater than the volume of HCl (1N)
to reduce the pH of the sample to 2.0 - 2.5. Any negative NP values are corrected to 0.
The calculation of Pyrite content assumes that all oxidisable sulphides present in the sample are pyrite. This may not be the case. The calculation
may be an overesitimate when other sulphides such as Barite (Barium Sulphate) are present.
WATERS
Please note we are not a UK Drinking Water Inspectorate (DWI) Approved Laboratory .
ISO17025 accreditation applies to surface water and groundwater and usually one other matrix which is analysis specific, any other liquids are
outside our scope of accreditation.
If you have not already done so, please send us a purchase order if this is required by your company.
Where appropriate please make sure that our detection limits are suitable for your needs, if they are not, please notify us immediately.
All analysis is reported on a dry weight basis unless stated otherwise. Limits of detection for analyses carried out on as received samples are not
moisture content corrected. Results are not surrogate corrected. Samples are dried at 35°C ±5°C unless otherwise stated. Moisture content for
CEN Leachate tests are dried at 105°C ±5°C.
Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.
Where a CEN 10:1 ZERO Headspace VOC test has been carried out, a 10:1 ratio of water to wet (as received) soil has been used.
% Asbestos in Asbestos Containing Materials (ACMs) is determined by reference to HSG 264 The Survey Guide - Appendix 2 : ACMs in buildings
listed in order of ease of fibre release.
NOTES TO ACCOMPANY ALL SCHEDULES AND REPORTS
20/7118
Please note we are only MCERTS accredited (UK soils only) for sand, loam and clay and any other matrix is outside our scope of accreditation.
Where an MCERTS report has been requested, you will be notified within 48 hours of any samples that have been identified as being outside our
MCERTS scope. As validation has been performed on clay, sand and loam, only samples that are predominantly these matrices, or combinations
of them will be within our MCERTS scope. If samples are not one of a combination of the above matrices they will not be marked as MCERTS
accredited.
It is assumed that you have taken representative samples on site and require analysis on a representative subsample. Stones will generally be
included unless we are requested to remove them.
All samples will be discarded one month after the date of reporting, unless we are instructed to the contrary.
QF-PM 3.1.9 v34Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 8 of 11
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EMT Job No.:
Measurement Uncertainty
#
SA
B
DR
M
NA
NAD
ND
NDP
SS
SV
W
+
>>
*
AD
CO
LOD/LOR
ME
NFD
BS
LB
N
TB
OC
AA x5 Dilution
Outside Calibration Range
Matrix Effect
No Fibres Detected
AQC Sample
Blank Sample
Client Sample
Trip Blank Sample
AQC failure, accreditation has been removed from this result, if appropriate, see 'Note' on previous page.
Results above calibration range, the result should be considered the minimum value. The actual result could be significantly
higher, this result is not accredited.
Analysis subcontracted to an Element Materials Technology approved laboratory.
Samples are dried at 35°C ±5°C
Suspected carry over
Limit of Detection (Limit of Reporting) in line with ISO 17025 and MCERTS
No Asbestos Detected.
None Detected (usually refers to VOC and/SVOC TICs).
No Determination Possible
Calibrated against a single substance
Surrogate recovery outside performance criteria. This may be due to a matrix effect.
Results expressed on as received basis.
ISO17025 (UKAS Ref No. 4225) accredited - UK.
ISO17025 (SANAS Ref No.T0729) accredited - South Africa
Indicates analyte found in associated method blank.
Dilution required.
MCERTS accredited.
Not applicable
20/7118
REPORTS FROM THE SOUTH AFRICA LABORATORY
Any method number not prefixed with SA has been undertaken in our UK laboratory unless reported as subcontracted.
Measurement uncertainty defines the range of values that could reasonably be attributed to the measured quantity. This range of values has not
been included within the reported results. Uncertainty expressed as a percentage can be provided upon request.
ABBREVIATIONS and ACRONYMS USED
QF-PM 3.1.9 v34Please include all sections of this report if it is reproduced
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EMT Job No: 20/7118
Test Method No. Description
Prep Method
No. (if
appropriate)
Description
ISO
17025
(UKAS/S
ANAS)
MCERTS
(UK soils
only)
Analysis done
on As Received
(AR) or Dried
(AD)
Reported on
dry weight
basis
TM15Modified USEPA 8260B v2:1996. Quantitative Determination of Volatile Organic
Compounds (VOCs) by Headspace GC-MS.PM10
Modified US EPA method 5021A v2:2014. Preparation of solid and liquid samples for GC
headspace analysis.
TM15Modified USEPA 8260B v2:1996. Quantitative Determination of Volatile Organic
Compounds (VOCs) by Headspace GC-MS.PM10
Modified US EPA method 5021A v2:2014. Preparation of solid and liquid samples for GC
headspace analysis. Yes
TM16Modified USEPA 8270D v5:2014. Quantitative determination of Semi-Volatile Organic
compounds (SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex.
TM16Modified USEPA 8270D v5:2014. Quantitative determination of Semi-Volatile Organic
compounds (SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex. Yes
TM26Determination of phenols by Reversed Phased High Performance Liquid
Chromatography and Electro-Chemical Detection.PM0 No preparation is required.
TM30
Determination of Trace Metals by ICP-OES (Inductively Coupled Plasma – Optical
Emission Spectrometry): WATERS by Modified USEPA Method 200.7, Rev. 4.4, 1994;
Modified EPA Method 6010B, Rev.2, Dec 1996; Modified BS EN ISO 11885:2009:
SOILS by Modified USEP
PM14Preparation of waters and leachates for metals by ICP OES/ICP MS. Samples are filtered
for Dissolved metals, and remain unfiltered for Total metals then acidifiedYes
TM35
True and apparent colour by Hach Lange DR3800 spectrophotometer. Apparent colour
includes dissolved and suspended matter. True colour is determinined after filtration of
the sample.
PM0 No preparation is required.
TM38
Soluble Ion analysis using Discrete Analyser. Modified US EPA methods: Chloride 325.2
(1978), Sulphate 375.4 (Rev.2 1993), o-Phosphate 365.2 (Rev.2 1993), TON 353.1
(Rev.2 1993), Nitrite 354.1 (1971), Hex Cr 7196A (1992), NH4+ 350.1 (Rev.2 1993
(comparabl
PM0 No preparation is required. Yes
TM57
Modified US EPA Method 410.4. (Rev. 2.0 1993) Comparable with ISO 15705:2002.
Chemical Oxygen Demand is determined by hot digestion with Potassium Dichromate
and measured spectrophotometerically.
PM0 No preparation is required. Yes
TM60
TC/TOC analysis of Waters by High Temperature Combustion followed by NDIR
detection. Based on the following modified standard methods: USEPA 9060A (2002),
APHA SMEWW 5310B:1999 22nd Edition, ASTM D 7573, and USEPA 415.1.
PM0 No preparation is required. Yes
Element Materials Technology Method Code Appendix
QF-PM 3.1.10 v14 Please include all sections of this report if it is reproduced 10 of 11
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EMT Job No: 20/7118
Test Method No. Description
Prep Method
No. (if
appropriate)
Description
ISO
17025
(UKAS/S
ANAS)
MCERTS
(UK soils
only)
Analysis done
on As Received
(AR) or Dried
(AD)
Reported on
dry weight
basis
TM73Modified US EPA methods 150.1 (1982) and 9045D Rev. 4 - 2004) and BS1377-
3:1990. Determination of pH by Metrohm automated probe analyser.PM0 No preparation is required. Yes
TM76Modified US EPA method 120.1 (1982). Determination of Specific Conductance by
Metrohm automated probe analyser.PM0 No preparation is required. Yes
TM129 Odour of samples PM0 No preparation is required. AR
TM149Determination of Pesticides by Large Volume Injection on GC Triple Quad MS, based
upon USEPA method 8270D v5:2014PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex.
Element Materials Technology Method Code Appendix
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Element Materials Technology P: +44 (0) 1244 833780
Unit 3 Deeside Point F: +44 (0) 1244 833781
Zone 3
Deeside Industrial Park W: www.element.com
Deeside
CH5 2UA
IMS Integrated Material Solutions Limited Partnership
Attention :
Date :
Your reference :
Our reference :
Location :
Date samples received :
Status :
Issue :
Phil Sommerton BSc
Please include all sections of this report if it is reproduced
Nags Head
Hollywood
Naul
Co Dublin
Ireland
Jason McGuirk
12th June, 2020
Leachate Testing No.6
Test Report 20/7119 Batch 1
Hollywood
5th June, 2020
Final report
Senior Project Manager
1
One sample was received for analysis on 5th June, 2020 of which one were scheduled for analysis. Please find attached our Test Report which
should be read with notes at the end of the report and should include all sections if reproduced. Interpretations and opinions are outside the scope of
any accreditation, and all results relate only to samples supplied.
All analysis is carried out on as received samples and reported on a dry weight basis unless stated otherwise. Results are not surrogate corrected.
Authorised By:
Element Materials Technology Environmental UK Limited
Registered in England and Wales
Registered Office: 10 Lower Grosvenor Place, London, SW1W 0EN
Company Registration No: 11371415 1 of 11
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Client Name: Report : Liquid
Reference:
Location:
Contact: Liquids/products: V=40ml vial, G=glass bottle, P=plastic bottle
EMT Job No: 20/7119 H=H2SO4, Z=ZnAc, N=NaOH, HN=HN03
EMT Sample No. 1-8
Sample IDIMS
LEACHATE
N0.6
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
Odour Absent None TM129/PM0
Odour Type none None TM129/PM0
Dissolved Potassium # 38.8 <0.1 mg/l TM30/PM14
Dissolved Sodium # 190.6 <0.1 mg/l TM30/PM14
Pesticides
Organochlorine Pesticides
Aldrin <0.01 <0.01 ug/l TM149/PM30
Alpha-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Beta-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Delta-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Dieldrin <0.01 <0.01 ug/l TM149/PM30
Endosulphan I <0.01 <0.01 ug/l TM149/PM30
Endosulphan II <0.01 <0.01 ug/l TM149/PM30
Endosulphan sulphate <0.01 <0.01 ug/l TM149/PM30
Endrin <0.01 <0.01 ug/l TM149/PM30
Gamma-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Heptachlor <0.01 <0.01 ug/l TM149/PM30
Heptachlor Epoxide <0.01 <0.01 ug/l TM149/PM30
o,p'-Methoxychlor <0.01 <0.01 ug/l TM149/PM30
p,p'-DDE <0.01 <0.01 ug/l TM149/PM30
p,p'-DDT <0.01 <0.01 ug/l TM149/PM30
p,p'-Methoxychlor <0.01 <0.01 ug/l TM149/PM30
p,p'-TDE <0.01 <0.01 ug/l TM149/PM30
Organophosphorus Pesticides
Azinphos methyl <0.01 <0.01 ug/l TM149/PM30
Diazinon <0.01 <0.01 ug/l TM149/PM30
Dichlorvos <0.01 <0.01 ug/l TM149/PM30
Disulfoton <0.01 <0.01 ug/l TM149/PM30
Ethion <0.01 <0.01 ug/l TM149/PM30
Ethyl Parathion (Parathion) <0.01 <0.01 ug/l TM149/PM30
Fenitrothion <0.01 <0.01 ug/l TM149/PM30
Malathion <0.01 <0.01 ug/l TM149/PM30
Methyl Parathion <0.01 <0.01 ug/l TM149/PM30
Mevinphos <0.01 <0.01 ug/l TM149/PM30
Total Phenols HPLC <0.15 <0.15 mg/l TM26/PM0
Sulphate as SO4 # 502.9 <0.5 mg/l TM38/PM0
Chloride # 285.5 <0.3 mg/l TM38/PM0
Total Oxidised Nitrogen as N # 0.4 <0.2 mg/l TM38/PM0
Ammoniacal Nitrogen as N # 8.90 <0.03 mg/l TM38/PM0
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.6
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
QF-PM 3.1.2 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 2 of 11
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EPA Export 22-02-2021:06:51:37
Client Name: Report : Liquid
Reference:
Location:
Contact: Liquids/products: V=40ml vial, G=glass bottle, P=plastic bottle
EMT Job No: 20/7119 H=H2SO4, Z=ZnAc, N=NaOH, HN=HN03
EMT Sample No. 1-8
Sample IDIMS
LEACHATE
N0.6
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
COD (Settled) # 88 <7 mg/l TM57/PM0
Dissolved Organic Carbon # 29 <2 mg/l TM60/PM0
Electrical Conductivity @25C # 2132 <2 uS/cm TM76/PM0
pH # 10.83 <0.01 pH units TM73/PM0
Total Organic Carbon # 30 <2 mg/l TM60/PM0
True Colour 44 <15 PCU TM35/PM0
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.6
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
QF-PM 3.1.2 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 3 of 11
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EPA Export 22-02-2021:06:51:37
Client Name: SVOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7119
EMT Sample No. 1-8
Sample IDIMS
LEACHATE
N0.6
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
SVOC MS
Phenols
2-Chlorophenol # <1 <1 ug/l TM16/PM30
2-Methylphenol # <0.5 <0.5 ug/l TM16/PM30
2-Nitrophenol <0.5 <0.5 ug/l TM16/PM30
2,4-Dichlorophenol # <0.5 <0.5 ug/l TM16/PM30
2,4-Dimethylphenol <1 <1 ug/l TM16/PM30
2,4,5-Trichlorophenol # <0.5 <0.5 ug/l TM16/PM30
2,4,6-Trichlorophenol <1 <1 ug/l TM16/PM30
4-Chloro-3-methylphenol # <0.5 <0.5 ug/l TM16/PM30
4-Methylphenol <1 <1 ug/l TM16/PM30
4-Nitrophenol <10 <10 ug/l TM16/PM30
Pentachlorophenol <1 <1 ug/l TM16/PM30
Phenol <1 <1 ug/l TM16/PM30
PAHs
2-Chloronaphthalene # <1 <1 ug/l TM16/PM30
2-Methylnaphthalene # <1 <1 ug/l TM16/PM30
Naphthalene # 1 <1 ug/l TM16/PM30
Acenaphthylene # <0.5 <0.5 ug/l TM16/PM30
Acenaphthene # <1 <1 ug/l TM16/PM30
Fluorene # <0.5 <0.5 ug/l TM16/PM30
Phenanthrene # <0.5 <0.5 ug/l TM16/PM30
Anthracene # <0.5 <0.5 ug/l TM16/PM30
Fluoranthene # <0.5 <0.5 ug/l TM16/PM30
Pyrene # <0.5 <0.5 ug/l TM16/PM30
Benzo(a)anthracene # <0.5 <0.5 ug/l TM16/PM30
Chrysene # <0.5 <0.5 ug/l TM16/PM30
Benzo(bk)fluoranthene # <1 <1 ug/l TM16/PM30
Benzo(a)pyrene <1 <1 ug/l TM16/PM30
Indeno(123cd)pyrene <1 <1 ug/l TM16/PM30
Dibenzo(ah)anthracene # <0.5 <0.5 ug/l TM16/PM30
Benzo(ghi)perylene # <0.5 <0.5 ug/l TM16/PM30
Phthalates
Bis(2-ethylhexyl) phthalate 14 <5 ug/l TM16/PM30
Butylbenzyl phthalate <1 <1 ug/l TM16/PM30
Di-n-butyl phthalate # <1.5 <1.5 ug/l TM16/PM30
Di-n-Octyl phthalate <1 <1 ug/l TM16/PM30
Diethyl phthalate # <1 <1 ug/l TM16/PM30
Dimethyl phthalate <1 <1 ug/l TM16/PM30
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.6
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 4 of 11
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EPA Export 22-02-2021:06:51:37
Client Name: SVOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7119
EMT Sample No. 1-8
Sample IDIMS
LEACHATE
N0.6
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
SVOC MS
Other SVOCs
1,2-Dichlorobenzene # <1 <1 ug/l TM16/PM30
1,2,4-Trichlorobenzene # <1 <1 ug/l TM16/PM30
1,3-Dichlorobenzene # <1 <1 ug/l TM16/PM30
1,4-Dichlorobenzene # <1 <1 ug/l TM16/PM30
2-Nitroaniline <1 <1 ug/l TM16/PM30
2,4-Dinitrotoluene # <0.5 <0.5 ug/l TM16/PM30
2,6-Dinitrotoluene <1 <1 ug/l TM16/PM30
3-Nitroaniline <1 <1 ug/l TM16/PM30
4-Bromophenylphenylether # <1 <1 ug/l TM16/PM30
4-Chloroaniline <1 <1 ug/l TM16/PM30
4-Chlorophenylphenylether # <1 <1 ug/l TM16/PM30
4-Nitroaniline <0.5 <0.5 ug/l TM16/PM30
Azobenzene # <0.5 <0.5 ug/l TM16/PM30
Bis(2-chloroethoxy)methane # <0.5 <0.5 ug/l TM16/PM30
Bis(2-chloroethyl)ether # <1 <1 ug/l TM16/PM30
Carbazole # <0.5 <0.5 ug/l TM16/PM30
Dibenzofuran # <0.5 <0.5 ug/l TM16/PM30
Hexachlorobenzene # <1 <1 ug/l TM16/PM30
Hexachlorobutadiene # <1 <1 ug/l TM16/PM30
Hexachlorocyclopentadiene <1 <1 ug/l TM16/PM30
Hexachloroethane # <1 <1 ug/l TM16/PM30
Isophorone # <0.5 <0.5 ug/l TM16/PM30
N-nitrosodi-n-propylamine # <0.5 <0.5 ug/l TM16/PM30
Nitrobenzene # <1 <1 ug/l TM16/PM30
Surrogate Recovery 2-Fluorobiphenyl 94 <0 % TM16/PM30
Surrogate Recovery p-Terphenyl-d14 97 <0 % TM16/PM30
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.6
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 5 of 11
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EPA Export 22-02-2021:06:51:37
Client Name: VOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7119
EMT Sample No. 1-8
Sample IDIMS
LEACHATE
N0.6
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
VOC MS
Dichlorodifluoromethane <2 <2 ug/l TM15/PM10
Methyl Tertiary Butyl Ether # <0.1 <0.1 ug/l TM15/PM10
Chloromethane # <3 <3 ug/l TM15/PM10
Vinyl Chloride # <0.1 <0.1 ug/l TM15/PM10
Bromomethane <1 <1 ug/l TM15/PM10
Chloroethane # <3 <3 ug/l TM15/PM10
Trichlorofluoromethane # <3 <3 ug/l TM15/PM10
1,1-Dichloroethene (1,1 DCE) # <3 <3 ug/l TM15/PM10
Dichloromethane (DCM) # <5 <5 ug/l TM15/PM10
trans-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10
1,1-Dichloroethane # <3 <3 ug/l TM15/PM10
cis-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10
2,2-Dichloropropane <1 <1 ug/l TM15/PM10
Bromochloromethane # <2 <2 ug/l TM15/PM10
Chloroform # <2 <2 ug/l TM15/PM10
1,1,1-Trichloroethane # <2 <2 ug/l TM15/PM10
1,1-Dichloropropene # <3 <3 ug/l TM15/PM10
Carbon tetrachloride # <2 <2 ug/l TM15/PM10
1,2-Dichloroethane # <2 <2 ug/l TM15/PM10
Benzene # <0.5 <0.5 ug/l TM15/PM10
Trichloroethene (TCE) # <3 <3 ug/l TM15/PM10
1,2-Dichloropropane # <2 <2 ug/l TM15/PM10
Dibromomethane # <3 <3 ug/l TM15/PM10
Bromodichloromethane # <2 <2 ug/l TM15/PM10
cis-1-3-Dichloropropene <2 <2 ug/l TM15/PM10
Toluene # <5 <5 ug/l TM15/PM10
trans-1-3-Dichloropropene <2 <2 ug/l TM15/PM10
1,1,2-Trichloroethane # <2 <2 ug/l TM15/PM10
Tetrachloroethene (PCE) # <3 <3 ug/l TM15/PM10
1,3-Dichloropropane # <2 <2 ug/l TM15/PM10
Dibromochloromethane # <2 <2 ug/l TM15/PM10
1,2-Dibromoethane # <2 <2 ug/l TM15/PM10
Chlorobenzene # <2 <2 ug/l TM15/PM10
1,1,1,2-Tetrachloroethane # <2 <2 ug/l TM15/PM10
Ethylbenzene # <1 <1 ug/l TM15/PM10
m/p-Xylene # <2 <2 ug/l TM15/PM10
o-Xylene # <1 <1 ug/l TM15/PM10
Styrene <2 <2 ug/l TM15/PM10
Bromoform # <2 <2 ug/l TM15/PM10
Isopropylbenzene # <3 <3 ug/l TM15/PM10
1,1,2,2-Tetrachloroethane <4 <4 ug/l TM15/PM10
Bromobenzene # <2 <2 ug/l TM15/PM10
1,2,3-Trichloropropane # <3 <3 ug/l TM15/PM10
Propylbenzene # <3 <3 ug/l TM15/PM10
2-Chlorotoluene # <3 <3 ug/l TM15/PM10
1,3,5-Trimethylbenzene # <3 <3 ug/l TM15/PM10
4-Chlorotoluene # <3 <3 ug/l TM15/PM10
tert-Butylbenzene # <3 <3 ug/l TM15/PM10
1,2,4-Trimethylbenzene # <3 <3 ug/l TM15/PM10
sec-Butylbenzene # <3 <3 ug/l TM15/PM10
4-Isopropyltoluene # <3 <3 ug/l TM15/PM10
1,3-Dichlorobenzene # <3 <3 ug/l TM15/PM10
1,4-Dichlorobenzene # <3 <3 ug/l TM15/PM10
n-Butylbenzene # <3 <3 ug/l TM15/PM10
1,2-Dichlorobenzene # <3 <3 ug/l TM15/PM10
1,2-Dibromo-3-chloropropane <2 <2 ug/l TM15/PM10
1,2,4-Trichlorobenzene <3 <3 ug/l TM15/PM10
Hexachlorobutadiene <3 <3 ug/l TM15/PM10
1,2,3-Trichlorobenzene <3 <3 ug/l TM15/PM10
Surrogate Recovery Toluene D8 102 <0 % TM15/PM10
Surrogate Recovery 4-Bromofluorobenzene 113 <0 % TM15/PM10
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.6
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
QF-PM 3.1.4 v11Please include all sections of this report if it is reproduced
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Notification of Deviating Samples
EMT
Job
No.
Batch Depth
EMT
Sample
No.
Analysis Reason
Please note that only samples that are deviating are mentioned in this report. If no samples are listed it is because none were deviating.
Only analyses which are accredited are recorded as deviating if set criteria are not met.
Element Materials Technology
Leachate Testing No.6
Hollywood
Jason McGuirkContact:
Sample ID
Client Name: IMS Integrated Material Solutions Limited Partnership
Reference:
Location:
No deviating sample report results for job 20/7119
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EMT Job No.:
SOILS
DEVIATING SAMPLES
SURROGATES
DILUTIONS
BLANKS
NOTE
% Asbestos in Asbestos Containing Materials (ACMs) is determined by reference to HSG 264 The Survey Guide - Appendix 2 : ACMs in buildings
listed in order of ease of fibre release.
NOTES TO ACCOMPANY ALL SCHEDULES AND REPORTS
20/7119
Please note we are only MCERTS accredited (UK soils only) for sand, loam and clay and any other matrix is outside our scope of accreditation.
Where an MCERTS report has been requested, you will be notified within 48 hours of any samples that have been identified as being outside our
MCERTS scope. As validation has been performed on clay, sand and loam, only samples that are predominantly these matrices, or combinations
of them will be within our MCERTS scope. If samples are not one of a combination of the above matrices they will not be marked as MCERTS
accredited.
It is assumed that you have taken representative samples on site and require analysis on a representative subsample. Stones will generally be
included unless we are requested to remove them.
All samples will be discarded one month after the date of reporting, unless we are instructed to the contrary.
If you have not already done so, please send us a purchase order if this is required by your company.
Where appropriate please make sure that our detection limits are suitable for your needs, if they are not, please notify us immediately.
All analysis is reported on a dry weight basis unless stated otherwise. Limits of detection for analyses carried out on as received samples are not
moisture content corrected. Results are not surrogate corrected. Samples are dried at 35°C ±5°C unless otherwise stated. Moisture content for
CEN Leachate tests are dried at 105°C ±5°C.
Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.
Where a CEN 10:1 ZERO Headspace VOC test has been carried out, a 10:1 ratio of water to wet (as received) soil has been used.
Where analytes have been found in the blank, the sample will be treated in accordance with our laboratory procedure for dealing with contaminated
blanks.
Sufficient amount of sample must be received to carry out the testing specified. Where an insufficient amount of sample has been received the
testing may not meet the requirements of our accredited methods, as such accreditation may be removed.
Negative Neutralization Potential (NP) values are obtained when the volume of NaOH (0.1N) titrated (pH 8.3) is greater than the volume of HCl (1N)
to reduce the pH of the sample to 2.0 - 2.5. Any negative NP values are corrected to 0.
The calculation of Pyrite content assumes that all oxidisable sulphides present in the sample are pyrite. This may not be the case. The calculation
may be an overesitimate when other sulphides such as Barite (Barium Sulphate) are present.
WATERS
Please note we are not a UK Drinking Water Inspectorate (DWI) Approved Laboratory .
ISO17025 accreditation applies to surface water and groundwater and usually one other matrix which is analysis specific, any other liquids are
outside our scope of accreditation.
As surface waters require different sample preparation to groundwaters the laboratory must be informed of the water type when submitting samples.
Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.
All samples should be submitted to the laboratory in suitable containers with sufficient ice packs to sustain an appropriate temperature for the
requested analysis. The temperature of sample receipt is recorded on the confirmation schedules in order that the client can make an informed
decision as to whether testing should still be undertaken.
Surrogate compounds are added during the preparation process to monitor recovery of analytes. However low recovery in soils is often due to peat,
clay or other organic rich matrices. For waters this can be due to oxidants, surfactants, organic rich sediments or remediation fluids. Acceptable
limits for most organic methods are 70 - 130% and for VOCs are 50 - 150%. When surrogate recoveries are outside the performance criteria but
the associated AQC passes this is assumed to be due to matrix effect. Results are not surrogate corrected.
A dilution suffix indicates a dilution has been performed and the reported result takes this into account. No further calculation is required.
Data is only reported if the laboratory is confident that the data is a true reflection of the samples analysed. Data is only reported as accredited when
all the requirements of our Quality System have been met. In certain circumstances where all the requirements of the Quality System have not been
met, for instance if the associated AQC has failed, the reason is fully investigated and documented. The sample data is then evaluated alongside
the other quality control checks performed during analysis to determine its suitability. Following this evaluation, provided the sample results have not
been effected, the data is reported but accreditation is removed. It is a UKAS requirement for data not reported as accredited to be considered
indicative only, but this does not mean the data is not valid.
Where possible, and if requested, samples will be re-extracted and a revised report issued with accredited results. Please do not hesitate to contact
the laboratory if further details are required of the circumstances which have led to the removal of accreditation.
QF-PM 3.1.9 v34Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 8 of 11
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EMT Job No.:
Measurement Uncertainty
#
SA
B
DR
M
NA
NAD
ND
NDP
SS
SV
W
+
>>
*
AD
CO
LOD/LOR
ME
NFD
BS
LB
N
TB
OC
Not applicable
20/7119
REPORTS FROM THE SOUTH AFRICA LABORATORY
Any method number not prefixed with SA has been undertaken in our UK laboratory unless reported as subcontracted.
Measurement uncertainty defines the range of values that could reasonably be attributed to the measured quantity. This range of values has not
been included within the reported results. Uncertainty expressed as a percentage can be provided upon request.
ABBREVIATIONS and ACRONYMS USED
ISO17025 (UKAS Ref No. 4225) accredited - UK.
ISO17025 (SANAS Ref No.T0729) accredited - South Africa
Indicates analyte found in associated method blank.
Dilution required.
MCERTS accredited.
Limit of Detection (Limit of Reporting) in line with ISO 17025 and MCERTS
No Asbestos Detected.
None Detected (usually refers to VOC and/SVOC TICs).
No Determination Possible
Calibrated against a single substance
Surrogate recovery outside performance criteria. This may be due to a matrix effect.
Results expressed on as received basis.
AQC failure, accreditation has been removed from this result, if appropriate, see 'Note' on previous page.
Results above calibration range, the result should be considered the minimum value. The actual result could be significantly
higher, this result is not accredited.
Analysis subcontracted to an Element Materials Technology approved laboratory.
Samples are dried at 35°C ±5°C
Suspected carry over
Outside Calibration Range
Matrix Effect
No Fibres Detected
AQC Sample
Blank Sample
Client Sample
Trip Blank Sample
QF-PM 3.1.9 v34Please include all sections of this report if it is reproduced
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EMT Job No: 20/7119
Test Method No. Description
Prep Method
No. (if
appropriate)
Description
ISO
17025
(UKAS/S
ANAS)
MCERTS
(UK soils
only)
Analysis done
on As Received
(AR) or Dried
(AD)
Reported on
dry weight
basis
TM15Modified USEPA 8260B v2:1996. Quantitative Determination of Volatile Organic
Compounds (VOCs) by Headspace GC-MS.PM10
Modified US EPA method 5021A v2:2014. Preparation of solid and liquid samples for GC
headspace analysis.
TM15Modified USEPA 8260B v2:1996. Quantitative Determination of Volatile Organic
Compounds (VOCs) by Headspace GC-MS.PM10
Modified US EPA method 5021A v2:2014. Preparation of solid and liquid samples for GC
headspace analysis. Yes
TM16Modified USEPA 8270D v5:2014. Quantitative determination of Semi-Volatile Organic
compounds (SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex.
TM16Modified USEPA 8270D v5:2014. Quantitative determination of Semi-Volatile Organic
compounds (SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex. Yes
TM26Determination of phenols by Reversed Phased High Performance Liquid
Chromatography and Electro-Chemical Detection.PM0 No preparation is required.
TM30
Determination of Trace Metals by ICP-OES (Inductively Coupled Plasma – Optical
Emission Spectrometry): WATERS by Modified USEPA Method 200.7, Rev. 4.4, 1994;
Modified EPA Method 6010B, Rev.2, Dec 1996; Modified BS EN ISO 11885:2009:
SOILS by Modified USEP
PM14Preparation of waters and leachates for metals by ICP OES/ICP MS. Samples are filtered
for Dissolved metals, and remain unfiltered for Total metals then acidifiedYes
TM35
True and apparent colour by Hach Lange DR3800 spectrophotometer. Apparent colour
includes dissolved and suspended matter. True colour is determinined after filtration of
the sample.
PM0 No preparation is required.
TM38
Soluble Ion analysis using Discrete Analyser. Modified US EPA methods: Chloride 325.2
(1978), Sulphate 375.4 (Rev.2 1993), o-Phosphate 365.2 (Rev.2 1993), TON 353.1
(Rev.2 1993), Nitrite 354.1 (1971), Hex Cr 7196A (1992), NH4+ 350.1 (Rev.2 1993
(comparabl
PM0 No preparation is required. Yes
TM57
Modified US EPA Method 410.4. (Rev. 2.0 1993) Comparable with ISO 15705:2002.
Chemical Oxygen Demand is determined by hot digestion with Potassium Dichromate
and measured spectrophotometerically.
PM0 No preparation is required. Yes
TM60
TC/TOC analysis of Waters by High Temperature Combustion followed by NDIR
detection. Based on the following modified standard methods: USEPA 9060A (2002),
APHA SMEWW 5310B:1999 22nd Edition, ASTM D 7573, and USEPA 415.1.
PM0 No preparation is required. Yes
Element Materials Technology Method Code Appendix
QF-PM 3.1.10 v14 Please include all sections of this report if it is reproduced 10 of 11
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EMT Job No: 20/7119
Test Method No. Description
Prep Method
No. (if
appropriate)
Description
ISO
17025
(UKAS/S
ANAS)
MCERTS
(UK soils
only)
Analysis done
on As Received
(AR) or Dried
(AD)
Reported on
dry weight
basis
TM73Modified US EPA methods 150.1 (1982) and 9045D Rev. 4 - 2004) and BS1377-
3:1990. Determination of pH by Metrohm automated probe analyser.PM0 No preparation is required. Yes
TM76Modified US EPA method 120.1 (1982). Determination of Specific Conductance by
Metrohm automated probe analyser.PM0 No preparation is required. Yes
TM129 Odour of samples PM0 No preparation is required. AR
TM149Determination of Pesticides by Large Volume Injection on GC Triple Quad MS, based
upon USEPA method 8270D v5:2014PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex.
Element Materials Technology Method Code Appendix
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EPA Export 22-02-2021:06:51:37
Element Materials Technology P: +44 (0) 1244 833780
Unit 3 Deeside Point F: +44 (0) 1244 833781
Zone 3
Deeside Industrial Park W: www.element.com
Deeside
CH5 2UA
IMS Integrated Material Solutions Limited Partnership
Attention :
Date :
Your reference :
Our reference :
Location :
Date samples received :
Status :
Issue :
Please include all sections of this report if it is reproduced
Nags Head
Hollywood
Naul
Co Dublin
Ireland
Jason McGuirk
12th June, 2020
Leachate Testing No.7
Test Report 20/7120 Batch 1
Hollywood
5th June, 2020
Final report
Project Manager
1
Two samples were received for analysis on 5th June, 2020 of which one was scheduled for analysis. Please find attached our Test Report which
should be read with notes at the end of the report and should include all sections if reproduced. Interpretations and opinions are outside the scope of
any accreditation, and all results relate only to samples supplied.
All analysis is carried out on as received samples and reported on a dry weight basis unless stated otherwise. Results are not surrogate corrected.
Authorised By:
Bruce Leslie
Element Materials Technology Environmental UK Limited
Registered in England and Wales
Registered Office: 10 Lower Grosvenor Place, London, SW1W 0EN
Company Registration No: 11371415 1 of 11
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Client Name: Report : Liquid
Reference:
Location:
Contact: Liquids/products: V=40ml vial, G=glass bottle, P=plastic bottle
EMT Job No: 20/7120 H=H2SO4, Z=ZnAc, N=NaOH, HN=HN03
EMT Sample No. 1-7
Sample IDLEACHATE
TESTING
NO.7
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
Odour Absent None TM129/PM0
Odour Type none None TM129/PM0
Dissolved Potassium # 67.8 <0.1 mg/l TM30/PM14
Dissolved Sodium # 317.0AA <0.1 mg/l TM30/PM14
Pesticides
Organochlorine Pesticides
Aldrin <0.01 <0.01 ug/l TM149/PM30
Alpha-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Beta-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Delta-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Dieldrin <0.01 <0.01 ug/l TM149/PM30
Endosulphan I <0.01 <0.01 ug/l TM149/PM30
Endosulphan II <0.01 <0.01 ug/l TM149/PM30
Endosulphan sulphate <0.01 <0.01 ug/l TM149/PM30
Endrin <0.01 <0.01 ug/l TM149/PM30
Gamma-HCH (BHC) <0.01 <0.01 ug/l TM149/PM30
Heptachlor <0.01 <0.01 ug/l TM149/PM30
Heptachlor Epoxide <0.01 <0.01 ug/l TM149/PM30
o,p'-Methoxychlor <0.01 <0.01 ug/l TM149/PM30
p,p'-DDE <0.01 <0.01 ug/l TM149/PM30
p,p'-DDT <0.01 <0.01 ug/l TM149/PM30
p,p'-Methoxychlor <0.01 <0.01 ug/l TM149/PM30
p,p'-TDE <0.01 <0.01 ug/l TM149/PM30
Organophosphorus Pesticides
Azinphos methyl <0.01 <0.01 ug/l TM149/PM30
Diazinon <0.01 <0.01 ug/l TM149/PM30
Dichlorvos <0.01 <0.01 ug/l TM149/PM30
Disulfoton <0.01 <0.01 ug/l TM149/PM30
Ethion <0.01 <0.01 ug/l TM149/PM30
Ethyl Parathion (Parathion) <0.01 <0.01 ug/l TM149/PM30
Fenitrothion <0.01 <0.01 ug/l TM149/PM30
Malathion <0.01 <0.01 ug/l TM149/PM30
Methyl Parathion <0.01 <0.01 ug/l TM149/PM30
Mevinphos <0.01 <0.01 ug/l TM149/PM30
Total Phenols HPLC <0.15 <0.15 mg/l TM26/PM0
Sulphate as SO4 # 270.6 <0.5 mg/l TM38/PM0
Chloride # 314.5 <0.3 mg/l TM38/PM0
Total Oxidised Nitrogen as N # <0.2 <0.2 mg/l TM38/PM0
Ammoniacal Nitrogen as N # 8.02 <0.03 mg/l TM38/PM0
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.7
QF-PM 3.1.2 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 2 of 11
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EPA Export 22-02-2021:06:51:37
Client Name: Report : Liquid
Reference:
Location:
Contact: Liquids/products: V=40ml vial, G=glass bottle, P=plastic bottle
EMT Job No: 20/7120 H=H2SO4, Z=ZnAc, N=NaOH, HN=HN03
EMT Sample No. 1-7
Sample IDLEACHATE
TESTING
NO.7
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
COD (Settled) # 74 <7 mg/l TM57/PM0
Dissolved Organic Carbon # 21 <2 mg/l TM60/PM0
Electrical Conductivity @25C # 2544 <2 uS/cm TM76/PM0
pH # 11.72 <0.01 pH units TM73/PM0
Total Organic Carbon # 21 <2 mg/l TM60/PM0
True Colour 24 <15 PCU TM35/PM0
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.7
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
QF-PM 3.1.2 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 3 of 11
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EPA Export 22-02-2021:06:51:37
Client Name: SVOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7120
EMT Sample No. 1-7
Sample IDLEACHATE
TESTING
NO.7
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
SVOC MS
Phenols
2-Chlorophenol # <1 <1 ug/l TM16/PM30
2-Methylphenol # <0.5 <0.5 ug/l TM16/PM30
2-Nitrophenol <0.5 <0.5 ug/l TM16/PM30
2,4-Dichlorophenol # <0.5 <0.5 ug/l TM16/PM30
2,4-Dimethylphenol <1 <1 ug/l TM16/PM30
2,4,5-Trichlorophenol # <0.5 <0.5 ug/l TM16/PM30
2,4,6-Trichlorophenol <1 <1 ug/l TM16/PM30
4-Chloro-3-methylphenol # <0.5 <0.5 ug/l TM16/PM30
4-Methylphenol <1 <1 ug/l TM16/PM30
4-Nitrophenol <10 <10 ug/l TM16/PM30
Pentachlorophenol <1 <1 ug/l TM16/PM30
Phenol <1 <1 ug/l TM16/PM30
PAHs
2-Chloronaphthalene # <1 <1 ug/l TM16/PM30
2-Methylnaphthalene # <1 <1 ug/l TM16/PM30
Naphthalene # 1 <1 ug/l TM16/PM30
Acenaphthylene # <0.5 <0.5 ug/l TM16/PM30
Acenaphthene # <1 <1 ug/l TM16/PM30
Fluorene # <0.5 <0.5 ug/l TM16/PM30
Phenanthrene # <0.5 <0.5 ug/l TM16/PM30
Anthracene # <0.5 <0.5 ug/l TM16/PM30
Fluoranthene # <0.5 <0.5 ug/l TM16/PM30
Pyrene # <0.5 <0.5 ug/l TM16/PM30
Benzo(a)anthracene # <0.5 <0.5 ug/l TM16/PM30
Chrysene # <0.5 <0.5 ug/l TM16/PM30
Benzo(bk)fluoranthene # <1 <1 ug/l TM16/PM30
Benzo(a)pyrene <1 <1 ug/l TM16/PM30
Indeno(123cd)pyrene <1 <1 ug/l TM16/PM30
Dibenzo(ah)anthracene # <0.5 <0.5 ug/l TM16/PM30
Benzo(ghi)perylene # <0.5 <0.5 ug/l TM16/PM30
Phthalates
Bis(2-ethylhexyl) phthalate <5 <5 ug/l TM16/PM30
Butylbenzyl phthalate <1 <1 ug/l TM16/PM30
Di-n-butyl phthalate # <1.5 <1.5 ug/l TM16/PM30
Di-n-Octyl phthalate <1 <1 ug/l TM16/PM30
Diethyl phthalate # <1 <1 ug/l TM16/PM30
Dimethyl phthalate <1 <1 ug/l TM16/PM30
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.7
QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 4 of 11
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EPA Export 22-02-2021:06:51:37
Client Name: SVOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7120
EMT Sample No. 1-7
Sample IDLEACHATE
TESTING
NO.7
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
SVOC MS
Other SVOCs
1,2-Dichlorobenzene # <1 <1 ug/l TM16/PM30
1,2,4-Trichlorobenzene # <1 <1 ug/l TM16/PM30
1,3-Dichlorobenzene # <1 <1 ug/l TM16/PM30
1,4-Dichlorobenzene # <1 <1 ug/l TM16/PM30
2-Nitroaniline <1 <1 ug/l TM16/PM30
2,4-Dinitrotoluene # <0.5 <0.5 ug/l TM16/PM30
2,6-Dinitrotoluene <1 <1 ug/l TM16/PM30
3-Nitroaniline <1 <1 ug/l TM16/PM30
4-Bromophenylphenylether # <1 <1 ug/l TM16/PM30
4-Chloroaniline <1 <1 ug/l TM16/PM30
4-Chlorophenylphenylether # <1 <1 ug/l TM16/PM30
4-Nitroaniline <0.5 <0.5 ug/l TM16/PM30
Azobenzene # <0.5 <0.5 ug/l TM16/PM30
Bis(2-chloroethoxy)methane # <0.5 <0.5 ug/l TM16/PM30
Bis(2-chloroethyl)ether # <1 <1 ug/l TM16/PM30
Carbazole # <0.5 <0.5 ug/l TM16/PM30
Dibenzofuran # <0.5 <0.5 ug/l TM16/PM30
Hexachlorobenzene # <1 <1 ug/l TM16/PM30
Hexachlorobutadiene # <1 <1 ug/l TM16/PM30
Hexachlorocyclopentadiene <1 <1 ug/l TM16/PM30
Hexachloroethane # <1 <1 ug/l TM16/PM30
Isophorone # <0.5 <0.5 ug/l TM16/PM30
N-nitrosodi-n-propylamine # <0.5 <0.5 ug/l TM16/PM30
Nitrobenzene # <1 <1 ug/l TM16/PM30
Surrogate Recovery 2-Fluorobiphenyl 91 <0 % TM16/PM30
Surrogate Recovery p-Terphenyl-d14 104 <0 % TM16/PM30
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.7
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 5 of 11
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EPA Export 22-02-2021:06:51:37
Client Name: VOC Report : Liquid
Reference:
Location:
Contact:
EMT Job No: 20/7120
EMT Sample No. 1-7
Sample IDLEACHATE
TESTING
NO.7
Depth
COC No / misc
Containers V H HN P G
Sample Date 04/06/2020 09:00
Sample Type Ground Water
Batch Number 1
Date of Receipt 05/06/2020
VOC MS
Dichlorodifluoromethane <2 <2 ug/l TM15/PM10
Methyl Tertiary Butyl Ether # <0.1 <0.1 ug/l TM15/PM10
Chloromethane # <3 <3 ug/l TM15/PM10
Vinyl Chloride # <0.1 <0.1 ug/l TM15/PM10
Bromomethane <1 <1 ug/l TM15/PM10
Chloroethane # <3 <3 ug/l TM15/PM10
Trichlorofluoromethane # <3 <3 ug/l TM15/PM10
1,1-Dichloroethene (1,1 DCE) # <3 <3 ug/l TM15/PM10
Dichloromethane (DCM) # <5 <5 ug/l TM15/PM10
trans-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10
1,1-Dichloroethane # <3 <3 ug/l TM15/PM10
cis-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10
2,2-Dichloropropane <1 <1 ug/l TM15/PM10
Bromochloromethane # <2 <2 ug/l TM15/PM10
Chloroform # <2 <2 ug/l TM15/PM10
1,1,1-Trichloroethane # <2 <2 ug/l TM15/PM10
1,1-Dichloropropene # <3 <3 ug/l TM15/PM10
Carbon tetrachloride # <2 <2 ug/l TM15/PM10
1,2-Dichloroethane # <2 <2 ug/l TM15/PM10
Benzene # <0.5 <0.5 ug/l TM15/PM10
Trichloroethene (TCE) # <3 <3 ug/l TM15/PM10
1,2-Dichloropropane # <2 <2 ug/l TM15/PM10
Dibromomethane # <3 <3 ug/l TM15/PM10
Bromodichloromethane # <2 <2 ug/l TM15/PM10
cis-1-3-Dichloropropene <2 <2 ug/l TM15/PM10
Toluene # <5 <5 ug/l TM15/PM10
trans-1-3-Dichloropropene <2 <2 ug/l TM15/PM10
1,1,2-Trichloroethane # <2 <2 ug/l TM15/PM10
Tetrachloroethene (PCE) # <3 <3 ug/l TM15/PM10
1,3-Dichloropropane # <2 <2 ug/l TM15/PM10
Dibromochloromethane # <2 <2 ug/l TM15/PM10
1,2-Dibromoethane # <2 <2 ug/l TM15/PM10
Chlorobenzene # <2 <2 ug/l TM15/PM10
1,1,1,2-Tetrachloroethane # <2 <2 ug/l TM15/PM10
Ethylbenzene # <1 <1 ug/l TM15/PM10
m/p-Xylene # <2 <2 ug/l TM15/PM10
o-Xylene # <1 <1 ug/l TM15/PM10
Styrene <2 <2 ug/l TM15/PM10
Bromoform # <2 <2 ug/l TM15/PM10
Isopropylbenzene # <3 <3 ug/l TM15/PM10
1,1,2,2-Tetrachloroethane <4 <4 ug/l TM15/PM10
Bromobenzene # <2 <2 ug/l TM15/PM10
1,2,3-Trichloropropane # <3 <3 ug/l TM15/PM10
Propylbenzene # <3 <3 ug/l TM15/PM10
2-Chlorotoluene # <3 <3 ug/l TM15/PM10
1,3,5-Trimethylbenzene # <3 <3 ug/l TM15/PM10
4-Chlorotoluene # <3 <3 ug/l TM15/PM10
tert-Butylbenzene # <3 <3 ug/l TM15/PM10
1,2,4-Trimethylbenzene # <3 <3 ug/l TM15/PM10
sec-Butylbenzene # <3 <3 ug/l TM15/PM10
4-Isopropyltoluene # <3 <3 ug/l TM15/PM10
1,3-Dichlorobenzene # <3 <3 ug/l TM15/PM10
1,4-Dichlorobenzene # <3 <3 ug/l TM15/PM10
n-Butylbenzene # <3 <3 ug/l TM15/PM10
1,2-Dichlorobenzene # <3 <3 ug/l TM15/PM10
1,2-Dibromo-3-chloropropane <2 <2 ug/l TM15/PM10
1,2,4-Trichlorobenzene <3 <3 ug/l TM15/PM10
Hexachlorobutadiene <3 <3 ug/l TM15/PM10
Naphthalene <2 <2 ug/l TM15/PM10
1,2,3-Trichlorobenzene <3 <3 ug/l TM15/PM10
Surrogate Recovery Toluene D8 91 <0 % TM15/PM10
Surrogate Recovery 4-Bromofluorobenzene 100 <0 % TM15/PM10
Hollywood
Jason McGuirk
Please see attached notes for all
abbreviations and acronyms
LOD/LOR UnitsMethod
No.
Element Materials Technology
IMS Integrated Material Solutions Limited Partnership
Leachate Testing No.7
QF-PM 3.1.4 v11Please include all sections of this report if it is reproduced
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Notification of Deviating Samples
EMT
Job
No.
Batch Depth
EMT
Sample
No.
Analysis Reason
Please note that only samples that are deviating are mentioned in this report. If no samples are listed it is because none were deviating.
Only analyses which are accredited are recorded as deviating if set criteria are not met.
Contact:
Sample ID
Client Name: IMS Integrated Material Solutions Limited Partnership
Reference:
Location:
No deviating sample report results for job 20/7120
Element Materials Technology
Leachate Testing No.7
Hollywood
Jason McGuirk
QF-PM 3.1.11 v3 Please include all sections of this report if it is reproduced 7 of 11
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EMT Job No.:
SOILS
DEVIATING SAMPLES
SURROGATES
DILUTIONS
BLANKS
NOTE
Data is only reported if the laboratory is confident that the data is a true reflection of the samples analysed. Data is only reported as accredited when
all the requirements of our Quality System have been met. In certain circumstances where all the requirements of the Quality System have not been
met, for instance if the associated AQC has failed, the reason is fully investigated and documented. The sample data is then evaluated alongside
the other quality control checks performed during analysis to determine its suitability. Following this evaluation, provided the sample results have not
been effected, the data is reported but accreditation is removed. It is a UKAS requirement for data not reported as accredited to be considered
indicative only, but this does not mean the data is not valid.
Where possible, and if requested, samples will be re-extracted and a revised report issued with accredited results. Please do not hesitate to contact
the laboratory if further details are required of the circumstances which have led to the removal of accreditation.
As surface waters require different sample preparation to groundwaters the laboratory must be informed of the water type when submitting samples.
Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.
All samples should be submitted to the laboratory in suitable containers with sufficient ice packs to sustain an appropriate temperature for the
requested analysis. The temperature of sample receipt is recorded on the confirmation schedules in order that the client can make an informed
decision as to whether testing should still be undertaken.
Surrogate compounds are added during the preparation process to monitor recovery of analytes. However low recovery in soils is often due to peat,
clay or other organic rich matrices. For waters this can be due to oxidants, surfactants, organic rich sediments or remediation fluids. Acceptable
limits for most organic methods are 70 - 130% and for VOCs are 50 - 150%. When surrogate recoveries are outside the performance criteria but
the associated AQC passes this is assumed to be due to matrix effect. Results are not surrogate corrected.
A dilution suffix indicates a dilution has been performed and the reported result takes this into account. No further calculation is required.
Where analytes have been found in the blank, the sample will be treated in accordance with our laboratory procedure for dealing with contaminated
blanks.
Sufficient amount of sample must be received to carry out the testing specified. Where an insufficient amount of sample has been received the
testing may not meet the requirements of our accredited methods, as such accreditation may be removed.
Negative Neutralization Potential (NP) values are obtained when the volume of NaOH (0.1N) titrated (pH 8.3) is greater than the volume of HCl (1N)
to reduce the pH of the sample to 2.0 - 2.5. Any negative NP values are corrected to 0.
The calculation of Pyrite content assumes that all oxidisable sulphides present in the sample are pyrite. This may not be the case. The calculation
may be an overesitimate when other sulphides such as Barite (Barium Sulphate) are present.
WATERS
Please note we are not a UK Drinking Water Inspectorate (DWI) Approved Laboratory .
ISO17025 accreditation applies to surface water and groundwater and usually one other matrix which is analysis specific, any other liquids are
outside our scope of accreditation.
If you have not already done so, please send us a purchase order if this is required by your company.
Where appropriate please make sure that our detection limits are suitable for your needs, if they are not, please notify us immediately.
All analysis is reported on a dry weight basis unless stated otherwise. Limits of detection for analyses carried out on as received samples are not
moisture content corrected. Results are not surrogate corrected. Samples are dried at 35°C ±5°C unless otherwise stated. Moisture content for
CEN Leachate tests are dried at 105°C ±5°C.
Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.
Where a CEN 10:1 ZERO Headspace VOC test has been carried out, a 10:1 ratio of water to wet (as received) soil has been used.
% Asbestos in Asbestos Containing Materials (ACMs) is determined by reference to HSG 264 The Survey Guide - Appendix 2 : ACMs in buildings
listed in order of ease of fibre release.
NOTES TO ACCOMPANY ALL SCHEDULES AND REPORTS
20/7120
Please note we are only MCERTS accredited (UK soils only) for sand, loam and clay and any other matrix is outside our scope of accreditation.
Where an MCERTS report has been requested, you will be notified within 48 hours of any samples that have been identified as being outside our
MCERTS scope. As validation has been performed on clay, sand and loam, only samples that are predominantly these matrices, or combinations
of them will be within our MCERTS scope. If samples are not one of a combination of the above matrices they will not be marked as MCERTS
accredited.
It is assumed that you have taken representative samples on site and require analysis on a representative subsample. Stones will generally be
included unless we are requested to remove them.
All samples will be discarded one month after the date of reporting, unless we are instructed to the contrary.
QF-PM 3.1.9 v34Please include all sections of this report if it is reproduced
All solid results are expressed on a dry weight basis unless stated otherwise. 8 of 11
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EMT Job No.:
Measurement Uncertainty
#
SA
B
DR
M
NA
NAD
ND
NDP
SS
SV
W
+
>>
*
AD
CO
LOD/LOR
ME
NFD
BS
LB
N
TB
OC
AA x5 Dilution
Outside Calibration Range
Matrix Effect
No Fibres Detected
AQC Sample
Blank Sample
Client Sample
Trip Blank Sample
AQC failure, accreditation has been removed from this result, if appropriate, see 'Note' on previous page.
Results above calibration range, the result should be considered the minimum value. The actual result could be significantly
higher, this result is not accredited.
Analysis subcontracted to an Element Materials Technology approved laboratory.
Samples are dried at 35°C ±5°C
Suspected carry over
Limit of Detection (Limit of Reporting) in line with ISO 17025 and MCERTS
No Asbestos Detected.
None Detected (usually refers to VOC and/SVOC TICs).
No Determination Possible
Calibrated against a single substance
Surrogate recovery outside performance criteria. This may be due to a matrix effect.
Results expressed on as received basis.
ISO17025 (UKAS Ref No. 4225) accredited - UK.
ISO17025 (SANAS Ref No.T0729) accredited - South Africa
Indicates analyte found in associated method blank.
Dilution required.
MCERTS accredited.
Not applicable
20/7120
REPORTS FROM THE SOUTH AFRICA LABORATORY
Any method number not prefixed with SA has been undertaken in our UK laboratory unless reported as subcontracted.
Measurement uncertainty defines the range of values that could reasonably be attributed to the measured quantity. This range of values has not
been included within the reported results. Uncertainty expressed as a percentage can be provided upon request.
ABBREVIATIONS and ACRONYMS USED
QF-PM 3.1.9 v34Please include all sections of this report if it is reproduced
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EMT Job No: 20/7120
Test Method No. Description
Prep Method
No. (if
appropriate)
Description
ISO
17025
(UKAS/S
ANAS)
MCERTS
(UK soils
only)
Analysis done
on As Received
(AR) or Dried
(AD)
Reported on
dry weight
basis
TM15Modified USEPA 8260B v2:1996. Quantitative Determination of Volatile Organic
Compounds (VOCs) by Headspace GC-MS.PM10
Modified US EPA method 5021A v2:2014. Preparation of solid and liquid samples for GC
headspace analysis.
TM15Modified USEPA 8260B v2:1996. Quantitative Determination of Volatile Organic
Compounds (VOCs) by Headspace GC-MS.PM10
Modified US EPA method 5021A v2:2014. Preparation of solid and liquid samples for GC
headspace analysis. Yes
TM16Modified USEPA 8270D v5:2014. Quantitative determination of Semi-Volatile Organic
compounds (SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex.
TM16Modified USEPA 8270D v5:2014. Quantitative determination of Semi-Volatile Organic
compounds (SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex. Yes
TM26Determination of phenols by Reversed Phased High Performance Liquid
Chromatography and Electro-Chemical Detection.PM0 No preparation is required.
TM30
Determination of Trace Metals by ICP-OES (Inductively Coupled Plasma – Optical
Emission Spectrometry): WATERS by Modified USEPA Method 200.7, Rev. 4.4, 1994;
Modified EPA Method 6010B, Rev.2, Dec 1996; Modified BS EN ISO 11885:2009:
SOILS by Modified USEP
PM14Preparation of waters and leachates for metals by ICP OES/ICP MS. Samples are filtered
for Dissolved metals, and remain unfiltered for Total metals then acidifiedYes
TM35
True and apparent colour by Hach Lange DR3800 spectrophotometer. Apparent colour
includes dissolved and suspended matter. True colour is determinined after filtration of
the sample.
PM0 No preparation is required.
TM38
Soluble Ion analysis using Discrete Analyser. Modified US EPA methods: Chloride 325.2
(1978), Sulphate 375.4 (Rev.2 1993), o-Phosphate 365.2 (Rev.2 1993), TON 353.1
(Rev.2 1993), Nitrite 354.1 (1971), Hex Cr 7196A (1992), NH4+ 350.1 (Rev.2 1993
(comparabl
PM0 No preparation is required. Yes
TM57
Modified US EPA Method 410.4. (Rev. 2.0 1993) Comparable with ISO 15705:2002.
Chemical Oxygen Demand is determined by hot digestion with Potassium Dichromate
and measured spectrophotometerically.
PM0 No preparation is required. Yes
TM60
TC/TOC analysis of Waters by High Temperature Combustion followed by NDIR
detection. Based on the following modified standard methods: USEPA 9060A (2002),
APHA SMEWW 5310B:1999 22nd Edition, ASTM D 7573, and USEPA 415.1.
PM0 No preparation is required. Yes
Element Materials Technology Method Code Appendix
QF-PM 3.1.10 v14 Please include all sections of this report if it is reproduced 10 of 11
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EMT Job No: 20/7120
Test Method No. Description
Prep Method
No. (if
appropriate)
Description
ISO
17025
(UKAS/S
ANAS)
MCERTS
(UK soils
only)
Analysis done
on As Received
(AR) or Dried
(AD)
Reported on
dry weight
basis
TM73Modified US EPA methods 150.1 (1982) and 9045D Rev. 4 - 2004) and BS1377-
3:1990. Determination of pH by Metrohm automated probe analyser.PM0 No preparation is required. Yes
TM76Modified US EPA method 120.1 (1982). Determination of Specific Conductance by
Metrohm automated probe analyser.PM0 No preparation is required. Yes
TM129 Odour of samples PM0 No preparation is required. AR
TM149Determination of Pesticides by Large Volume Injection on GC Triple Quad MS, based
upon USEPA method 8270D v5:2014PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex.
Element Materials Technology Method Code Appendix
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![Leachate Basic Design[1]](https://img.dokumen.tips/doc/110x75/54744d63b4af9f09648b45f9/leachate-basic-design1.jpg)
