EPD Ireland

Process Data set: Cavity Xtroliner (XO) (en) en

Process information

Key Data Set Information
Location	IE
Geographical representativeness description	Ireland
Reference year	2022
Name	Cavity Xtroliner (XO)
Use advice for data set	This LCA covers the Product (A1 - A3), Construction Process (A4 - A5), end of Life (C1 - C4), and benefits and loads beyond the system boundary (D).
Technical purpose of product or process	This EPD is carried out for the Unilin Insulation Ireland Ltd products: Cavity Therm, Xtroliner and Xtrowall Plus of thicknesses 100mm, 100mm and 110mm each, respectively. The bulk raw materials polyol & MDI are mixed with various catalysts and additives. The insulation products are manufactured in accordance with I.S. EN 13165:2008, Thermal insulation products for buildings, factory made rigid polyisocyanurate foam (PIR) products. The bulk raw materials polyol & MDI are mixed with various catalysts and additives before being metered onto a moving conveyor. The chemical mix then starts to rise and produce the foam. The foam continues to rise until it contacts the top layer of facer material as it enters the double-belt laminator, where it is then cured under heat to produce the rigid, thermoset foam board. The board exits the lamination oven and then reaches a cross-cut saw which cuts the board into shorter mother boards. Each mother board then enters a cooling zone before entering a multiblade cutting area which removes side trims and cuts the boards to the required length. There is a minor amount of additional cutting to produce speciality boards such as rebated edges. Finished boards are stored in the warehouse before despatch to customers. Off-cuts from the cutting and trimming are compressed on-site and sent to landfill.
General comment on data set	The dataset is representative for the production processes used in 2019. The data Quality Level, according to Table E.1 of EN 15804 +A2, Annex E, is ‘very good’. Allocation of energy and electricity types and amounts to the various manufacturing processes has been provided by Unilin Insulation Ireland Ltd along with production waste. Allocation of impacts to the products is based on the product composition mass. Flows related to human activities such as employee transport are excluded. The construction of capital assets such as buildings, manufacture of machines and transportation systems are also excluded since the related flows are assumed to be negligible compared to the manufacture of the building material when compared to these systems over a full lifetime of operation. The cut-off criteria of section 6.3.6 of EN15804:2012+A2:2019 have been followed, where 99% of the total energy and materials are included, and the total neglected input flows for the modules reported on in the LCA are less than 5% of the energy usage and mass.
Copyright	Yes
Owner of data set	Unilin
Quantitative reference
Reference flow(s)	Cavity Xtroliner (XO) - 1.0 * 1.0 qm (Area)
Biogenic carbon content	Carbon content (biogenic): 0.11 kg Carbon content (biogenic) - packaging: 0.0 kg
Time representativeness
Data set valid until	2027
Publication date	04-12-2022
Technological representativeness
Technology description including background system	Full technical details on these products can be found at: https://unilininsulation.ie/products/xtroliner/

Modelling and validation

Subtype

specific dataset

LCA methodology report

PCR - Part A Implementation and use of I.S. EN 15804:2012+A1 and + A2, and CEN TR 16970:2016 in Ireland for the development of Environmental Product Declarations (issued 17.08.2021), Version 2.0

Data sources, treatment and representativeness

Documentation of data quality management

PCR - Part A Implementation and use of I.S. EN 15804:2012+A1 and + A2, and CEN TR 16970:2016 in Ireland for the development of Environmental Product Declarations (issued 17.08.2021), Version 2.0

Data source(s) used for this data set

ecoinvent database (all versions)

Original EPDs

Completeness

Validation

Type of review
Independent external review

Reviewer name and institution
Chris Foster, EuGeos Limited

Compliance Declarations

Compliance

Compliance system name

EN 15804+A2

Approval of overall compliance

Fully compliant

Nomenclature compliance

Fully compliant

Methodological compliance

Fully compliant

Review compliance

Fully compliant

Documentation compliance

Fully compliant

Quality compliance

Fully compliant

Compliance

Compliance system name

ISO 14025

Approval of overall compliance

Fully compliant

Nomenclature compliance

Fully compliant

Methodological compliance

Fully compliant

Review compliance

Fully compliant

Documentation compliance

Fully compliant

Quality compliance

Fully compliant

Compliance

Compliance system name

ISO 21930

Approval of overall compliance

Fully compliant

Nomenclature compliance

Fully compliant

Methodological compliance

Fully compliant

Review compliance

Fully compliant

Documentation compliance

Fully compliant

Quality compliance

Fully compliant

Administrative information

Data generator
Data set generator / modeller	LCA.no AS
Data entry by
Time stamp (last saved)	2023-06-13T15:01:13
Data set format(s)	ILCD format EPD Data Format Extensions v1.2
Publication and ownership
UUID	9eaf7df0-2554-4528-a68c-873ef5e42b7a
Date of last revision	2023-06-13T13:00:24.9293904Z
Data set version	00.03.000
Registration authority	EPD Ireland
Registration number	EPDIE-21-27
Owner of data set	Unilin
Copyright	Yes
License type	Free of charge for all users and uses
Access and use restrictions	None
Publisher	EPD Ireland

Environmental indicators

Indicators of life cycle

Indicator	Direction	Unit	Raw material supply A1	Transport A2	Manufacturing A3	Transport A4	Installation A5	Transport C2	Waste processing C3	Disposal C4	Recycling Potential D
Use of renewable primary energy (PERE)	Input	MJ	17.63	0.08001	0.8026	0.006788	1.204	0.0181	0.02257	0.0341	-1.772
Use of renewable primary energy resources used as raw materials (PERM)	Input	MJ	0	0	0	0	0	0	0	0	0
Total use of renewable primary energy resource (PERT)	Input	MJ	17.63	0.08001	0.8026	0.006788	1.204	0.0181	0.02257	0.0341	-1.772
Use of non renewable primary energy (PENRE)	Input	MJ	171.2	7.897	4.772	0.5034	17.19	1.342	1.389	0.8505	-10.79
Use of non renewable primary energy resources used as raw materials (PENRM)	Input	MJ	80.11	0	0	0	0	0	0	0	0
Total use of non renewable primary energy resource (PENRT)	Input	MJ	251.3	7.897	4.772	0.5034	17.19	1.342	1.389	0.8505	-10.79
Use of secondary material (SM)	Input	kg	0	0	0	0	0	0	0	0	0
Use of renewable secondary fuels (RSF)	Input	MJ	0	0	0	0	0	0	0	0	0
Use of non renewable secondary fuels (NRSF)	Input	MJ	0	0	0	0	0	0	0	0	0
Use of net fresh water (FW)	Input	m3	20.61	0.001216	0.0005713	0.00005071	1.34	0.0001352	0.004531	0.000732	-0.001344
Hazardous waste disposed (HWD)	Output	kg	0.0008868	0.000004735	7.68E-7	0.000001242	0.00005807	0.000003312	0.000002416	9.953E-7	-0.000002016
Non hazardous waste dispose (NHWD)	Output	kg	7.26	0.3527	0.000607	0.02306	0.4961	0.0615	0.04493	2.351	-0.03928
Radioactive waste disposed (RWD)	Output	kg	0.002608	0.00005024	0.000002842	0.00000323	0.0001731	0.000008614	0.000001979	0.0000041	-0.00004604
Components for re-use (CRU)	Output	kg	0	0	0	0	0	0	0	0	0
Materials for recycling (MFR)	Output	kg	0	0	0	0	0	0	0	0	0
Materials for energy recovery (MER)	Output	kg	0	0	0	0	0	0	0	0	0
Exported electrical energy (EEE)	Output	MJ	0	0	0	0	0	0	0	0	0
Exported thermal energy (EET)	Output	MJ	0	0	0	0	0	0	0	0	0

Core environmental impact indicators

Indicator	Unit	Raw material supply A1	Transport A2	Manufacturing A3	Transport A4	Installation A5	De-construction C1	Transport C2	Waste processing C3	Disposal C4	Recycling Potential D
Abiotic depletion potential - fossil resources (ADPF)	MJ	248.5	7.438	4.353	0.4742	16.94	0	1.265	1.266	0.8001	-10.12
Abiotic depletion potential - non-fossil resources (ADPE)	kg Sb-eqv.	0.0009844	0.000001462	0.000001403	8.657E-7	0.00006422	0	0.000002308	0.000001107	3.486E-7	-0.000002882
Acidification potential, Accumulated Exceedance (AP)	mol H+ eqv.	0.01975	0.001507	0.0005615	0.00009008	0.001423	0	0.0002402	0.002071	0.0003406	-0.003092
Depletion potential of the stratospheric ozone layer (ODP)	kg CFC 11 eqv.	2.821E-7	1.118E-7	1.769E-8	7.134E-9	2.712E-8	0	1.902E-8	1.263E-8	8.416E-9	-3.265E-8
Eutrophication potential - freshwater (EP-freshwater)	kg P eqv.	0.0001494	0.000007354	7.789E-7	2.505E-7	0.00001026	0	6.68E-7	8.151E-7	0.000001323	-0.00001843
Eutrophication potential - marine (EP-marine)	kg N eqv.	0.007189	0.0002821	0.0001127	0.00001783	0.0004939	0	0.00004756	0.001152	0.002549	-0.0004392
Eutrophication potential - terrestrial (EP-terrestrial)	mol N eqv.	0.03842	0.00322	0.001256	0.0001995	0.002799	0	0.000532	0.01101	0.001138	-0.005178
Global Warming Potential - biogenic (GWP-biogenic)	kg CO2 eqv.	-0.4246	0.0001485	-0.0002467	0.00001686	-0.0276	0	0.00004497	0.0002006	0.0004205	-0.007537
Global Warming Potential - fossil fuels (GWP-fossil)	kg CO2 eqv.	10.65	0.4869	0.2784	0.03136	0.7434	0	0.08363	2.415	0.2728	-0.7033
Global Warming Potential - land use and land use change (GWP-luluc)	kg CO2 eqv.	0.1844	0.0001457	0.00001843	0.00001116	0.012	0	0.00002977	0.0000188	0.00004208	-0.0006593
Global Warming Potential - total (GWP-total)	kg CO2 eqv.	10.41	0.4872	0.2782	0.03139	0.7277	0	0.08371	2.416	0.273	-0.7115
Global warming potential except emissions and uptake of biogenic carbon (GWP-IOBC/GHG)	kg CO2 eqv.	No records found.	No records found.	No records found.	No records found.	No records found.	No records found.	No records found.	No records found.	No records found.	No records found.
Photochemical Ozone Creation Potential (POCP)	kg NMVOC eqv.	0.021	0.001193	0.00431	0.00007642	0.001727	0	0.0002038	0.002614	0.1404	-0.001343
Water (user) deprivation potential (WDP)	m3 world eqv.	3.918	0.05677	0.01924	0.001342	0.2597	0	0.003579	0.1492	0.02773	-0.0787

Additional environmental impact indicators

Indicator	Unit	Raw material supply A1	Transport A2	Manufacturing A3	Transport A4	Installation A5	De-construction C1	Transport C2	Waste processing C3	Disposal C4	Recycling Potential D
¹This impact category deals mainly with the eventual impact of low dose ionizing radiation on human health of the nuclear fuel cycle. It does not consider effects due to possible nuclear accidents, occupational exposure nor due to radioactive waste disposal in underground facilities. Potential ionizing radiation from the soil, from radon and from some construction materials is also not measured by this indicator.
²The results of this environmental impact indicator shall be used with care as the uncertainties on these results are high or as there is limited experiences with the indicator.
Potential Comparative Toxic Unit for ecosystems (ETP-fw)²	CTUe	75.29	5.265	1.655	0.382	5.363	0	1.019	6.211	145.4	-7.492
Potential Comparative Toxic Unit for humans - cancer effects (HTP-c)²	CTUh	5.515E-8	1.55E-10	5.3E-11	1.1E-11	3.598E-9	0	2.8E-11	2.14E-10	2.7E-11	-1.8E-10
Potential Comparative Toxic Unit for humans - non-cancer effects (HTP-nc)²	CTUh	9.081E-7	5.874E-9	1.664E-9	4.02E-10	5.954E-8	0	1.073E-9	8.38E-9	9.3E-10	-6.541E-9
Potential Human exposure efficiency relative to U235 (IRP)¹	kBq U235 eqv.	3.484	0.03178	0.00188	0.002073	0.2288	0	0.005527	0.001483	0.003135	-0.03306
Potential Soil quality index (SQP)²	unitless	152.6	5.045	0.3706	0.3318	10.29	0	0.8847	0.1972	1.436	-2.317
Potential incidence of disease due to PM emissions (PM)²	disease incidence	2.643E-7	3.095E-8	1.715E-9	1.993E-9	1.941E-8	0	5.315E-9	6.638E-9	4.993E-9	-7.514E-9