EPD-IES-0029168:002

Polyfoam SS45 ECO

Polyfoam SS 45 ECO is a two-component, spray-applied polyurethane foam. Polyfoam SS 45 ECO is an HCFC (Hydrochlorofluorocarbon) blown polymeric MDI based system for producing rigid urethane foam. The system may be applied to substrates where the surface temperature is of the order of 10 - 50°C. Grades, adjusted in reactivity, are available for both cold and hot condition. Regarding its components, the MDI component is a dark brown colored, polymeric diphenyl methane di-isocyanate, while the polyol component is a low viscosity blend of polyols, hydrochlorofluorocarbon blowing agent, catalysts and surfactant.

General information

EPD OwnerHenkel AG & Co. KGaA
Registration numberEPD-IES-0029168:002
EPD typeEPD of a single product from a manufacturer/service provider
StatusValid
Version date2026-05-12
Validity date2031-05-11
Standards conformanceISO 14025:2006, EN 15804:2012+A2:2019/AC:2021, ISO 21930:2017
Geographical scopeGlobal
An EPD may be updated or depublished if conditions change. This is the latest version of the EPD.

Programme information

ProgrammeInternational EPD System
AddressEPD International AB Box 210 60 SE-100 31 Stockholm Sweden
Websitewww.environdec.com
E-mailsupport@environdec.com

Product category rules

CEN standard EN 15804 and ISO standard ISO 21930 serve as the core Product Category Rules (PCR)
Product Category Rules (PCR)2019:14 Construction products (EN 15804+A2) (version 2.0.1) 2.0.1
PCR review was conducted byThe Technical Committee of the International EPD System. See www.environdec.com for a list of members. Review chair: Rob Rouwette (chair), Noa Meron (co-chair). The review panel may be contacted via the Secretariat www.environdec.com/support.

Verification

Independent third-party verification of the declaration and data, according to ISO 14025:2006, via
Third-party verifierSilvia Vilčeková (SILCERT, Ltd.)
Approved byThe International EPD® System
Procedure for follow-up of data during EPD validity involves third party verifier
*EPD Process Certification involves an accredited certification body certifying and periodically auditing the EPD process and conducting external and independent verification of EPDs that are regularly published. More information can be found in the General Programme Instructions on www.environdec.com.

Ownership and limitation on use of EPD

Limitations

EPDs within the same product category but published in different EPD programmes, may not be comparable. For two EPDs to be comparable, they shall be based on the same PCR (including the same first-digit version number) or be based on fully aligned PCRs or versions of PCRs; cover products with identical functions, technical performances and use (e.g. identical declared/functional units); have identical scope in terms of included life-cycle stages (unless the excluded life-cycle stage is demonstrated to be insignificant); apply identical impact assessment methods (including the same version of characterisation factors); and be valid at the time of comparison.

Ownership

The EPD Owner has the sole ownership, liability, and responsibility for the EPD.

Information about EPD Owner

EPD OwnerHenkel AG & Co. KGaA
Contact person nameMassimo Collotta
Contact person e-mailmassimo.collotta@henkel.com
Organisation addressHenkelstraße 67 40589 Düsseldorf Germany
LCA PractitionerMassimo Collotta, massimo.collotta@henkel.com Mariana Santos Queiroz, mariana.queiroz@henkel.com

Description of the organisation of the EPD Owner

Henkel AG & Co. KGaA, commonly known as Henkel, is a German multinational chemical and consumer goods company headquartered in Düsseldorf, Germany. Henkel Adhesive Technologies Construction is a division of Henkel which offers, among others, a wide choice of waterproofing systems tailored to varied needs. This EPD is focused on the key components of Polyfoam MDI, a liquid, dark brown mixture, used in conjunction with polyol to produce rigid polyurethane foams. For more information, please visit: www.henkelpolybit.com

Organisation logo

Product information

Product namePolyfoam SS45 ECO
Product identificationPolyfoam SS45 ECO is a two-component spray-applied rigid polyurethane foam system based on polymeric MDI (Methylene Diphenyl Diisocyanate) and formulated polyols containing HCFC (Hydrochlorofluorocarbon) blowing agents. The MDI component is a dark brown colored, polymeric diphenyl methane di-isocyanate, while the polyol component is a low viscosity blend of polyols, hydrochlorofluorocarbon blowing agent, catalysts and surfactant.
Product descriptionPolyfoam SS 45 ECO is a two-component, spray-applied polyurethane foam. Polyfoam SS 45 ECO is an HCFC (Hydrochlorofluorocarbon) blown polymeric MDI based system for producing rigid urethane foam. The system may be applied to substrates where the surface temperature is of the order of 10 - 50°C. Grades, adjusted in reactivity, are available for both cold and hot condition. Regarding its components, the MDI component is a dark brown colored, polymeric diphenyl methane di-isocyanate, while the polyol component is a low viscosity blend of polyols, hydrochlorofluorocarbon blowing agent, catalysts and surfactant.
Technical purpose of productPolyfoam SS 45 ECO is a two-component, spray-applied rigid polyurethane foam system based on polymeric MDI and formulated polyols containing HCFC blowing agents. The system reacts in situ to form a rigid, closed-cell insulation material and is available in grades adapted to different application conditions. This product is generally applied for roof spraying, flooring and wall insulation, as well as storage tank insulation.
Manufacturing or service provision descriptionThe Polyfoam SS45 ECO is handled and packed at the Henkel facility in Umm Al Thuoob, United Arab Emirates. Once this product is composed by two units, each unit is received as single raw materials and kept in tightly sealed, moisture‑tight drums to prevent any contact with water. After receipt, the batches are subject to quality control checks and samples are taken for QC analysis. Once QC approval is obtained, the components are packed accordingly into designated drums and labeled with essential information. The chosen packaging type is the most representative in terms of sales volume and serves as the standard reference for other packaging options analyzed for this product.
Material propertiesVolumetric mass density: 45 kg/m3
Volumetric mass density:
45 kg/m3
Manufacturing siteHenkel Polybit Industry Umm Al Thuoob GMV5+3H6 Umm Al Thuoob United Arab Emirates
UN CPC code35110. Paints and varnishes and related products
Geographical scopeGlobal
Actual or technical lifespan60 year(s)

Product images

Content declaration

Hazardous and toxic substancesThe product does not contain any substances from the SVHC candidate list in concentrations exceeding 0.1% of its weight.
Product content
Content nameMass, kgPost-consumer recycled material, mass-% of productBiogenic material, mass-% of productBiogenic material1, kg C/declared unitBiogenic material kg CO2, eq./declared unit
Organics, nonvolatiles0.9841
Organics, volatiles0.0109
Water0.005
Total10000
Note 11 kg biogenic carbon is equivalent to 44/12 kg of CO2
Packaging materials
Material nameMass, kgMass-% (versus the product)Biogenic material1, kg C/declared unitBiogenic material kg CO2, eq./declared unit
Wood0.0757.390.03750.1375
Plastic0.00050.0400
Metal0.12412.2100
Total0.199519.640.03750.1375
Note 11 kg biogenic carbon is equivalent to 44/12 kg of CO2

LCA information

EPD based on declared or functional unitDeclared unit
Declared unit and reference flowPolyfoam SS45 ECO Mass: 1 kg
Conversion factor to mass1
Are infrastructure or capital goods included in any upstream, core or downstream processes?
Datasources used for this EPDecoinvent database (general) ecoinvent 3.11 database
LCA SoftwareSimaPro 10.3
Additional information about the underlying LCA-based information
Simapro 10.3
Version of the EN 15804 reference packageEF Reference Package 3.1
Characterisation methodsGWP 100,EN 15804. version: EF 3.1
Technology description including background systemPolyfoam SS 45 ECO is a two-component, spray-applied polyurethane foam. The product is handled as a single raw material and is kept in tightly sealed, moisture tight drums to prevent contact with water. After receipt at the Henkel facility in Umm Al Thuoob (UAE), batches undergo quality control sampling; once approved, the product is packed into drums and labelled. The background system includes upstream supply and transport of the raw material(s) to the UAE site. For internal production, the Umm Al Thuoob plant electricity is reported as 100% renewable electricity in the primary data used for this study.
Scrap (recycled material) inputs contribution levelLess than 10% of the GWP-GHG results in modules A1-A3 come from scrap inputs

Data quality assessment

Description of data quality assessment and reference yearsThe quality of the relevant data used for the EPD in terms of its time, geography and technology representativeness using EN 15804:2012+A2:2019. The data used in this LCA study are of high quality and representative of the technologies, processes, and geographic location relevant to the production of Polyfoam SS45 ECO. The Reference year is 2025.
Data quality assessment
Process nameSource typeSourceReference yearData categoryShare of primary data, of GWP-GHG results for A1-A3
A1 module Collected Data Henkel System20254%
A2 module Collected DataHenkel System20257%
A3 module Collected DataHenkel System202521%
Total share of primary data, of GWP-GHG results for A1-A332%
The share of primary data is calculated based on GWP-GHG results. It is a simplified indicator for data quality that supports the use of more primary data to increase the representativeness of and comparability between EPDs. Note that the indicator does not capture all relevant aspects of data quality and is not comparable across product categories.
Electricity data
Electricity used in the manufacturing process in A3 (A5 for services)
Type of electricity mixResidual electricity mix on the market
Energy sourcesHydro0%
Wind0%
Solar100%
Biomass0%
Geothermal0%
Waste0%
Nuclear0%
Natural gas0%
Coal0%
Oil0%
Peat0%
Other0%
GWP-GHG intensity (kg CO2 eq./kWh)0.05 kg CO2 eq./kWh

System boundary

Description of the system boundaryb) Cradle to gate with options, modules C1-C4, module D and with optional modules (A1-A3 + C + D and additional modules).
Excluded modulesYes, there is an excluded module, or there are excluded modules
Justification for the omission of modulesNo additional processes or raw materials are needed during the use phase of the assessed products. Therefore, modules B1 to B7 are not considered and have no impact on the environmental performance of the product.

Declared modules

Product stageConstruction process stageUse stageEnd of life stageBeyond product life cycle
Raw material supplyTransportManufacturingTransport to siteConstruction installationUseMaintenanceRepairReplacementRefurbishmentOperational energy useOperational water useDe-construction demolitionTransportWaste processingDisposalReuse-Recovery-Recycling-potential
ModuleA1A2A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
Modules declaredXXXXXNDNDNDNDNDNDNDXXXXX
GeographyGlobalGlobalMiddle EastGlobalGlobalN/AN/AN/AN/AN/AN/AN/AGlobalGlobalGlobalGlobalGlobal
Share of specific data32%--------------
Variation - products0%--------------
Variation - sites0%--------------
DisclaimerThe share of specific/primary data and both variations (products and sites) refer to GWP-GHG results only.

Process flow diagram(s) related images

Default scenario

Name of the default scenarioPolyfoam SS45 ECO
Description of the default scenarioDescription of system boundaries: Cradle-to-gate with modules C1-C4, module D and optional modules A4 and A5, covering the modules of extraction and processing of raw materials (A1), their transportation to the production plant (A2), the manufacturing process (A3), transport to construction site (A4), installation (A5), end of life (C1-C4) and potential benefits and loads from the reuse and recycling of the products at its end of life (D). Product stage (A1-A3): Raw material supply (A1): this module considers the extraction and processing of raw materials used for the manufacture of the products. Transport of the raw materials (A2): this module consists of the transportation of all raw materials covered by module A1, from the extraction, production, and treatment site to the factory, considering the specific distances of each material supplier. Manufacturing of products (A3): this module refers to the production process of POLYFOAM SS45 ECO in the production plants. The product is received as a single raw material and is kept in tightly sealed, moisture tight drums to prevent any contact with water. After receipt, the batch is subject to quality control checks and samples are taken for QC analysis. Once QC approval is obtained, the product is packed into designated drums and labeled with essential information. This scenario also represents the 100% Landfill additional scenario.

Module A4: Transport to the building site

Explanatory name of the default scenario in module A4Downstream Transport
Brief description of the default scenario in module A4Transport from factory to customer
Description of the default scenario in module A4The Site-to-site transportation includes the transportation of the finished, packaged Polyfoam SS45 ECO from the production facility to the different customers site (A4). The transportation from the facility to customers is therefore estimated by range distances of 55 km based on market share of customer location.
Module A4 informationValueUnit
Distance
55
km
Capacity utilization (including empty returns)
100
%
Bulk density of transported products
45
kg/m3
Volume capacity utilization factor
(factor: =1 or <1 or ≥1 for compressed or
nested packaged products)
1
N/A
Fuel type and consumption of the vehicleDiesel, 16-32 tons trucks with 34 L per 100 km fuel consumption,
N/A

Module A5: Installation in the building

Explanatory name of the default scenario in module A5Installation
Brief description of the default scenario in module A5Installation/processing of sold product
Description of the default scenario in module A5The product is applied manually using a high-pressure spray foam machine for the application of a two-component product such as Polyfoam SS45 ECO. In Module A5, no auxiliary materials are required and no water, or other resources are considered. However, due to the machine application, electricity consumption is required (0.25 kWh/kg product). No additional materials or auxiliary products are included beyond those already accounted for in the system.
Module A5 informationValueUnit
Material Loss7
%
Energy consumption during the installation (per kg of product)0.25
kWh

Module C: End-of-life

Explanatory name of the default scenario in module CEnd of life
Brief description of the default scenario in module CEnd of life stage (C)
Description of the default scenario in module C• Dismantling or demolition (C1): This module analyzes the environmental impacts associated with the deconstruction or dismantling of the polyurethane foam (POLYFOAM SS45 ECO) on a construction site after its useful life. Module C1 includes all processes and activities used on site for the deconstruction of the polyurethane foam. The consumption of energy and natural resources is negligible for deconstruction of the end of life product, as demolition of the polyurethane foam is assumed to be done manually. Thus, the impacts of demolition are assumed zero. • Transport to waste treatment site (C2): this module considers a default distance of 50 km (distance assumed in most EPD studies), between the construction site where the product was installed and the waste management facility (in this case landfill). • Waste treatment (C3): this module covers the process of processing construction and demolition waste prior to disposal. For this study, no specific pre treatment is modelled and the removed product waste is considered to be disposed of directly in landfill as the most conservative scenario. • Disposal (C4): this module includes the final disposal of waste that has not been destined for recovery or treatment processes. 100% of the product waste is disposed of in landfill after its useful life. Since the product is distributed among several countries, a conservative scenario has been considered to avoid miscalculating the impact of the end of life of the assessed products.
Module C informationValueUnit
Waste collection process, specified by type kg collected mixed with demolition waste1
kg
Waste disposal kg to landfill1
kg
Distance to waste manager (km)50
km

Reference service life

Description of the default scenario in reference service lifeThe reference service life of the Henkel Product is 60 years.
Reference service life informationValueUnit
Reference service life
60
year(s)

Module D: Beyond product life cycle

Explanatory name of the default scenario in module DModule D
Brief description of the default scenario in module DBenefits and burdens beyond the boundaries of the system
Description of the default scenario in module DModule D, considers the benefits and burdens linked to the processes of recovery, reuse or recycling of waste from the products under study at the end of their useful life, which could be part of the life cycle of a new product. Credits of the module D are 0 due to the 100% landfill of the product.

Additional scenario 1

Name of the additional scenarioPolyfoam SS45 ECO (100% recycling)
Description of the additional scenarioThis represents a hypothetical scenario assuming 100% recycling, meaning the entire product is considered fully recycled at the end of its life cycle. Description of system boundaries: Cradle-to-gate with modules C1-C4, module D and optional modules A4 and A5, covering the modules of extraction and processing of raw materials (A1), their transportation to the production plant (A2), the manufacturing process (A3), transport to construction site (A4), installation (A5), end of life (C1-C4) and potential benefits and loads from the reuse and recycling of the products at its end of life (D). Product stage (A1-A3): Raw material supply (A1): this module considers the extraction and processing of raw materials used for the manufacture of the products. Transport of the raw materials (A2): this module consists of the transportation of all raw materials covered by module A1, from the extraction, production, and treatment site to the factory, considering the specific distances of each material supplier. Manufacturing of products (A3): this module refers to the production process of POLYFOAM SS45 ECO in the production plants. The product is received as a single raw material and is kept in tightly sealed, moisture tight drums to prevent any contact with water. After receipt, the batch is subject to quality control checks and samples are taken for QC analysis. Once QC approval is obtained, the product is packed into designated drums and labeled with essential information. This scenario also represents the 100% recycling of product.

Module A4: Transport to the building site

Description of the additional scenario in module A4The Site-to-site transportation includes the transportation of the finished, packaged Polyfoam SS45 ECO from the production facility to the different customers site (A4). The transportation from the facility to customers is therefore estimated by range distances of 55 km based on market share of customer location.
Module A4 informationValueUnit
Distance
55
km
Capacity utilization (including empty returns)
100
%
Bulk density of transported products
45
kg/m3
Volume capacity utilization factor
(factor: =1 or <1 or ≥1 for compressed or
nested packaged products)
1
N/A
Fuel type and consumption of the vehicleDiesel, 16-32 tons trucks with 34 L per 100 km fuel consumption
N/A

Module A5: Installation in the building

Description of the additional scenario in module A5The product is applied manually using a high-pressure spray foam machine for the application of a two-component product such as Polyfoam SS45 ECO. In Module A5, no auxiliary materials are required and no water, or other resources are considered. However, due to the machine application, electricity consumption is required (0.25 kWh/kg product). No additional materials or auxiliary products are included beyond those already accounted for in the system.
Module A5 informationValueUnit
Material Loss7
%
Energy consumption during the installation (per kg of product)0.25
kWh

Module C: End-of-life

Description of the additional scenario in module C Dismantling or demolition (C1): This module analyzes the environmental impacts associated with the deconstruction or dismantling of the bitumen membrane on a construction site after their useful life. Module C1 includes all processes and activities used on site for the deconstruction of the bitumen membrane. The consumption of energy and natural resources is negligible for deconstruction of the end-of-life product, as demolition of bitumen membrane roofing is assumed to be done manually. Thus the impacts of demolition are assumed zero. - Transport to waste treatment site (C2): this module considers a default distance of 50 km (distance assumed in most EPD studies, between the construction site where the product was installed and the waste management facility (in this case landfill). - Waste treatment (C3): this module covers the process of processing construction and demolition waste through crushing, a fundamental procedure in sustainable waste management in the construction sector. This stage involves reducing the volume of waste through a crushing process, which has a significant impact on volume reduction and preparing the waste for further management and reuse. All the products waste has been considered to be disposed of in the landfill as it is the most conservative scenario. - Disposal (C4): This module covers the final disposal of any waste that is not directed to recovery or treatment processes. In the 100% recycling scenario, all product waste at end of life is assumed to be collected for recycling. Consequently, no direct landfill disposal of the product is modelled. Any potential disposal of minor recycling residues (e.g., sorting or processing rejects) is considered outside the scope of the product waste stream or assumed to be negligible. Given distribution across multiple countries, a conservative and harmonized end-of-life assumption has been applied to avoid underestimation of impacts due to differences in national waste management practices.
Module C informationValueUnit
Waste collection process, specified by type kg collected mixed with demolition waste1
kg
Waste disposal kg to Recycling/Reuse1
kg
Distance to waste manager (km)50
km

Reference service life

Description of the additional scenario in reference service lifeThe reference service life of the Henkel Product is 60 years.
Reference service life informationValueUnit
Reference service life
60
year(s)

Module D: Beyond product life cycle

Description of the additional scenario in module DModule D, considers the benefits and burdens linked to the processes of recovery, reuse or recycling of waste from the products under study at the end of their useful life, which could be part of the life cycle of a new product. The recycling of the product fully substitutes the manufacture of an equivalent new product; therefore, the avoided burdens of modules A1–A3 are reported as credits in Module D.

Additional scenario 2

Name of the additional scenarioPolyfoam SS45 ECO (100% Reuse)
Description of the additional scenarioThis represents a hypothetical scenario assuming 100% reuse, meaning the entire product is considered fully recycled at the end of its life cycle. Description of system boundaries: Cradle-to-gate with modules C1-C4, module D and optional modules A4 and A5, covering the modules of extraction and processing of raw materials (A1), their transportation to the production plant (A2), the manufacturing process (A3), transport to construction site (A4), installation (A5), end of life (C1-C4) and potential benefits and loads from the reuse and recycling of the products at its end of life (D). Product stage (A1-A3): Raw material supply (A1): this module considers the extraction and processing of raw materials used for the manufacture of the products. Transport of the raw materials (A2): this module consists of the transportation of all raw materials covered by module A1, from the extraction, production, and treatment site to the factory, considering the specific distances of each material supplier. Manufacturing of products (A3): this module refers to the production process of POLYFOAM SS45 ECO in the production plants. The product is received as a single raw material and is kept in tightly sealed, moisture tight drums to prevent any contact with water. After receipt, the batch is subject to quality control checks and samples are taken for QC analysis. Once QC approval is obtained, the product is packed into designated drums and labeled with essential information. This scenario also represents the 100% reuse of product.

Module A4: Transport to the building site

Description of the additional scenario in module A4The Site-to-site transportation includes the transportation of the finished, packaged Polyfoam SS45 ECO from the production facility to the different customers site (A4). The transportation from the facility to customers is therefore estimated by range distances of 55 km based on market share of customer location.
Module A4 informationValueUnit
Distance
55
km
Capacity utilization (including empty returns)
100
%
Bulk density of transported products
45
kg/m3
Volume capacity utilization factor
(factor: =1 or <1 or ≥1 for compressed or
nested packaged products)
1
N/A
Fuel type and consumption of the vehicleDiesel, 16-32 tons trucks with 34 L per 100 km fuel consumption
N/A

Module A5: Installation in the building

Description of the additional scenario in module A5The product is applied manually using a high-pressure spray foam machine for the application of a two-component product such as Polyfoam SS45 ECO. In Module A5, no auxiliary materials are required and no water, or other resources are considered. However, due to the machine application, electricity consumption is required (0.25 kWh/kg product). No additional materials or auxiliary products are included beyond those already accounted for in the system.
Module A5 informationValueUnit
Material loss7
%
Energy consumption during the installation (per kg of product)0.25
kWh

Module C: End-of-life

Description of the additional scenario in module C- Dismantling or demolition (C1): This module analyzes the environmental impacts associated with the deconstruction or dismantling of the bitumen membrane on a construction site after their useful life. Module C1 includes all processes and activities used on site for the deconstruction of the bitumen membrane. The consumption of energy and natural resources is negligible for deconstruction of the end-of-life product, as demolition of bitumen membrane roofing is assumed to be done manually. Thus the impacts of demolition are assumed zero. - Transport to waste treatment site (C2): this module considers a default distance of 50 km (distance assumed in most EPD studies, between the construction site where the product was installed and the waste management facility (in this case landfill). - Waste treatment (C3): this module covers the process of processing construction and demolition waste through crushing, a fundamental procedure in sustainable waste management in the construction sector. This stage involves reducing the volume of waste through a crushing process, which has a significant impact on volume reduction and preparing the waste for further management and reuse. All the products waste has been considered to be disposed of in the landfill as it is the most conservative scenario. - Disposal (C4): This module covers the final disposal of any waste that is not directed to recovery or treatment processes. In the 100% recycling scenario, all product waste at end of life is assumed to be collected for recycling. Consequently, no direct landfill disposal of the product is modelled. Any potential disposal of minor recycling residues (e.g., sorting or processing rejects) is considered outside the scope of the product waste stream or assumed to be negligible. Given distribution across multiple countries, a conservative and harmonized end-of-life assumption has been applied to avoid underestimation of impacts due to differences in national waste management practices.
Module C informationValueUnit
Waste collection process, specified by type kg collected mixed with demolition waste1
kg
Waste disposal kg to Recycling/reuse1
kg
Distance to waste manager (km)50
km

Reference service life

Description of the additional scenario in reference service lifeThe reference service life of the Henkel Product is 60 years.
Reference service life informationValueUnit
Reference service life
60
year(s)

Module D: Beyond product life cycle

Description of the additional scenario in module DModule D, considers the benefits and burdens linked to the processes of recovery, reuse or recycling of waste from the products under study at the end of their useful life, which could be part of the life cycle of a new product. The recycling of the product fully substitutes the manufacture of an equivalent new product; therefore, the avoided burdens of modules A1–A3 are reported as credits in Module D.

Environmental performance

The estimated impact results are only relative statements, which do not indicate the endpoints of the impact categories, exceeding threshold values, safety margins and/or risks.

Mandatory environmental performance indicators according to EN 15804

Impact categoryIndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
Climate change - totalGWP-totalkg CO2 eq.5.53E+08.86E-35.49E-1NDNDNDNDNDNDND0.00E+08.06E-30.00E+02.73E-30.00E+0
Climate change - fossilGWP-fossilkg CO2 eq.5.55E+08.86E-35.10E-1NDNDNDNDNDNDND0.00E+05.38E-70.00E+02.53E-70.00E+0
Climate change - biogenicGWP-biogenickg CO2 eq.-2.99E-25.92E-73.82E-2NDNDNDNDNDNDND0.00E+04.22E-70.00E+01.38E-70.00E+0
Climate change - land use and land-use changeGWP-luluckg CO2 eq.1.11E-24.64E-77.64E-4NDNDNDNDNDNDND0.00E+08.06E-30.00E+02.73E-30.00E+0
Ozone depletionODPkg CFC-11 eq.5.32E-71.10E-103.95E-8NDNDNDNDNDNDND0.00E+09.98E-110.00E+03.92E-110.00E+0
AcidificationAPmol H+ eq.2.39E-22.95E-51.71E-3NDNDNDNDNDNDND0.00E+02.68E-50.00E+02.46E-50.00E+0
Eutrophication aquatic freshwaterEP-freshwaterkg P eq.5.96E-46.11E-84.15E-5NDNDNDNDNDNDND0.00E+05.55E-80.00E+08.97E-90.00E+0
Eutrophication aquatic marineEP-marinekg N eq.7.06E-31.10E-55.05E-4NDNDNDNDNDNDND0.00E+01.00E-50.00E+01.12E-50.00E+0
Eutrophication terrestrialEP-terrestrialmol N eq.5.08E-21.21E-43.69E-3NDNDNDNDNDNDND0.00E+01.10E-40.00E+01.23E-40.00E+0
Photochemical ozone formationPOCPkg NMVOC eq.1.98E-24.17E-51.62E-3NDNDNDNDNDNDND0.00E+03.79E-50.00E+03.72E-50.00E+0
Depletion of abiotic resources - minerals and metalsADP-minerals&metals1kg Sb eq.4.11E-57.21E-102.84E-6NDNDNDNDNDNDND0.00E+06.55E-100.00E+09.08E-110.00E+0
Depletion of abiotic resources - fossil fuelsADP-fossil1MJ, net calorific value9.35E+11.16E-18.64E+0NDNDNDNDNDNDND0.00E+01.06E-10.00E+03.49E-20.00E+0
Water useWDP1m3 world eq. deprived1.69E+01.53E-41.22E-1NDNDNDNDNDNDND0.00E+01.39E-40.00E+03.05E-50.00E+0
AcronymsGWP-fossil = Global Warming Potential fossil fuels; GWP-biogenic = Global Warming Potential biogenic; GWP-luluc = Global Warming Potential land use and land use change; ODP = Depletion potential of the stratospheric ozone layer; AP = Acidification potential, Accumulated Exceedance; EP-freshwater = Eutrophication potential, fraction of nutrients reaching freshwater end compartment; EP-marine = Eutrophication potential, fraction of nutrients reaching marine end compartment; EP-terrestrial = Eutrophication potential, Accumulated Exceedance; POCP = Formation potential of tropospheric ozone; ADP-minerals&metals = Abiotic depletion potential for non-fossil resources; ADP-fossil = Abiotic depletion for fossil resources potential; WDP = Water (user) deprivation potential, deprivation-weighted water consumption
General disclaimerThe results of the end-of-life stage (modules C1-C4) should be considered when using the results of the product stage (modules A1-A3/A1-A5 for services).
Disclaimer 1The results of this environmental impact indicator shall be used with care as the uncertainties of these results are high or as there is limited experience with the indicator

Additional mandatory environmental performance indicators

Impact categoryIndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
Climate change - GWP-GHGGWP-GHG1kg CO2 eq.5.57E+08.86E-35.12E-1NDNDNDNDNDNDND0.00E+08.06E-30.00E+02.73E-30.00E+0
AcronymsGWP-GHG = Global warming potential greenhouse gas.
General disclaimerThe results of the end-of-life stage (modules C1-C4) should be considered when using the results of the product stage (modules A1-A3/A1-A5 for services).
Disclaimer 1The GWP-GHG indicator is termed GWP-IOBC/GHG in the ILCD+EPD+ data format. The indicator accounts for all greenhouse gases except biogenic carbon dioxide uptake and emissions and biogenic carbon stored in the product. As such, the indicator is identical to GWP-total except that the CF for biogenic CO2 is set to zero.

Additional voluntary environmental performance indicators according to EN 15804

Impact categoryIndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
Particulate matter emissionsPMDisease incidence2.95E-78.66E-102.06E-8NDNDNDNDNDNDND0.00E+07.87E-100.00E+01.01E-90.00E+0
Ionizing radiation - human healthIRP1kBq U235 eq.8.35E-24.81E-59.42E-3NDNDNDNDNDNDND0.00E+04.38E-50.00E+03.56E-50.00E+0
Eco-toxicity - freshwaterETP-fw2CTUe1.60E+22.82E-21.11E+1NDNDNDNDNDNDND0.00E+02.56E-20.00E+01.11E-20.00E+0
Human toxicity - cancer effectsHTP-c2CTUh7.49E-91.86E-125.25E-10NDNDNDNDNDNDND0.00E+01.69E-120.00E+01.13E-120.00E+0
Human toxicity - non-cancer effectsHTP-nc2CTUh5.19E-89.50E-113.72E-9NDNDNDNDNDNDND0.00E+08.64E-110.00E+02.54E-110.00E+0
Land-use related impacts/soil qualitySQP2Dimensionless1.74E+19.03E-21.19E+0NDNDNDNDNDNDND0.00E+08.21E-20.00E+03.01E-10.00E+0
AcronymsPM = Potential incidence of disease due to particulate matter emissions; IRP = Potential human exposure efficiency relative to U235; ETP-fw = Potential comparative toxic unit for ecosystems; HTP-c = Potential comparative toxic unit for humans; HTP-nc = Potential comparative toxic unit for humans; SQP = Potential soil quality index.
General disclaimerThe results of the end-of-life stage (modules C1-C4) should be considered when using the results of the product stage (modules A1-A3/A1-A5 for services).
Disclaimer 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.
Disclaimer 2The results of this environmental impact indicator shall be used with care as the uncertainties of these results are high or as there is limited experience with the indicator.

Additional voluntary environmental performance indicators

Impact categoryIndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
High-Level radioactive waste -kg0.00E+00.00E+00.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Intermediate/low-level radioactive waste-kg0.00E+00.00E+00.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Global warming potential(GWP 100)kg CO2 eq5.98E+04.67E-29.74E-3NDNDNDNDNDNDND0.00E+09.93E-30.00E+06.11E-30.00E+0
Ozone depletion potential(ODP)kg CFC-11 eq1.43E-76.55E-103.41E-10NDNDNDNDNDNDND0.00E+01.39E-100.00E+01.84E-100.00E+0
Eutrophication potential(EP)kg N eq3.10E-33.25E-54.26E-6NDNDNDNDNDNDND0.00E+06.91E-60.00E+08.96E-60.00E+0
Acidification potetential(AP)kg SO2 eq1.85E-21.63E-44.05E-5NDNDNDNDNDNDND0.00E+03.47E-50.00E+03.96E-50.00E+0
Photochemical o0idant creation potential(POCP) kg O3 eq2.83E-13.83E-34.93E-4NDNDNDNDNDNDND0.00E+08.15E-40.00E+01.06E-30.00E+0
Acronyms
General disclaimerThe results of the end-of-life stage (modules C1-C4) should be considered when using the results of the product stage (modules A1-A3/A1-A5 for services).
Justification for inclusionAdditional optional indicators

Resource use indicators according to EN 15804

IndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
PEREMJ, net calorific value3.38E+02.13E-31.71E+0NDNDNDNDNDNDND0.00E+01.94E-30.00E+01.43E-30.00E+0
PERMMJ, net calorific value1.40E+00.00E+0-1.40E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
PERTMJ, net calorific value4.78E+02.13E-33.06E-1NDNDNDNDNDNDND0.00E+01.94E-30.00E+01.43E-30.00E+0
PENREMJ, net calorific value1.08E+21.63E-19.88E+0NDNDNDNDNDNDND0.00E+01.49E-10.00E+01.63E-10.00E+0
PENRMMJ, net calorific value1.97E-20.00E+0-1.97E-2NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
PENRTMJ, net calorific value1.08E+21.63E-19.86E+0NDNDNDNDNDNDND0.00E+01.49E-10.00E+01.63E-10.00E+0
SMkg0.00E+00.00E+00.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
RSFMJ, net calorific value0.00E+00.00E+00.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
NRSFMJ, net calorific value0.00E+00.00E+00.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
FWm34.92E-22.14E-53.61E-3NDNDNDNDNDNDND0.00E+01.95E-50.00E+01.59E-40.00E+0
AcronymsPERE = Use of renewable primary energy excluding renewable primary energy resources used as raw materials; PERM = Use of renewable primary energy resources used as raw materials; PERT = Total use of renewable primary energy resources; PENRE = Use of non-renewable primary energy excluding non-renewable primary energy resources used as raw materials; PENRM = Use of non-renewable primary energy resources used as raw materials; PENRT = Total use of non-renewable primary energy re-sources; SM = Use of secondary material; RSF = Use of renewable secondary fuels; NRSF = Use of non-renewable secondary fuels; FW = Use of net fresh water.
General disclaimerThe results of the end-of-life stage (modules C1-C4) should be considered when using the results of the product stage (modules A1-A3/A1-A5 for services).

Waste indicators according to EN 15804

IndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
HWDkg5.53E-34.17E-66.32E-3NDNDNDNDNDNDND0.00E+03.79E-60.00E+02.24E-60.00E+0
NHWDkg3.89E-17.13E-34.27E-2NDNDNDNDNDNDND0.00E+06.48E-30.00E+01.00E+00.00E+0
RWDkg5.38E-53.03E-86.67E-6NDNDNDNDNDNDND0.00E+02.75E-80.00E+02.24E-80.00E+0
AcronymsHWD = Hazardous waste disposed; NHWD = Non-hazardous waste disposed; RWD = Radioactive waste disposed.
General disclaimerThe results of the end-of-life stage (modules C1-C4) should be considered when using the results of the product stage (modules A1-A3/A1-A5 for services).

Output flow indicators according to EN 15804

IndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
CRUkg0.00E+00.00E+00.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
MFRkg0.00E+00.00E+00.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
MERkg0.00E+00.00E+00.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
EEEMJ, net calorific value0.00E+00.00E+00.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
EETMJ, net calorific value0.00E+00.00E+00.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
AcronymsCRU = Components for re-use; MFR = Materials for recycling; MER = Materials for energy recovery; EEE = Exported electrical energy; EET = Exported thermal energy.
General disclaimerThe results of the end-of-life stage (modules C1-C4) should be considered when using the results of the product stage (modules A1-A3/A1-A5 for services).

Results for additional scenarios for modules A4-C4

Additional scenarioPolyfoam SS45 ECO (100% recycling)
Description of the scenario/methodThis scenario results are valid for both 100% reuse and 100% recycling scenarios.
Results for additional scenarios for modules A4-C4
Impact categoryIndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
Global warming potential - total (GWP-total)GWP-fossilkg CO2 eq.5.55E+08.86E-35.10E-1NDNDNDNDNDNDND0.00E+01.01E-24.40E-3-6.08E+0-4.59E-1
Global warming potential - fossil fuels (GWP-fossil)GWP-biogenickg CO2 eq.-2.99E-25.92E-73.82E-2NDNDNDNDNDNDND0.00E+01.01E-24.40E-3-6.06E+0-4.58E-1
Global warming potential - biogenic (GWP-biogenic)GWP-luluckg CO2 eq.1.11E-24.64E-77.64E-4NDNDNDNDNDNDND0.00E+02.52E-64.89E-7-9.14E-3-8.80E-4
Global warming potential - land use and land use change (GWP-luluc)GWP-Totalkg CO2 eq.5.53E+08.86E-35.49E-1NDNDNDNDNDNDND0.00E+04.54E-64.50E-7-1.20E-2-2.06E-4
Depletion potential of the stratospheric ozone layer (ODP)ODPkg CFC 11 eq.5.32E-71.10E-103.95E-8NDNDNDNDNDNDND0.00E+01.32E-106.53E-11-5.40E-7-6.03E-9
Acidification potential, accumulated exceedance (AP)APmol H+ eq.2.39E-22.95E-51.71E-3NDNDNDNDNDNDND0.00E+03.84E-53.93E-5-2.89E-2-1.23E-3
Eutrophication potential - freshwater (EP-freshwater)EP-freshwaterkg P eq.5.96E-46.11E-84.15E-5NDNDNDNDNDNDND0.00E+01.25E-71.54E-8-6.32E-4-7.60E-6
Eutrophication potential - marine (EP-marine)EP-marinekg N eq.7.06E-31.10E-55.05E-4NDNDNDNDNDNDND0.00E+01.28E-51.83E-5-7.75E-3-3.16E-4
Eutrophication potential - terrestrial (EP-terrestrial)EP-terrestrialmol N eq.5.08E-21.21E-43.69E-3NDNDNDNDNDNDND0.00E+01.42E-42.00E-4-5.92E-2-3.59E-3
Photochemical ozone creation potential (POCP)POCPkg NMVOC eq.1.98E-24.17E-51.62E-3NDNDNDNDNDNDND0.00E+05.21E-55.99E-5-2.24E-2-1.25E-3
Abiotic depletion potential - non-fossil resources (ADPE)ADP-minerals and metals1kg Sb eq.4.11E-57.21E-102.84E-6NDNDNDNDNDNDND0.00E+03.31E-81.57E-9-8.57E-5-1.39E-6
Abiotic depletion potential - fossil resources (ADPF)ADP-fossil1MJ9.35E+11.16E-18.64E+0NDNDNDNDNDNDND0.00E+01.40E-15.73E-2-1.00E+2-4.04E+0
Water (user) deprivation potential (WDP)WDP1m31.69E+01.53E-41.22E-1NDNDNDNDNDNDND0.00E+06.48E-41.22E-4-1.86E+0-8.21E-2
Global warming potential - total (GWP-GHG)GWP-GHGkg CO2 eq.5.57E+08.86E-35.12E-1NDNDNDNDNDNDND0.00E+01.00E-24.39E-3-5.90E+0-3.98E-1
Acronyms
Disclaimers
General disclaimerThe results of the end-of-life stage (modules C1-C4) should be considered when using the results of the product stage (modules A1-A3/A1-A5 for services).

Abbreviations

EN European Norm (Standard)

EPD Environmental Product Declaration

EF Environmental Footprint

GPI General Programme Instructions

ISO International Organization for Standardization

LCA Life Cycle Assessment

PCR Product Category Rules

c-PCR Complementary Product Category Rules

CEN European Committee for Standardization

CLC Co-location centre

CPC Central product classification

GHS Globally harmonized system of classification and labelling of chemicals

GRI Global Reporting Initiative

Environmental Impact Indicators (EN 15804)

GHG Greenhouse gas

GWP Global Warming Potential (kg CO₂ eq.)

GWP-fossil Global Warming Potential from fossil sources (kg CO₂ eq.)

GWP-biogenic Global Warming Potential from biogenic sources (kg CO₂ eq.)

GWP-luluc Global Warming Potential from land use and land use change (kg CO₂ eq.)

GWP-total Total Global Warming Potential (kg CO₂ eq.)

GWP-GHG Global Warming Potential for greenhouse gases (kg CO₂ eq.)

ODP Ozone Depletion Potential (kg CFC-11 eq.)

AP Acidification Potential (mol H⁺ eq.)

EP Eutrophication Potential

EP-freshwater Freshwater eutrophication potential (kg P eq.)

EP-marine Marine eutrophication potential (kg N eq.)

EP-terrestrial Terrestrial eutrophication potential (mol N eq.)

POCP Photochemical Ozone Creation Potential (kg NMVOC eq.)

ADP Abiotic Depletion Potential

ADP-minerals&metals Abiotic depletion potential for non-fossil resources (kg Sb eq.)

ADP-fossil Abiotic depletion potential for fossil resources (MJ)

WDP Water Deprivation Potential (m³)

Resource Use Indicators

PERE Use of renewable primary energy excluding renewable primary energy resources used as raw materials (MJ)

PERM Use of renewable primary energy resources used as raw materials (MJ)

PERT Total use of renewable primary energy resources (MJ)

PENRE Use of non-renewable primary energy excluding non-renewable primary energy resources used as raw materials (MJ)

PENRM Use of non-renewable primary energy resources used as raw materials (MJ)

PENRT Total use of non-renewable primary energy resources (MJ)

SM Use of secondary material (kg)

RSF Use of renewable secondary fuels (MJ)

NRSF Use of non-renewable secondary fuels (MJ)

FW Use of net fresh water (m³)

Waste Indicators

HW Hazardous Waste (disposed) (kg)

NHW Non-Hazardous Waste (disposed) (kg)

RW Radioactive Waste (disposed) (kg)

Output Flow Indicators

CFR Components for Reuse (kg)

MR Material for Recycling (kg)

MER Materials for Energy Recovery (kg)

EEE Exported Energy, Electricity (MJ)

EET Exported Energy, Thermal (MJ)

Lifecycle Stages / Modules

A1 Raw material supply

A2 Transport

A3 Manufacturing

A4 Transport to site

A5 Construction/Installation

B1 Use

B2 Maintenance

B3 Repair

B4 Replacement

B5 Refurbishment

B6 Operational energy use

B7 Operational water use

C1 Deconstruction/Demolition

C2 Transport to waste processing

C3 Waste processing

C4 Disposal

D Reuse-Recovery-Recycling potential

Other Relevant Terms

SVHC Substances of Very High Concern

EC No. European Community Number

CAS No. Chemical Abstracts Service Number

MJ Megajoule

kg Kilogram

m³ Cubic Meter

NMVOC Non-Methane Volatile Organic Compounds

Sb eq. Antimony Equivalents

P eq. Phosphorus Equivalents

N eq. Nitrogen Equivalents

CFC-11 eq. Chlorofluorocarbon-11 Equivalents

CO₂ eq. Carbon Dioxide Equivalents

kg C Kilograms of Carbon

kg CO₂ eq. Kilograms of Carbon Dioxide Equivalent

ND Not Declared

References

General Programme Instructions of the International EPD® System. Version 5.0.1.

Product Category Rules PCR 2019:14 Construction products, version 2.0.1 Published on 2025.04.07 valid until: 2030.04.07, based on the European standard UNI-EN 15804:2012+A2:2020.

UNI-EN ISO 14040:2006 – Environmental management – Life Cycle Assessment – Principles and framework.

UNI-EN ISO 14044:2006 – Environmental management – Life Cycle Assessment – Requirements.

UNI-EN ISO 14025:2006- Labels and environmental declarations.

ISO/TR 14047: 2003 – Environmental management – Life Cycle Assessment – LCI application examples.

ISO/TS 14048: 2003 – Environmental management – Life Cycle Assessment – Data inventory.

ISO/TR 14049: 2000 – Environmental management – Life Cycle Assessment – Examples of application of objectives and scope and inventory analysis.

UNI-EN 15804:2012+A2: Sustainability in construction. Product environmental statements. Commodity category rules for construction products.

ISO (2017): ISO 21930:2017, Sustainability in buildings and civil engineering works -- Core rules for environmental product declarations of construction products and services

Version history

001, 2026-05-12