EPD-IES-0032340:001

Wavin Pex-One Pipe

Wavin Pex-One is a three-layer crosslinked polyethylene (PE-Xc) pipe with an integrated EVOH oxygen diffusion barrier. The EVOH barrier prevents oxygen ingress into closed heating circuits, protecting metal components from corrosion. This product variant is a bare pipe coil of 600 metres in dimension 15×2.5 mm. It is designed for potable water distribution and hydronic heating systems in residential and commercial buildings. The pipe is compatible with Wavin TIGRIS press fittings (K2 in PPSU), Wavin Hep2o, Wavin Push and brass screw fittings. It is VA-approved and GDV-approved (Godkendt til drikkevand) for the Danish market.

General information

EPD OwnerWavin B.V.
Registration numberEPD-IES-0032340:001
EPD typeEPD of a single product from a manufacturer/service provider
StatusValid
Version date2026-06-26
Validity date2031-06-26
Standards conformanceISO 14025:2006, EN 15804:2012+A2:2019/AC:2021
Geographical scopeEurope, Poland
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 serves 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 verifierMartijn van Hövell (SGS Global)
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 OwnerWavin B.V.
Contact person nameLokesh Anaparthi
Contact person e-maillokesh.anaparthi@orbia.com
Organisation addressSchiphol Boulevard 425 1118 BK Schiphol The Netherlands
LCA PractitionerLokesh Anaparthi, lokesh.anaparthi@orbia.com Dimitria Nunes, dnunes@ecochain.com

Description of the organisation of the EPD Owner

Orbia’s Building & Infrastructure business – Wavin is an innovative solutions provider for the global building and infrastructure industry. Backed by more than 60 years of product development experience, Orbia Wavin is advancing life around the world by building healthy, sustainable environments for global citizens. Whether it’s to improve the distribution of clean drinking water, to make sanitation accessible for everyone, to create climate resilient cities or to design comfortable living spaces, Orbia Wavin collaborates with municipal leaders, engineers, contractors and installers to help future-proof communities, buildings and homes. Orbia Wavin has close to 11,000 employees across approximately 50 production sites worldwide, serving over 90 countries through a global sales and distribution network. Wavin (an Orbia business) delivers integrated solutions across four key segments: • Building systems for safe drinking water supply and wastewater drainage, including low‑noise solutions. • Infrastructure systems supporting community water supply, sewage, wastewater and stormwater networks. • Urban Climate Resilience (UCR) solutions for rainwater infiltration, attenuation and blue‑green roofs; and • Indoor Climate Solutions (ICS) for advanced indoor temperature and ventilation control. Together, these offerings help create healthier buildings and more resilient, sustainable communities worldwide.

Organisation images

Organisation logo

Product information

Product nameWavin Pex-One Pipe 15mm 600m
Product identificationCatalog Code - 3079731 EAN Number - 5900360910771 VVS nr. - 87365745 SAP number - 3079731
Product descriptionWavin Pex-One is a three-layer crosslinked polyethylene (PE-Xc) pipe with an integrated EVOH oxygen diffusion barrier. The EVOH barrier prevents oxygen ingress into closed heating circuits, protecting metal components from corrosion. This product variant is a bare pipe coil of 600 metres in dimension 15×2.5 mm. It is designed for potable water distribution and hydronic heating systems in residential and commercial buildings. The pipe is compatible with Wavin TIGRIS press fittings (K2 in PPSU), Wavin Hep2o, Wavin Push and brass screw fittings. It is VA-approved and GDV-approved (Godkendt til drikkevand) for the Danish market.
Product information from external sourceshttps://wavin.com/dk/da/s/C01_F001_S102/pex-one
Technical purpose of productThe Wavin Pex-One pipe is designed for the pressure supply and transport of hot and cold potable water as well as heating medium within buildings. It serves as distribution and connection piping in domestic water installations and hydronic heating systems such as radiator connections and floor heating. The EVOH oxygen barrier prevents oxygen diffusion through the pipe wall in accordance with DIN 4726, protecting iron and steel heating components from corrosion in closed circuits. The pipe operates at a maximum continuous temperature of 70 °C and a maximum short-term temperature of 95 °C at a working pressure of 10 bar. Installation is carried out as exposed or accessible piping, in compliance with DS 439 (water installations) and DS 469 (heating installations). The system supports manifold-based distribution with Wavin TIGRIS wallboxes and manifolds for point-to-point connections to each fixture.
Manufacturing or service provision descriptionThe manufacturing process for Wavin Pex-one pipe begins with the co-extrusion of high-density polyethylene (HDPE) granulate and EVOH material into a multilayer pipe through a multi-layer extrusion die. After extrusion, the pipe undergoes crosslinking using the electron beam method (method c / PE-Xc), which creates intermolecular bonds that increase mechanical strength and thermal resistance. The crosslinked pipe is then cooled, tested inline for dimensional tolerances and barrier integrity, and coiled to the specified lengths. Quality control is maintained.
Material propertiesMass per piece: 67.3 kg/piece
Mass per piece:
67.3 kg/piece
Manufacturing siteMultilayer Pipe Company (MPC) Sp. z o.o MPC Pęcz 59 57-100 Strzelin Poland
UN CPC code36320. Tubes, pipes and hoses, and fittings therefor, of plastics
Geographical scopeEurope, Poland
Geographical scope descriptionA1, A2, A5, C1-C4 & D - Europe A3 - Poland
Actual or technical lifespan50 year(s)

Product images

Technical characteristics and performance

Technical performance

Product nameColourOuter DiameterWall ThicknessInner DiameterCoil LengthPressure ClassDensity
Pex-One Pipe 15mm 600mWhite15 mm2.5 mm10 mm600 mPN 10945 kg/m³

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 unit
HDPE53.82000
Adhesive (LLDPE Based)2.06000
Ethylene Vinyl Alcohol1.98000
Stabilizer0.21000
Ink0.01000
Total58.08000
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 unit
Cardboard/Paper46.891.8
Plastics0.220.380
Pallet (Wood)58.612.22
Total9.2215.884.02
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 flowPEXc/EVOH Pipe IV 15x2.5 L=600 Number of pieces: 1 piece(s)
Conversion factor to mass67.3
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 SoftwareEcochain Helix 4.3.1
Additional information about the underlying LCA-based information

Cut-off Criteria - All relevant inputs and outputs like emissions, energy and materials have been taken into account in this LCA. In accordance with EN15804, the total neglected input flows per module does not exceed 5% of energy usage and mass.

Version of the EN 15804 reference packageEF Reference Package 3.1
Characterisation methodsGWP100, EN 15804. Version: EF 3.1, February 2023. Acidification potential, AP, accumulated exceedence, EN 15804. Version: February 2023. Eutrophication potential (EP) Version 2.0 of the default list of indicators (valid from 2022-03-29) Photochemical ozone creation potential (POCP), POCP, LOTOS-EUROS as applied in ReCiPe, EN 15804. Version: February 2023. Ozone depletion potential (ODP), EN 15804. Version: February 2023. Abiotic depletion potential (ADP) for minerals and metals (non-fossil resources), ADP minerals & metals, EN 15804. Version: February 2023.Abiotic depletion potential (ADP) for fossil resources, ADP fossil resources, EN 15804. Version: August 2021.Water deprivation potential (WDP), (Available water remaining (AWARE) method), EN 15804.
Technology description including background systemPEXc/EVOH multilayer pipe, composed of cross-linked polyethylene with EVOH oxygen diffusion barrier layer. The pipe operates at a maximum continuous temperature of 70 °C and a maximum short-term temperature of 95 °C at a working pressure of 10 bar.
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 data quality assessment identified no poor, or very poor datasets among those contributing at least 80% of the environmental impact results, in line with EN 15804+A2 and in line with requirements in Section 4.6, based on EN 15941. The overall data quality has been evaluated as good for geographical and technological representativeness and very good for temporal representativeness with reference year 2024.
Data quality assessment
Process nameSource typeSourceReference yearData categoryShare of primary data, of GWP-GHG results for A1-A3
Production of HDPEDatabaseEcoinvent v3.112024Secondary Data0%
Manufacturing of product, including generation of electricity used in manufacturing of productCollected Data/DatabaseEPD Owner & Ecoinvent v3.112024Primary Data1.91%
Transport of materials & packaging to manufacturing siteDatabaseEcoinvent v3.112024Primary Data4.82%
OthersDatabaseEcoinvent v3.112024Secondary Data0%
Total share of primary data, of GWP-GHG results for A1-A36.73%
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 mixSpecific electricity mix as generated, or purchased from an electricity supplier, demonstrated by a contractual instrument
Energy sourcesHydro0%
Wind100%
Solar0%
Biomass0%
Geothermal0%
Waste0%
Nuclear0%
Natural gas0%
Coal0%
Oil0%
Peat0%
Other0%
GWP-GHG intensity (kg CO2 eq./kWh)0.03 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 modulesModule A4 as its optional and varies based on the customer or country the product is sold or installed & Module B as its not relevant for this 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 declaredXXXNDXNDNDNDNDNDNDNDXXXXX
GeographyEuropeEuropePolandEuropeEuropeN/AN/AN/AN/AN/AN/AN/AEuropeEuropeEuropeEuropeEurope
Share of specific data6.73%--------------
Variation - products0%--------------
Variation - sites0%--------------
DisclaimerThe share of specific/primary data and both variations (products and sites) refer to GWP-GHG results only.

Description of the process flow diagram(s)

The raw materials (HDPE, LLDPE adhesive, EVOH and stabilizer) are transported to the MPC production facility in Poland, where the pipe is manufactured through extrusion, electron-beam crosslinking, and co-extrusion of the EVOH oxygen barrier layer. After cooling, the pipe is printed, cut to length, and packaged for distribution. Module A4 and modules B1–B7 are not declared. At end of life, the product is directed to incineration (67%) and landfill (33%), with energy recovery benefits reported in module D.

Process flow diagram(s) related images

Default scenario

Name of the default scenarioDefault Scenario (Module A5, C1-C4 & D).
Description of the default scenario67% incineration + 33% landfill (no recycling for main materials). Based on European average waste treatment scenario.

Module A5: Installation in the building

Explanatory name of the default scenario in module A5Packaging Waste
Brief description of the default scenario in module A5Waste treatment of packaging materials
Description of the default scenario in module A5Module A5 includes the waste treatment of packaging materials generated at the building site after unpacking the product. This covers transport of packaging waste to waste treatment facilities, sorting, recycling, incineration, and landfill of the packaging materials. The installation of the pipe itself is excluded, as it is performed by the client (constructor) and Wavin has no direct control over this process. Waste treatment scenarios are based on European average data. The potential for reuse, recovery and recycling benefits from packaging is reported in module D
Module A5 informationValueUnit
Packaging waste collected at the Installation site9.22
kg
Transport to waste facility80
km

Module C: End-of-life

Explanatory name of the default scenario in module CEnd-of-life Scenario
Brief description of the default scenario in module CIncludes Deconstruction, transport to waste treatment, incineration & Landfill
Description of the default scenario in module CThese lifecycle stages include deconstruction of the pipe system, transport of waste to incineration and sanitary landfill, and disposal of waste in municipal waste incineration plants and sanitary landfill. No recycling of the main product materials is considered. The end-of-life scenario assumes 67% of the product mass is directed to incineration and 33% to landfill, based on the European average waste treatment ratio when recycling is excluded.
Module C informationValueUnit
Total waste to incineration38.72
kg
Total waste to landfill19.36
kg
Distance to incineration130
km
Distance to Landfill80
km

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 from energy recovery of incinerated waste
Description of the default scenario in module DBenefits and avoided burdens beyond the system boundary associated with energy recovery from the incineration of polyethylene-based pipe materials. The energy recovery is based on the lower heating value (LHV) of the materials, with an electrical efficiency of 15.0% and a thermal efficiency of 37.1%, derived from the CEWEP Energy Report III for European Waste-to-Energy plants. No recycling benefits are considered for the main product materials. The amount of secondary material input in the product system is 0%, as no post-consumer recycled material is used.
Module D informationValueUnit
Post-consumer material0
kg

Additional scenario 1

Name of the additional scenario100% Recycling
Description of the additional scenarioA5, C1-C4 & D Modules

Module A5: Installation in the building

Description of the additional scenario in module A5The installation impacts are not modelled, because installation depends on customer or location specific factors making a representative scenario impractical. So, only end-of-life treatment of the packaging is considered in A5.

Module C: End-of-life

Description of the additional scenario in module C100% Recycling of Pex-one pipe

Module D: Beyond product life cycle

Description of the additional scenario in module DModule D - Benefits and loads (recycling beyond system boundary)

Additional scenario 2

Name of the additional scenario100% Landfill
Description of the additional scenarioA5, C1-C4 & D Modules

Module A5: Installation in the building

Description of the additional scenario in module A5100% landfilling of packaging waste

Module C: End-of-life

Description of the additional scenario in module C100% Landfilling of Pex-one pipe

Module D: Beyond product life cycle

Description of the additional scenario in module DThere are no benefits once the product has been sent to landfill

Additional scenario 3

Name of the additional scenario100% Incineration
Description of the additional scenarioA5, C1-C4 & D Modules

Module A5: Installation in the building

Description of the additional scenario in module A5100% Incineration of packaging waste

Module C: End-of-life

Description of the additional scenario in module C100% Pex-one pipe waste is sent to incineration facility

Module D: Beyond product life cycle

Description of the additional scenario in module DThe incineration of the PVC & other materials generates thermal and electrical energy

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.1.60E+2ND1.57E+1NDNDNDNDNDNDND0.00E+09.85E-10.00E+01.21E+2-8.21E+1
Climate change - fossilGWP-fossilkg CO2 eq.1.74E+2ND9.06E-1NDNDNDNDNDNDND0.00E+09.84E-10.00E+01.21E+2-8.21E+1
Climate change - biogenicGWP-biogenickg CO2 eq.-1.46E+1ND1.48E+1NDNDNDNDNDNDND0.00E+02.00E-40.00E+01.03E-3-1.31E-2
Climate change - land use and land-use changeGWP-luluckg CO2 eq.1.26E-1ND1.28E-4NDNDNDNDNDNDND0.00E+03.48E-40.00E+03.86E-4-1.58E-2
Ozone depletionODPkg CFC-11 eq.7.29E-6ND5.50E-9NDNDNDNDNDNDND0.00E+02.18E-80.00E+02.24E-8-2.88E-6
AcidificationAPmol H+ eq.5.53E-1ND1.58E-3NDNDNDNDNDNDND0.00E+02.21E-30.00E+01.67E-2-8.53E-2
Eutrophication aquatic freshwaterEP-freshwaterkg P eq.5.55E-3ND4.24E-6NDNDNDNDNDNDND0.00E+07.63E-60.00E+01.59E-5-3.37E-4
Eutrophication aquatic marineEP-marinekg N eq.1.28E-1ND5.82E-4NDNDNDNDNDNDND0.00E+05.36E-40.00E+07.99E-3-2.88E-2
Eutrophication terrestrialEP-terrestrialmol N eq.1.38E+0ND6.28E-3NDNDNDNDNDNDND0.00E+05.93E-30.00E+08.49E-2-3.08E-1
Photochemical ozone formationPOCPkg NMVOC eq.8.95E-1ND2.28E-3NDNDNDNDNDNDND0.00E+03.58E-30.00E+02.22E-2-1.83E-1
Depletion of abiotic resources - minerals and metalsADP-minerals&metals1kg Sb eq.9.95E-4ND1.30E-6NDNDNDNDNDNDND0.00E+03.30E-60.00E+02.84E-6-3.23E-5
Depletion of abiotic resources - fossil fuelsADP-fossil1MJ, net calorific value4.78E+3ND4.16E+0NDNDNDNDNDNDND0.00E+01.42E+10.00E+01.58E+1-1.28E+3
Water useWDP1m3 world eq. deprived8.68E+1ND7.70E-2NDNDNDNDNDNDND0.00E+07.09E-20.00E+09.03E-1-1.29E+1
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.1.75E+2ND9.32E-1NDNDNDNDNDNDND0.00E+09.85E-10.00E+01.21E+2-8.21E+1
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 incidence4.69E-6ND3.09E-8NDNDNDNDNDNDND0.00E+07.98E-80.00E+09.94E-8-5.14E-7
Ionizing radiation - human healthIRP1kBq U235 eq.3.85E+0ND4.08E-3NDNDNDNDNDNDND0.00E+06.53E-30.00E+08.08E-3-2.70E-1
Eco-toxicity - freshwaterETP-fw2CTUe4.60E+2ND3.01E+0NDNDNDNDNDNDND0.00E+01.91E+00.00E+02.91E+1-5.35E+1
Human toxicity - cancer effectsHTP-c2CTUh4.52E-8ND1.99E-10NDNDNDNDNDNDND0.00E+01.63E-100.00E+04.12E-9-9.67E-9
Human toxicity - non-cancer effectsHTP-nc2CTUh1.28E-6ND8.21E-9NDNDNDNDNDNDND0.00E+08.98E-90.00E+01.59E-7-1.19E-7
Land-use related impacts/soil qualitySQP2Dimensionless1.31E+3ND2.00E+0NDNDNDNDNDNDND0.00E+01.07E+10.00E+01.40E+1-6.92E+2
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.

Resource use indicators according to EN 15804

IndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
PEREMJ, net calorific value2.98E+2ND1.42E-1NDNDNDNDNDNDND0.00E+02.42E-10.00E+04.14E-1-1.44E+2
PERMMJ, net calorific value1.34E+2ND-5.28E+1NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
PERTMJ, net calorific value4.31E+2ND-5.27E+1NDNDNDNDNDNDND0.00E+02.42E-10.00E+04.14E-1-1.44E+2
PENREMJ, net calorific value2.78E+3ND4.43E+0NDNDNDNDNDNDND0.00E+01.51E+10.00E+01.71E+1-1.41E+3
PENRMMJ, net calorific value2.36E+3ND-2.91E-1NDNDNDNDNDNDND0.00E+00.00E+00.00E+0-8.46E+20.00E+0
PENRTMJ, net calorific value5.13E+3ND4.14E+0NDNDNDNDNDNDND0.00E+01.51E+10.00E+0-8.29E+2-1.41E+3
SMkg0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
RSFMJ, net calorific value0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
NRSFMJ, net calorific value0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
FWm31.29E+0ND2.43E-3NDNDNDNDNDNDND0.00E+02.16E-30.00E+0-5.62E-2-3.21E-1
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
HWDkg8.85E-2ND2.97E-5NDNDNDNDNDNDND0.00E+09.69E-50.00E+02.14E-4-6.76E-3
NHWDkg2.10E+1ND2.00E-1NDNDNDNDNDNDND0.00E+08.91E-10.00E+02.01E+1-1.27E+0
RWDkg2.99E-3ND3.11E-6NDNDNDNDNDNDND0.00E+04.46E-60.00E+05.04E-6-1.94E-4
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+0ND4.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
MFRkg0.00E+0ND3.39E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
MERkg0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
EEEMJ, net calorific value0.00E+0ND4.83E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+02.44E+20.00E+0
EETMJ, net calorific value0.00E+0ND1.19E+1NDNDNDNDNDNDND0.00E+00.00E+00.00E+06.03E+20.00E+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 scenario100% Recycling
Description of the scenario/method100% Recycling
Results for additional scenarios for modules A4-C4
Impact categoryIndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
Climate changeGlobal Warming Potential total (GWP-total)kg CO2 eq.1.60E+2ND1.52E+1NDNDNDNDNDNDND0.00E+07.12E-11.22E+15.25E+0-9.10E+1
Climate change - FossilGlobal Warming Potential fossil fuels (GWP-fossil)kg CO2 eq.1.74E+2ND4.42E-1NDNDNDNDNDNDND0.00E+07.11E-11.13E+15.25E+0-9.09E+1
Climate change - BiogenicGlobal Warming Potential biogenic (GWP-biogenic)kg CO2 eq.-1.46E+1ND1.48E+1NDNDNDNDNDNDND0.00E+01.45E-48.87E-12.83E-4-5.34E-2
Climate change - Land use and LU changeGlobal Warming Potential land use and land use change (GWP-luluc)kg CO2 eq.1.30E-1ND2.59E-4NDNDNDNDNDNDND0.00E+02.51E-41.07E-23.80E-5-5.86E-2
Ozone depletionDepletion potential of the stratospheric ozone layer (ODP)kg CFC 11 eq.0.00E+0ND6.28E-9NDNDNDNDNDNDND0.00E+01.58E-81.26E-71.59E-9-4.42E-6
AcidificationAcidification potential, Accumulated Exceedance (AP)mol H+ eq.5.50E-1ND1.71E-3NDNDNDNDNDNDND0.00E+01.60E-34.27E-21.12E-3-2.63E-1
Eutrophication aquatic freshwaterEutrophication potential, fraction of nutrients reaching freshwater end compartment (EP-freshwater)kg P eq.0.00E+0ND8.35E-6NDNDNDNDNDNDND0.00E+05.51E-62.60E-41.40E-6-1.89E-3
Eutrophication aquatic marineEutrophication potential, fraction of nutrients reaching marine end compartment (EP-marine)kg N eq.1.30E-1ND5.56E-4NDNDNDNDNDNDND0.00E+03.87E-41.31E-25.28E-4-5.60E-2
Eutrophication terrestrialEutrophication potential, Accumulated Exceedance (EP-terrestrial)mol N eq.1.38E+0ND6.07E-3NDNDNDNDNDNDND0.00E+04.29E-31.39E-15.45E-3-5.99E-1
Photochemical ozone formationFormation potential of tropospheric ozone (POCP)kg NMVOC eq.9.00E-1ND2.44E-3NDNDNDNDNDNDND0.00E+02.58E-35.20E-21.37E-3-4.92E-1
Depletion of abiotic resources minerals and metalsAbiotic depletion potential for non-fossil resources (ADP-minerals&metals)kg Sb eq.0.00E+0ND1.76E-6NDNDNDNDNDNDND0.00E+02.39E-66.04E-52.38E-7-4.64E-4
Depletion of abiotic resources fossil fuelsAbiotic depletion for fossil resources potential (ADP-fossil)MJ, net calorific value4.78E+3ND5.49E+0NDNDNDNDNDNDND0.00E+01.03E+11.29E+29.15E-1-2.84E+3
Water useWater (user) deprivation potential, deprivation-weighted water consumption (WDP)m3 world eq. deprived8.64E+1ND5.04E-2NDNDNDNDNDNDND0.00E+05.12E-23.27E+02.83E-1-6.26E+1
Climate change - GWP-GHGGlobal warming potential greenhouse gas (GWP-GHG)kg CO2 eq.1.75E+2ND4.81E-1NDNDNDNDNDNDND0.00E+07.12E-11.22E+15.25E+0-9.10E+1
Particulate matter emissionsPotential incidence of disease due to particulate matter emissions (PM)Disease incidence0.00E+0ND3.62E-8NDNDNDNDNDNDND0.00E+05.76E-88.71E-75.98E-9-1.78E-6
Ionising radiation, human healthPotential human exposure efficiency relative to U235 (IRP)kBq U235 eq.3.81E+0ND1.13E-2NDNDNDNDNDNDND0.00E+04.72E-31.19E-16.20E-4-2.42E+0
Eco-toxicity, freshwaterPotential comparative toxic unit for ecosystems (ETP-fw)CTUe4.66E+2ND1.50E+0NDNDNDNDNDNDND0.00E+01.38E+07.82E+19.45E+0-2.06E+2
Human toxicity, cancer effectsPotential comparative toxic unit for humans (HTP-c)CTUh0.00E+0ND1.63E-10NDNDNDNDNDNDND0.00E+01.18E-101.69E-81.06E-9-1.73E-8
Human toxicity, non-cancer effectsPotential comparative toxic unit for humans (HTP-nc)CTUh0.00E+0ND4.30E-9NDNDNDNDNDNDND0.00E+06.49E-91.71E-71.59E-8-5.40E-7
Land-use related impacts / soil qualityPotential soil quality index (SQP)Dimensionless1.31E+3ND2.45E+0NDNDNDNDNDNDND0.00E+07.73E+01.17E+22.72E-1-9.84E+2
Resource useUse of renewable primary energy excluding renewable primary energy resources used as raw materials (PERE)MJ, net calorific value2.91E+2ND3.40E-1NDNDNDNDNDNDND0.00E+01.75E-17.31E+03.80E-2-2.20E+2
Resource useUse of renewable primary energy resources used as raw materials (PERM)MJ, net calorific value1.34E+2ND-1.34E+2NDNDNDNDNDNDND0.00E+00.00E+0-1.34E+20.00E+00.00E+0
Resource useTotal use of renewable primary energy resources (PERT)MJ, net calorific value4.24E+2ND-1.33E+2NDNDNDNDNDNDND0.00E+01.75E-1-1.26E+23.80E-2-2.20E+2
Resource useUse of non-renewable primary energy excluding non-renewable primary energy resources used as raw materials (PENRE)MJ, net calorific value2.78E+3ND5.82E+0NDNDNDNDNDNDND0.00E+01.09E+11.38E+29.92E-1-3.05E+3
Resource useUse of non-renewable primary energy resources used as raw materials (PENRM)MJ, net calorific value2.36E+3ND-5.82E+0NDNDNDNDNDNDND0.00E+00.00E+0-1.59E+3-1.39E+00.00E+0
Resource useTotal use of non-renewable primary energy resources (PENRT)MJ, net calorific value5.14E+3ND-1.07E-3NDNDNDNDNDNDND0.00E+01.09E+1-1.45E+3-3.96E-1-3.05E+3
Resource useUse of secondary material (SM)kg0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Resource useUse of renewable secondary fuels (RSF)MJ, net calorific value0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Resource useUse of non-renewable secondary fuels (NRSF)MJ, net calorific value0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Resource useUse of net fresh water (FW)m31.28E+0ND1.79E-3NDNDNDNDNDNDND0.00E+01.56E-38.46E-28.44E-3-8.95E-1
Waste categoriesHazardous waste disposed (HWD)kg9.00E-2ND3.53E-5NDNDNDNDNDNDND0.00E+07.00E-51.33E-31.20E-5-5.59E-2
Waste categoriesNon-hazardous waste disposed (NHWD)kg2.13E+1ND1.77E-1NDNDNDNDNDNDND0.00E+06.44E-14.48E+05.57E-2-4.25E+0
Waste categoriesRadioactive waste disposed (RWD)kg0.00E+0ND8.90E-6NDNDNDNDNDNDND0.00E+03.22E-67.93E-54.09E-7-1.89E-3
Output flowsComponents for re-use (CRU)kg0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Output flowsMaterials for recycling (MFR)kg0.00E+0ND9.21E+0NDNDNDNDNDNDND0.00E+00.00E+05.59E+10.00E+00.00E+0
Output flowsMaterials for energy recovery (MER)kg0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Output flowsExported electrical energy (EEE)MJ, net calorific value0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+09.50E+00.00E+0
Output flowsExported thermal energy (EET)MJ, net calorific value0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+02.35E+10.00E+0
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).

Results for additional scenarios for modules A4-C4

Additional scenario100% Landfill
Description of the scenario/method100% Landfill
Results for additional scenarios for modules A4-C4
Impact categoryIndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
Climate changeGlobal Warming Potential total (GWP-total)kg CO2 eq.1.60E+2ND2.04E+1NDNDNDNDNDNDND0.00E+06.95E-10.00E+06.81E+00.00E+0
Climate change - FossilGlobal Warming Potential fossil fuels (GWP-fossil)kg CO2 eq.1.74E+2ND2.41E-1NDNDNDNDNDNDND0.00E+06.95E-10.00E+06.81E+00.00E+0
Climate change - BiogenicGlobal Warming Potential biogenic (GWP-biogenic)kg CO2 eq.-1.46E+1ND2.02E+1NDNDNDNDNDNDND0.00E+01.41E-40.00E+02.02E-40.00E+0
Climate change - Land use and LU changeGlobal Warming Potential land use and land use change (GWP-luluc)kg CO2 eq.1.30E-1ND6.19E-5NDNDNDNDNDNDND0.00E+02.45E-40.00E+01.31E-40.00E+0
Ozone depletionDepletion potential of the stratospheric ozone layer (ODP)kg CFC 11 eq.0.00E+0ND5.41E-9NDNDNDNDNDNDND0.00E+01.54E-80.00E+01.76E-80.00E+0
AcidificationAcidification potential, Accumulated Exceedance (AP)mol H+ eq.5.50E-1ND1.36E-3NDNDNDNDNDNDND0.00E+01.56E-30.00E+03.82E-30.00E+0
Eutrophication aquatic freshwaterEutrophication potential, fraction of nutrients reaching freshwater end compartment (EP-freshwater)kg P eq.0.00E+0ND1.75E-6NDNDNDNDNDNDND0.00E+05.38E-60.00E+04.62E-60.00E+0
Eutrophication aquatic marineEutrophication potential, fraction of nutrients reaching marine end compartment (EP-marine)kg N eq.1.30E-1ND4.54E-3NDNDNDNDNDNDND0.00E+03.78E-40.00E+02.20E-30.00E+0
Eutrophication terrestrialEutrophication potential, Accumulated Exceedance (EP-terrestrial)mol N eq.1.38E+0ND3.97E-3NDNDNDNDNDNDND0.00E+04.19E-30.00E+01.73E-20.00E+0
Photochemical ozone formationFormation potential of tropospheric ozone (POCP)kg NMVOC eq.9.00E-1ND3.58E-3NDNDNDNDNDNDND0.00E+02.52E-30.00E+07.93E-30.00E+0
Depletion of abiotic resources minerals and metalsAbiotic depletion potential for non-fossil resources (ADP-minerals&metals)kg Sb eq.0.00E+0ND5.95E-7NDNDNDNDNDNDND0.00E+02.33E-60.00E+01.14E-60.00E+0
Depletion of abiotic resources fossil fuelsAbiotic depletion for fossil resources potential (ADP-fossil)MJ, net calorific value4.78E+3ND3.93E+0NDNDNDNDNDNDND0.00E+01.01E+10.00E+01.34E+10.00E+0
Water useWater (user) deprivation potential, deprivation-weighted water consumption (WDP)m3 world eq. deprived8.64E+1ND-3.42E-2NDNDNDNDNDNDND0.00E+05.00E-20.00E+0-3.04E-10.00E+0
Climate change - GWP-GHGGlobal warming potential greenhouse gas (GWP-GHG)kg CO2 eq.1.75E+2ND5.68E+0NDNDNDNDNDNDND0.00E+06.95E-10.00E+06.81E+00.00E+0
Particulate matter emissionsPotential incidence of disease due to particulate matter emissions (PM)Disease incidence0.00E+0ND2.47E-8NDNDNDNDNDNDND0.00E+05.63E-80.00E+09.31E-80.00E+0
Ionising radiation, human healthPotential human exposure efficiency relative to U235 (IRP)kBq U235 eq.3.81E+0ND5.58E-3NDNDNDNDNDNDND0.00E+04.61E-30.00E+09.22E-30.00E+0
Eco-toxicity, freshwaterPotential comparative toxic unit for ecosystems (ETP-fw)CTUe4.66E+2ND1.29E+1NDNDNDNDNDNDND0.00E+01.35E+00.00E+03.21E+00.00E+0
Human toxicity, cancer effectsPotential comparative toxic unit for humans (HTP-c)CTUh0.00E+0ND7.46E-11NDNDNDNDNDNDND0.00E+01.15E-100.00E+01.46E-100.00E+0
Human toxicity, non-cancer effectsPotential comparative toxic unit for humans (HTP-nc)CTUh0.00E+0ND1.52E-8NDNDNDNDNDNDND0.00E+06.34E-90.00E+02.13E-80.00E+0
Land-use related impacts / soil qualityPotential soil quality index (SQP)Dimensionless1.31E+3ND6.48E+0NDNDNDNDNDNDND0.00E+07.55E+00.00E+03.30E+10.00E+0
Resource useUse of renewable primary energy excluding renewable primary energy resources used as raw materials (PERE)MJ, net calorific value2.91E+2ND2.04E-1NDNDNDNDNDNDND0.00E+01.71E-10.00E+03.66E-10.00E+0
Resource useUse of renewable primary energy resources used as raw materials (PERM)MJ, net calorific value1.34E+2ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Resource useTotal use of renewable primary energy resources (PERT)MJ, net calorific value4.24E+2ND2.04E-1NDNDNDNDNDNDND0.00E+01.71E-10.00E+03.66E-10.00E+0
Resource useUse of non-renewable primary energy excluding non-renewable primary energy resources used as raw materials (PENRE)MJ, net calorific value2.78E+3ND4.18E+0NDNDNDNDNDNDND0.00E+01.07E+10.00E+01.42E+10.00E+0
Resource useUse of non-renewable primary energy resources used as raw materials (PENRM)MJ, net calorific value2.36E+3ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Resource useTotal use of non-renewable primary energy resources (PENRT)MJ, net calorific value5.14E+3ND4.18E+0NDNDNDNDNDNDND0.00E+01.07E+10.00E+01.42E+10.00E+0
Resource useUse of secondary material (SM)kg0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Resource useUse of renewable secondary fuels (RSF)MJ, net calorific value0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Resource useUse of non-renewable secondary fuels (NRSF)MJ, net calorific value0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Resource useUse of net fresh water (FW)m31.28E+0ND-4.08E-2NDNDNDNDNDNDND0.00E+01.53E-30.00E+0-2.60E-10.00E+0
Waste categoriesHazardous waste disposed (HWD)kg9.00E-2ND2.66E-5NDNDNDNDNDNDND0.00E+06.84E-50.00E+09.25E-50.00E+0
Waste categoriesNon-hazardous waste disposed (NHWD)kg2.13E+1ND9.33E+0NDNDNDNDNDNDND0.00E+06.29E-10.00E+05.82E+10.00E+0
Waste categoriesRadioactive waste disposed (RWD)kg0.00E+0ND3.09E-6NDNDNDNDNDNDND0.00E+03.15E-60.00E+05.17E-60.00E+0
Output flowsComponents for re-use (CRU)kg0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Output flowsMaterials for recycling (MFR)kg0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Output flowsMaterials for energy recovery (MER)kg0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Output flowsExported electrical energy (EEE)MJ, net calorific value0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Output flowsExported thermal energy (EET)MJ, net calorific value0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
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).

Results for additional scenarios for modules A4-C4

Additional scenario100% Incineration
Description of the scenario/method100% Incineration
Results for additional scenarios for modules A4-C4
Impact categoryIndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
Climate changeGlobal Warming Potential total (GWP-total)kg CO2 eq.1.60E+2ND1.58E+1NDNDNDNDNDNDND0.00E+01.13E+00.00E+01.78E+2-1.21E+2
Climate change - FossilGlobal Warming Potential fossil fuels (GWP-fossil)kg CO2 eq.1.74E+2ND1.03E+0NDNDNDNDNDNDND0.00E+01.13E+00.00E+01.78E+2-1.21E+2
Climate change - BiogenicGlobal Warming Potential biogenic (GWP-biogenic)kg CO2 eq.-1.46E+1ND1.47E+1NDNDNDNDNDNDND0.00E+02.30E-40.00E+01.45E-3-1.46E-2
Climate change - Land use and LU changeGlobal Warming Potential land use and land use change (GWP-luluc)kg CO2 eq.1.30E-1ND1.26E-4NDNDNDNDNDNDND0.00E+03.99E-40.00E+05.13E-4-1.14E-2
Ozone depletionDepletion potential of the stratospheric ozone layer (ODP)kg CFC 11 eq.0.00E+0ND6.72E-9NDNDNDNDNDNDND0.00E+02.50E-80.00E+02.48E-8-4.31E-6
AcidificationAcidification potential, Accumulated Exceedance (AP)mol H+ eq.5.50E-1ND2.39E-3NDNDNDNDNDNDND0.00E+02.54E-30.00E+02.31E-2-1.23E-1
Eutrophication aquatic freshwaterEutrophication potential, fraction of nutrients reaching freshwater end compartment (EP-freshwater)kg P eq.0.00E+0ND4.10E-6NDNDNDNDNDNDND0.00E+08.75E-60.00E+02.16E-5-2.52E-4
Eutrophication aquatic marineEutrophication potential, fraction of nutrients reaching marine end compartment (EP-marine)kg N eq.1.30E-1ND1.00E-3NDNDNDNDNDNDND0.00E+06.15E-40.00E+01.09E-2-4.24E-2
Eutrophication terrestrialEutrophication potential, Accumulated Exceedance (EP-terrestrial)mol N eq.1.38E+0ND1.06E-2NDNDNDNDNDNDND0.00E+06.80E-30.00E+01.19E-1-4.67E-1
Photochemical ozone formationFormation potential of tropospheric ozone (POCP)kg NMVOC eq.9.00E-1ND3.05E-3NDNDNDNDNDNDND0.00E+04.10E-30.00E+02.93E-2-2.71E-1
Depletion of abiotic resources minerals and metalsAbiotic depletion potential for non-fossil resources (ADP-minerals&metals)kg Sb eq.0.00E+0ND9.90E-7NDNDNDNDNDNDND0.00E+03.79E-60.00E+03.69E-6-3.91E-5
Depletion of abiotic resources fossil fuelsAbiotic depletion for fossil resources potential (ADP-fossil)MJ, net calorific value4.78E+3ND4.26E+0NDNDNDNDNDNDND0.00E+01.63E+10.00E+01.70E+1-1.88E+3
Water useWater (user) deprivation potential, deprivation-weighted water consumption (WDP)m3 world eq. deprived8.64E+1ND2.15E-1NDNDNDNDNDNDND0.00E+08.13E-20.00E+01.51E+0-6.07E+0
Climate change - GWP-GHGGlobal warming potential greenhouse gas (GWP-GHG)kg CO2 eq.1.75E+2ND1.03E+0NDNDNDNDNDNDND0.00E+01.13E+00.00E+01.78E+2-1.21E+2
Particulate matter emissionsPotential incidence of disease due to particulate matter emissions (PM)Disease incidence0.00E+0ND3.32E-8NDNDNDNDNDNDND0.00E+09.15E-80.00E+01.03E-7-1.11E-6
Ionising radiation, human healthPotential human exposure efficiency relative to U235 (IRP)kBq U235 eq.3.81E+0ND2.19E-3NDNDNDNDNDNDND0.00E+07.49E-30.00E+07.50E-3-2.28E-1
Eco-toxicity, freshwaterPotential comparative toxic unit for ecosystems (ETP-fw)CTUe4.66E+2ND7.92E+0NDNDNDNDNDNDND0.00E+02.19E+00.00E+04.20E+1-6.76E+1
Human toxicity, cancer effectsPotential comparative toxic unit for humans (HTP-c)CTUh0.00E+0ND5.18E-10NDNDNDNDNDNDND0.00E+01.87E-100.00E+06.11E-9-1.37E-8
Human toxicity, non-cancer effectsPotential comparative toxic unit for humans (HTP-nc)CTUh0.00E+0ND2.52E-8NDNDNDNDNDNDND0.00E+01.03E-80.00E+02.28E-7-1.84E-7
Land-use related impacts / soil qualityPotential soil quality index (SQP)Dimensionless1.31E+3ND2.44E+0NDNDNDNDNDNDND0.00E+01.23E+10.00E+04.54E+0-5.15E+2
Resource useUse of renewable primary energy excluding renewable primary energy resources used as raw materials (PERE)MJ, net calorific value2.91E+2ND1.03E-1NDNDNDNDNDNDND0.00E+02.78E-10.00E+04.39E-1-1.33E+2
Resource useUse of renewable primary energy resources used as raw materials (PERM)MJ, net calorific value1.34E+2ND-8.29E+1NDNDNDNDNDNDND0.00E+00.00E+00.00E+0-6.96E+10.00E+0
Resource useTotal use of renewable primary energy resources (PERT)MJ, net calorific value4.24E+2ND-8.27E+1NDNDNDNDNDNDND0.00E+02.78E-10.00E+0-6.92E+1-1.33E+2
Resource useUse of non-renewable primary energy excluding non-renewable primary energy resources used as raw materials (PENRE)MJ, net calorific value2.78E+3ND4.56E+0NDNDNDNDNDNDND0.00E+01.74E+10.00E+01.86E+1-2.08E+3
Resource useUse of non-renewable primary energy resources used as raw materials (PENRM)MJ, net calorific value2.36E+3ND-5.39E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+0-1.51E+30.00E+0
Resource useTotal use of non-renewable primary energy resources (PENRT)MJ, net calorific value5.14E+3ND-8.25E-1NDNDNDNDNDNDND0.00E+01.74E+10.00E+0-1.49E+3-2.08E+3
Resource useUse of secondary material (SM)kg0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Resource useUse of renewable secondary fuels (RSF)MJ, net calorific value0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Resource useUse of non-renewable secondary fuels (NRSF)MJ, net calorific value0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Resource useUse of net fresh water (FW)m31.28E+0ND6.91E-3NDNDNDNDNDNDND0.00E+02.48E-30.00E+04.58E-2-1.60E-1
Waste categoriesHazardous waste disposed (HWD)kg9.00E-2ND3.39E-5NDNDNDNDNDNDND0.00E+01.11E-40.00E+02.74E-4-9.94E-3
Waste categoriesNon-hazardous waste disposed (NHWD)kg2.13E+1ND2.74E-1NDNDNDNDNDNDND0.00E+01.02E+00.00E+01.08E+0-1.44E+0
Waste categoriesRadioactive waste disposed (RWD)kg0.00E+0ND1.48E-6NDNDNDNDNDNDND0.00E+05.12E-60.00E+04.97E-6-1.52E-4
Output flowsComponents for re-use (CRU)kg0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Output flowsMaterials for recycling (MFR)kg0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Output flowsMaterials for energy recovery (MER)kg0.00E+0ND0.00E+0NDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
Output flowsExported electrical energy (EEE)MJ, net calorific value0.00E+0ND2.13E+1NDNDNDNDNDNDND0.00E+00.00E+00.00E+03.65E+20.00E+0
Output flowsExported thermal energy (EET)MJ, net calorific value0.00E+0ND5.28E+1NDNDNDNDNDNDND0.00E+00.00E+00.00E+09.04E+20.00E+0
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

  • CO2 Carbon dioxide
  • EN European Norm
  • EPD Environmental Product Declaration
  • GHG Global warming potential
  • GPI General Programme Instructions
  • ISO International Organization for Standardization
  • LCA Life Cycle Assessment
  • PCR Product Category Rules
  • PEx Crosslinked Polyethylene

References

  • ISO 14040: Environmental management - Life cycle assessment – Principles and Framework', International Organization for Standardization, ISO14040:2006.
  • ISO 14044: Environmental management - Life cycle assessment - Requirements and guidelines', International Organization for Standardization, ISO14044:2006.
  • ISO 14025: Environmental labels and declarations -- Type III environmental declarations -- Principles and procedures', International Organization for Standardization, ISO14025:2006.
  • NEN-EN 15804: Duurzaamheid van bouwwerken - Milieuverklaringen van producten - Basisregels voor de productgroep bouwproducten', NEN-EN 15804:2012+A2:2019.
  • NMD Bepalingsmethode Milieuprestatie Gebouwen en GWW werken', Stichting Nationale Milieudatabase, versie 1.1, maart 2022
  • NMD-Toetsingsprotocol opname data in de nationale milieudatabase', Stichting Nationale Milieudatabase, versie 1.0, juli 2020
  • Ecochain Helix 4.3, web: http://helix.ecochain.com.
  • BIS – Buizen Inzamel Systeem, Bureauleiding, 2022, web: https://bureauleiding.nl/bis-buizeninzamelsysteem/
  • PRN-systeem, feiten en cijfers. Hoe hoog was het Europese recyclingspercentage?, 2022, retrieved from: 
  • https://prn.nl/prn-en-het-prn-systeem/feiten-en-cijfers/ 
  • C-05 Transport of wastes to landfill, incineration and recycling facilities – screening and simplified LCA, 
  • EeBGuide, 2012, web: https://www.eebguide.eu/eebblog/?p=1636
  • Reiman, D.O., Results of Specific Data for Energy, R1 Plant Efficiency Factor and NCV of 314 European Waste-toE nergy (WtE) Plants, CEWEP Energy Report III (status 2007-2010), 2012, retrieved via: https://www.cewep.eu/wpcontent/uploads/2017/09/13_01_15_cewep_energy_report_iii.pdf
  • General Programme Instructions of the International EPD® System. Version 5.0.0 EN15804+A2n works – Environmental product declarations – Core rules for the product category of construction products
  • General Programme Instructions of the International EPD® System. Version 5.0.0 EN15804+A2

Version history

Version 001, 2026-06-26

  • Original version of the EPD