Programme-Related Information and Verification
An Environmental Product Declaration, or EPD, is a standardised and verified way of quantifying the environmental impacts of a productbasedonaconsistentsetofrulesknownasaPCR(ProductCategoryRules).
The EPD owner has the sole ownership, liability, and responsibility for the EPD. 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. Forfurtherinformationaboutcomparability,seeEN15804andISO14025.
TheresultsforEN15804+A1compliantEPDsarenotcomparablewithEN15804+A2compliantstudiesasthemethodologiesare different.ResultsthatareEN15804+A1compliantaregiveninanannextothisdocumenttoassistcomparabilityacrossEPDs.
Declaration owner:
Geographical Scope
Reference Year for Data
EPD Programme:
Licensee:
APL Window Solutions
Web: www.aplnz.co.nz
Email: marketing@aplnz.co.nz
Post:19NorthparkDrive,Hamilton3241,NewZealand
NewZealand
2023-01-01to2023-12-31
The International EPD® System
EPD International AB
Web: www.environdec.com
Email: info@environdec.com
Post:EPDInternationalAB,Box21060,SE-10031Stockholm,Sweden
EPD Australasia Limited
Web: www.epd-australasia.com
Email: info@epd-australasia.com
Post:EPDAustralasiaLimited,6CubeCourt,Richmond7020,NewZealand ProductCategoryRules(PCR)
ProductCategoryRules(PCR):PCR2019:14ConstructionProductsv1.11andC-PCR-007(toPCR2019:14) WindowsandDoors(EN17213:2020)
PCR review was conducted by:
Chair:
Lifecycleassessment(LCA)
LCA accountability:
The Technical Committee of the International EPD® System. See www.environdec.com for a list of members.
Claudia A. Peña. Contact via info@environdec.com
thinkstep ltd
Barbara Nebel
Chanjief Chandrakumar
HaoranLei
Web: www.thinkstep-anz.com
Email: anz@thinkstep-anz.com
Post:11RawhitiRoad,PukeruaBay,Wellington5026,NewZealand
Third-party verification
Independentverificationofthedeclarationanddata,accordingtoISO14025:2006,via:EPDverificationbyindividualverifier
Third party verifier:
Verifier approved by:
ClaudiaA.Peña(DirectorofPINDALCTSpA)
Email:lcapinda2020@gmail.com
EPD Australasia and The International EPD System
Procedure for follow-up of data during EPD validity involved third-party verifier ⬜ Yes No
001(2023-05-24)OriginalEPDrelease.
VersionHistory
002(2023-11-08)CorrectiontoLCAmodelling-Updatetotheresultstablesin pages36-55andAnnex
003(2026-02-06)Updatedtoreflectthechangestotheproductrangeanduseof residual electricity grid mix
Our Integrated Supply Chain of Businesses
INEX (independent Extrusions) is the largest extruder of aluminium in New Zealand,supplyingaluminiumfor approximately70%ofNewZealand’s windows and doors. INEX is the first stepwithinourgroup’send-to-end operations.
Colour Works has three powdercoat lines and is continuously exploring new methods of coating aluminum extrusionforNZ.Thesepowdercoat lines are designed as a seamless stepwithinthegroup’smanufacturing processes.
FinishingExcellence(FINEX)isour on-site anodising plant and is the most modern facility of its kind in NewZealand.Ensuringthehighest finishing quality in all our window and door solutions made for New Zealand.
MANUFACTURING
APLWindowSolutions(APL)isNZ’s largest window solutions organisation – known for high quality products that are designed, developed, tested, and manufactured in, and specifically forNZbuildingsandconditions.APL serves our fabricator network with Altherm, First and Vantage Windows & Doors product.
APLManufacturinghousesNZ’s largest Aluminium Entrance Door manufacturing unit, extensive priority hardware assembly and a wide range of CNC fabricated accessory products. Essential for manufacturing theindustry’snicheproductforAPL customers.
PPL Plastic Solutions specialise in the design and manufacturing of both flexible and rigid profile extrusions, and injection moulded parts, supplying a variety of market sectors. PPL solutions are used in products across the group, and in our reusable packaging systems.
ArchitecturalGlassProducts(AGP) is a state of the art, double-glazing manufacturing business, created to complete the end-to-end supply chainsolutionswithinProfile’sGroup. Glass is integral to any window solution and AGP enables us to offer the most advanced glass technology.
APL Direct maintains a fleet of purpose-designed trucks with the highest of environmental standards and optimised management. APL Direct distributes all product and componentry to our networks across the country on behalf of Profile Group’sbusinesses.
Together - we design, make and deliver end-to-end solutions for New Zealand environments.
Nationwide Network
While our headquarters and manufacturing facilities are in the Waikato, our extensive network of fabricators spreads across AotearoaNewZealand.Seepage9forourfulllistoffabricators.
APL Window Solutions
Colour Works
FINEX
APL Manufacturing
PPL Plastic Solutions
AGP Architectural Glass Products Hautapu, Cambridge
APL Direct
FABRICATORS
● Altherm Window Systems
● Vantage Windows and Doors
● First Windows and Doors
Fabricators Nationwide
Aitken Joinery Gore
Bay Aluminium Kerikeri
Central Aluminium Stratford
Composite Joinery Warkworth
Counties Aluminium Papakura
Dannevirke Glass Dannevirke
Dargaville Aluminium and Glass Dargaville
Design Windows Vantage Christchurch
Envision Aluminium Blenheim
Elite Windows and Doors Whangarei
Evolution Windows Lower Hutt
Glenns Glass and Aluminium Whakatane
Glenns Glass and Aluminium Rotorua
Hagley Windows and Doors Christchurch
Hopkins Joinery Putaruru
Huntly Joinery Window SystemsHuntly
Insite Nelson
Lancer Windows and Doors Henderson, Auckland
Lancom Commercial St Johns, Auckland
Kalos Windows and Doors Levin
Monarch Aluminium Christchurch
Nichol Glass and Aluminium Napier
NZ Windows Hamilton Hamilton
NZ Windows Tauranga Tauranga
Regal Joinery Hamilton
Reids Joinery Mosgiel
Seymour Windows and Doors New Plymouth
Summit Windows and Doors Wiri, Auckland
TRT Builders Westport
Vantage Windows Glenfield, Auckland
Vantage Aluminium Oamaru Oamaru
Vision Windows Takanini, Auckland
Wight Aluminium Whanganui
Altherm Canterbury Christchurch
Alitech Window Systems Waihi
Altherm Window Systems Palmerston North
Altherm Napier Napier
Altherm Aluminium Northland Whangarei
Altherm Taranaki New Plymouth
Altherm West Auckland Henderson
Apex Windows Taupo
Dawson Aluminium Blenheim
Door and Window Systems Auckland Penrose, Auckland
Design Windows Central Otago Cromwell
Design Windows Nelson Nelson
Design Windows Dunedin Dunedin
Design Windows West Coast Greymouth
NT Joinery Te Awamutu
Phoenix Windows and Doors Wairau Valley
Premier Aluminium Drury
Westview Aluminium Upper Hutt
View Master Windows and Doors St Johns, Auckland
Fabricator Businesses
Aluminium City Penrose, Auckland
First Aluminium Hawera Hawera
Bernie Walsh Aluminium and Glass Dannevirke
CBD Windows and Doors Penrose, Auckland
DuCo Windows and Doors Cambridge
Epic Windows and Doors Mt Maunganui
Franklin Windows and Doors Pukekohe
First Christchurch Windows and DoorsChristchurch
First Windows and Doors Taupo Taupo
First Whangamata Whangamata
Hollings First Aluminium Masterton
Kaiapoi Aluminium Joinery Christchurch
Kaitaia Glass and Aluminium Kaitaia
Kennedy Aluminium Timaru
Kalos Windows and Doors Palmerston North
Twin City Aluminium Napier
Wellington Windows and Doors Porirua
Whangarei Aluminium Whangarei
Wight Aluminium Hamilton
Windowmakers Wainui, Auckland
Product Information
ThisEnvironmentalProductDeclarationcoversatotalof30APLaluminiumwindowsanddoorsassembledfrom extruded coated aluminium profiles with thermal breaks.
These products span across five product ranges:
ResidentialSeriesThermalHeart+®
MetroSeriesThermalHeart+®
Commercial Series
MetroSeriesThermalHeart+® with Centrafix®
APLArchitecturalSeriesThermalHeart+®
The following subsections provide more details of each product range.
Residential Series ThermalHeart+®
APL’sResidentialSeriesThermalHeart+® is a mainstream suite of thermally efficient windows and doors suitable for a rangeofresidentialprojects.AThermalHEART® polyamideinsulatorisincludedineveryThermalHeart+® range which acts as a thermal break. The Series contains a full product portfolio including awning, sliding, and bi-folding windows, as well as sliding, hinged, and bi-folding doors.
Awning and Casement Windows
Specifications
Dimensions
Awnings 1 400mm high x 1 000mm wide; casements 1 400mm high x 800mm wide. May be restricted by weight and wind zones
Maximum Glass Thickness
24mm IGU as standard, but 32mm IGU possible
Thermal Values
R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Extra High wind zone
Sliding Windows
Specifications
Dimensions
Recommended maximum 1 800mm high x 1 500mm wide panels in Extra High wind zones. For larger panels consult your window manufacturer
Maximum Glass Thickness
24mm IGU as standard, but 32mm IGU can be used with a wedged bead
Thermal Values
R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Extra High wind zone
Bi-fold Windows
Specifications
Dimensions
Recommended maximum panels of 1 800mm high and 900mm wide
Maximum Glass Thickness
24mm IGU as standard, but 32mm IGU can be used with a wedged bead
Thermal Values
R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Extra High wind zone
Residential Series ThermalHeart+®
Sliding Doors
Specifications
Dimensions
Recommended maximum panels of 2 200mm high and 1 500mm wide
Maximum Glass Thickness
24mm IGU as standard, but 32mm IGU can be used with a wedged bead
Thermal Values
R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Extra High wind zone
Hinged and French Doors
Specifications
Dimensions
Recommended maximum panels of 2 200mm high and 900mm wide
Maximum Glass Thickness
24mm IGU as standard, but 32mm IGU can be used with a wedged bead
Thermal Values
R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Extra High wind zone
Bi-fold Doors
Specifications
Dimensions
Recommended maximum panels of 2 200mm high x 900mm wide
Maximum Glass Thickness
24mm IGU as standard, but 32mm IGU can be used with a wedged bead
Thermal Values
R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Extra High wind zone
*Based on NZBC H1/AS1 table E.1.1.1 information. Refer to APL Specifier Guide for all technical details
Metro Series ThermalHeart+®
APL’sMetroSeriesThermalHeart+® is a thermally efficient range of windows and doors suitable for large residential projects.AThermalHEART® polyamideinsulatorisincludedineveryThermalHeart+® range which acts as a thermal break. The Series contains a full product portfolio including awning, sliding, and bi-folding windows, as well as sliding, hinged, and bi-folding doors.
Awning and Casement Windows
Specifications
Dimensions
Awning and casement windows have a recommended size of 1 400 mm high x 800mm wide
Maximum Glass Thickness
44mm IGU
Thermal Values
[44mm] R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Extra High wind zone
Sliding Windows
Specifications
Dimensions
Metro Series ThermalHeart+® sliding windows can be made to large doorsize panels if needed, because they are based on the sliding door system. Panels 2 000mm high x 1 500mm wide would conform
Maximum Glass Thickness 44mm IGU
Thermal Values
[44mm] R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Extra High wind zone
Bi-fold Windows Metro Series
Specifications
Dimensions
Because they use the bi-fold door system, windows can be built to tall heights with a recommended panel size of 2 000mm high by 900mm wide
Maximum Glass Thickness
44mm IGU
Thermal Values
[44mm] R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Extra High wind zone
Sliding Doors
Specifications
Dimensions
Recommended maximum panels of 2 700mm high by 1 500mm wide
Maximum Glass Thickness 44mm IGU
Thermal Values [44mm] R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance Tested to Extra High wind zone
Hinged and French Doors
Specifications
Dimensions
Recommended maximum panels of 2 700mm high and 900mm wide
Maximum Glass Thickness 44mm IGU
Thermal Values [44mm] R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance Tested to Extra High wind zone
Bi-fold Doors
Specifications
Dimensions
Recommended maximum panels of 2 700mm high by 900mm wide
Maximum Glass Thickness 44mm IGU
Thermal Values [44mm] R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Extra High wind zone
*Based on NZBC H1/AS1 table E.1.1.1 information. Refer to APL Specifier Guide for all technical details
Commercial Series T®
APL’sCommercialSeriesisarangeofwindowsanddoorssuitableforcommercialbuildings.TheSeriescoverswindowsystemsfor low-rise to high-rise buildings and door systems for a wide variety of entranceway's.
40mm Window Series
Specifications
Dimensions
Awning windows up to 1 600mm high x 1 000mm wide, casements 1 600mm high x 800mm wide (larger possible depending on width, height, weight and hardware)
Maximum Glass Thickness 28mm IGU
Thermal Values
Consult APL Technical Department
Performance
Tested to Extra High / Specific Design wind zones. Projects may require project specific testing
Magnum Commercial Doors
Specifications
Dimensions
Sliding doors recommended maximum panels 2 700mm high and 2 400mm wide. Hinged doors recommended maximum panels 2700mm high and 1 000mm wide
Maximum Glass Thickness 27mm IGU
Thermal Values
Consult APL Technical Department
Performance
Tested to Extra High wind zones
Metro Series ThermalHeart+® with Centrafix® T®
MetroSeriesThermalHeart+® with Centrafix® isarecessedwindowanddoorsystemcombiningMetrostrength,ThermalHeart+® efficiencyandtheaestheticappealofadeeplysetframe.AThermalHEART® polyamide insulator is included in every ThermalHeart+® range which acts as a thermal break, and Centrafix® offers‘passivehouse’capability.Productsincludefixed, awning and casement windows, sliding, stacking and bi-folding windows and doors, and hinged and French doors.
Metro Series ThermalHeart+® with Centrafix
Awning and Casement Windows
Specifications
Dimensions
Awning and casement windows have a recommended size of 1 400 mm high x 800mm wide
Maximum Glass Thickness 44mm IGU
Thermal Values
Consult APL Technical Department
Performance
Tested to Extra High wind zone
Sliding Windows
Specifications
Dimensions
Metro Series ThermalHeart+® with Centrafix® sliding windows can be made to large door-size panels if needed, because they are based on the sliding door system. Panels 2 000mm high x 1 500mm wide would conform
Maximum Glass Thickness
44mm IGU
Thermal Values
Consult APL Technical Department
Performance
Tested to Extra High wind zone
Bi-fold Windows
Specifications
Dimensions
Because they use the bi-fold door system, windows can be built to tall heights with a recommended panel size of 2 000mm high by 900mm wide
Maximum Glass Thickness 44mm IGU
Thermal Values
Consult APL Technical Department
Performance
Tested to Extra High wind zone
Metro Series ThermalHeart+® with Centrafix®
Sliding Doors
Specifications
Dimensions
Recommended maximum panels of 2 700mm - 3 000mm high by 1 500mm wide, depending on site conditions
Maximum Glass Thickness 44mm IGU
Thermal Values
Consult APL Technical Department
Performance Tested to Extra High wind zone
Hinged and French Doors
Specifications
Dimensions
Recommended maximum panels of 2 700mm - 3 000mm high by 900mm wide, depending on site conditions
Maximum Glass Thickness
44mm IGU
Thermal Values
Consult APL Technical Department
Performance
Tested to Extra High wind zone
Bi-fold Doors
Specifications
Dimensions
Recommended maximum panels of 2 700mm - 3 000mm high by 900mm wide, depending on site conditions
Maximum Glass Thickness 44mm IGU
Thermal Values
Consult APL Technical Department
Performance Tested to Extra High wind zone
APL Architectural Series ThermalHeart+®
APLArchitecturalSeriesThermalHeart+® is a high-end, meticulously designed range of windows and doors targeted atarchitecturalhomesandapartments.Assuredstrengthandversatilitywitharecommendeddoorheightof2.7m, howeverdoorscanpotentiallybehigherdependingonsiteconditions.AThermalHEART® polyamide insulator is includedineveryThermalHeart+® range which acts as a thermal break. The Series contains a full product portfolio including awning, sliding, and bi-folding windows, as well as sliding, hinged, and bi-folding doors.
Awning and Casement Windows
Specifications
Dimensions
Awnings and casements 1 500mm high x 900mm wide. Fixed lights 3 000mm high x 2 000mm wide
Maximum Glass Thickness 44mm IGU
Thermal Values [44mm] R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Specific Design applications to wind pressures of 2.4kPa serviceability (3.4kPa UWP)
Sliding Windows
Specifications
Dimensions
Sliding windows can be made to large sizes because they are based on the sliding door system. Panels of 2 000mm high x 2 000mm wide. Panel weight maximum, 2 00kg/panel
Maximum Glass Thickness 44mm IGU
Thermal Values [44mm] R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Specific Design applications to wind pressures (3.4kPa UWP)
Sliding Doors
Specifications
Dimensions
Recommended maximum panels of 3 000mm high and 2 000mm wide. Rollers are rated to 225kg each i.e. 450kg/panel. Doors can potentially be higher depending on site conditions
Maximum Glass Thickness 44mm IGU
Thermal Values
[44mm] R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Specific Design applications to wind pressures of 2.4kPa serviceability (3.4kPa UWP)
Hinged and French Doors
Specifications
Dimensions
Recommended maximum panels of 2 700mm high x 900mm wide. Doors can potentially be higher depending on site conditions
Maximum Glass Thickness 44mm IGU
Thermal Values [44mm] R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Specific Design applications in wind pressures of 2.4kPa SWP (3.4kPa UWP) Open-in and flush door sills have a lower rating.
*Based on NZBC H1/AS1 table E.1.1.1 information. Refer to APL Specifier Guide for all technical details
Bi-fold Doors
Specifications
Dimensions
Recommended maximum panels of 2 700mm high x 900mm wide. Doors can potentially be higher depending on site conditions
Maximum Glass Thickness 44mm IGU
Thermal Values [44mm] R-Value 0.50, Ug-Value 1.1 (with AGP Solux-E® double glazing)*
Performance
Tested to Specific Design applications in wind pressures of 2.4kPa SWP (3.4kPa UWP) flush door sills have a lower rating.
Table 1: Product specifications
APL windows and doors are manufactured in accordance with the UN CPC product group, ANZSIC 2006 code, and the relevant standards for New Zealand Building Codes and relevant New Zealand standards.
Product Life Cycle
Thisisa‘cradle-to-gate’typeEPDwithModulesC1–C4andModuleDadded.Thismeansthattheproduction (ModulesA1–A3),end-of-life(C1-C4)andrecovery(D)stagesaremodeledinthisEPD.Theinstallationprocesses (ModulesA4-A5)andusestages(ModulesB1-B7)arenotmodeled.
The production stage involves the extraction of all raw materials, transport to the APL production facility, and the manufacturing of these materials to make windows and doors ready to be distributed to customers (gate). The endof-life stage includes demolition/deconstruction of the building, transport of wastes, and treatment of wastes.
Product Composition
The windows and doors declared in this EPD are made from an aluminium extrusion frame, enclosing. ThecompositionofAPLwindowsanddoorsisinTable2,asperEN15804requirements. NoneofthematerialsinthisEPDareontheCandidateListofsubstancesofveryhighconcern(SVHC),bythe EuropeanREACHRegulationataconcentrationgreaterthan0.1%bymass.
Figure 2: High level processes (Modules A1-A3, C1-C4, D)
of
Zinc00.3460.4950.08540.1680.3730.39200.08240.4950.05600.1680.3730.39200.299
*Totals would not add up due to rounding off. Table 3:
*Totals would not add up due to rounding off.
Table
4: Packaging of 1 m² of APL residential window and door products (by kg)
Paper (interleaving, cardboard, and labels)
Plastics (polyethylene wrap films, bubble wraps, polyurethane foam, polystyrene expanded)
*Totals would not add up due to rounding off.
Table 5: Packaging of 1 m² of APL residential window and door products (by kg) (continued)
Material/ component
Paper (interleaving, cardboard, and labels)
Steel straps
Plastics (polyethylene wrap films, bubble wraps, polyurethane foam, polystyrene expanded)
*Totals would not add up due to rounding off.
Table
Industry Classification
Table 6: Industry classification of products included in this EPD
and Architectural Windows and doors
Declared Unit
ANZSIC 2006C2223
Doors, windows and their frames and thresholds for doors, of iron, steel or aluminium
Architectural Aluminium Product Manufacturing
Aluminium framed window manufacturing complete with glass
Aluminium framed door, glazed, manufacturing
EPDs that do not cover the full product life cycle from raw material extraction through to end-of-life use the term “declaredunit”,ratherthanfunctionalunit.“Declaredunit”willbeusedintheEPDsthemselvesandisdefinedas:1m2 of window or door, normalised from standard window sizes.
System Boundary
InLifeCycleAssessment(LCA),thesystemboundaryisalinethatdividestheprocesseswhichareincludedfrom everythingelse.ThesystemboundaryofthisEPDincludesproduction(‘cradle-to-gate’,ModulesA1-A3),end-oflife(ModulesC1-C4)andtherecoverypotentialofthewindow/doormaterials(ModuleD)-asillustratedinTable5 below.
Production (Modules A1-A3)
Aluminium extrusion profiles are processed from aluminium billets from the local and overseas suppliers, using hydraulic extruders. These extrusions undergo a surface finishing process, which can be either powder coating or anodising. Note that the product considered in this EPD use aluminium extrusions that are powder coated.
Insulatedglassunits(IGUs)aremanufacturedbyArchitectureGlassProducts(AGP)-aNewZealand-basedsupplier, whomanufacturesIGUsusingimportedglassesfromSoutheastAsia.Hardwarefittings(suchashinges,handles, screws), gaskets/seals, and sealants required for the final window/door assembly are sourced from a mix of New Zealandandoverseasmanufacturers-mainlyfromChinaandTaiwan.
Allthesecomponents-aluminiumextrusions,IGUs,hardwarefittings,gaskets/seals,andsealants,arethen distributedtofabricatorsacrossNewZealandandintheSouthPacific(Fiji,Rarotonga,Samoa,andTahiti),through individualdistributionnetworks.Oncethere,theextrusionsarefittedwithIGUsandotherhardwarefittingstoforma full window/door assembly, which is installed into residential and commercial buildings.
ModulesA1-A3representthemanufacturingandpackagingofaluminiumextrusionprofiles(includingextractionand processing of raw materials and the transport to manufacturing site), manufacturing of the rest of the components ofthewindow/door(IGU,hardwarefittings,gaskets/seals,andsealants),transportationofthesecomponents,and window assembly (aka fabrication). Packaging of windows is also included.
ThesemodulesalsoincludethegenerationandtransmissionofelectricityinNewZealand,generationofthermal energy from natural gas, generation of liquid petroleum gas, supply of water, and solid waste and wastewater management.
Aluminium scraps generated during aluminium extrusion and fabrication processes are sold to a metal recycler - hence, modelled as co-products using economic allocation. Transport between APL and recycling facility is accounted for.
Glass offcuts are generated during glass cutting process at AGP. Economic allocation for glass offcuts with no economic value was applied. Transport between AGP and waste glass collection facility is accounted for.
Table 7: Modules of the production life cycle included in the EPD (X = declared module; ND = module not declared)
Module A1A2A3A4A5B1B2B3B4B5B6B7C1C2C3C4 D
Modules declared XXXNDNDNDNDNDNDNDNDNDXXXXX
Geography
X = included in the EPD; ND = Module not declared
*Float glasses are sourced from Southeast Asia. Some components (such as screws, rivets, gaskets/seals, and sealants) required for the final window/ door assembly are sourced from Southeast Asia.
**1.67% of APL windows and doors are shipped to and fabricated in the South Pacific - Fiji, Rarotonga, Samoa, and Tahiti. Hence, a weighted average distance between APL manufacturing site and fabricators is considered.
§ specific data covers aluminium extrusion process data, surface finishing process data, glass production process data, material transport (extrusions, glasses and components), and energy use for all processes including fabrication. This is based on the GWP-GHG analysis.
End-of-life stage (Modules C1-C4)
Module C1 (deconstruction/demolition) includes demolition of the whole building including a window/door using massallocation,basedona100-kWconstructionexcavator.
Module C2 (transport to end-of-life) includes transport of waste window/door to waste management facilities, following building demolition.
Module C3 (waste processing) includes the processing of window/door waste for reuse or recycling.
Module C4 (disposal) includes window/door end-of-life which is a combination of landfill and recycling.
Table 8: End-of-life scenarios for products considered in this EPD
Excavator 1 kg collected separately (includes metals, glass and plastics)
Recovery system specified by type 0% for re-use 85% of metals for recycling (BRANZ, 2024) 0% for energy recovery
Disposal specified by type
Assumptions for scenario development
15% of metals modelled as ferrous metals in landfill (BRANZ, 2024)
100% of glass and plastics modelled as inert material in landfill
C1 - demolishing with an Excavator (100kW); fuel consumption is calculated at 0.172 kg diesel input per tonne of material
C2 - 50 km of transport by truck with a utilisation rate of 50%
C3 - waste processing for recycling
C4 - 15% of recovered metals are landfilled; 100% glass and plastics are landfilled. Modelled as inert matter (metal and glass) on landfill
Recovery and Recycling Potential (Module D)
Benefitsandloadsbeyondsystemboundary(ModuleD)includerecoveredaluminiumandstainlesssteelscrapsthatarefedintoa second life cycle.
CreditsforaluminiumcreditsarecalculatedbasedontheavoidedvirginaluminiumproducedinNewZealand(modelledinthis studyforupstreamaluminiumbilletinput).Per1kgofaluminiumscraprecoveredinModuleC3,0.95kgofvirginaluminiumcredits areassigned-basedonametalrecyclingefficiencyrateof95%(Sphera,2024).
Creditsforstainlesssteelarecalculatedbasedonthe"GLO:Recyclingofsteelwithcredit"datasetavailableintheManagedLCA Content(MLC)Database2023.2(Sphera,2024).Per1kgofstainlesssteelscraprecoveredinModuleC3,0.95kgofsteelcredits areassigned-basedonametalrecyclingefficiencyrateof95%(Sphera,2024).
The energy recovered from landfill is also accounted for.
Life Cycle Inventory (LCI) Data and Assumptions
Primary data was used for all manufacturing operations up to the factory gate, including upstream data for aluminium extrusion and finishing (powder coating and anodising). Primary data for aluminium extrusion, finishing, hardware component manufacturing (includingseals),andfabricationwassourcedforthe2023calendaryear(2023-01-01to2023-12-31).Backgrounddatawasused for input materials sourced from other suppliers such as glass, components, and packaging materials.
OverseeingandmanagingthedatacollectionforAPLwasRebeccaMcQueen–SustainabilityProjectManager.
Upstream Data
Aluminium billets
APLusesaluminiumsuppliedbyNewZealandAluminiumSmelters(NZAS)inTiwai(82.2%)andoverseassuppliersin MiddleEast(17.8%).
Glasses
APLusesglassessuppliedbytwoNewZealand-basedsupplierswhoimportglassfromoverseas.APL’smainsupplier-AGP,imports glass from Southeast Asia.
LCA Software and Database
TheunderlyingLCAmodelwasdevelopedaccordingtotheISOstandardsforLCA(ISO,2006a,2006b),usingtheLifeCyclefor Experts(LCAFE)(formerlyknownasGaBiSoftware)forlifecycleengineering,developedbySpheraSolutions,Inc.
Dataforallenergyinputs,transportprocessesandrawmaterialsarefromtheManagedLCAContent(MLC)Database2024.2 (Sphera,2024).Thereferenceyearforthedatarangesfrom2015to2022andtherefore,alldatasetsarewithinthe10-yearlimit allowableforgenericdataunderEN15804andthePCR.
Electricity
ProfileGroupistheparentcompanytoAPL;100%ofProfileGroup'selectricityconsumptioniscoveredviaNewZealandEnergy CertificateSystem(NZECS).TheseNZECScertificatesweregeneratedbyKawatiriEnergy-oneofNewZealand’snewest hydroelectricityprojectswhichgenerateshydropowerfromtheLakeRochfortSchemenearWestport(APLWindowSolutions, 2024).Hence,electricityuseforalloperationsatAPL,AGP,INEX,FINEX,andColourWorksarecoveredbytheNZECScertificates.
ProfileGroup(includingAPL,AGP,INEX,FINEX,andColourWorks)hascommittedtosourceNZECScertificatesforthenextsix months and beyond.
TheemissionfactorfortheNewZealandhydroelectricity(includingtransmissionanddistributionlosses)fortheGWP-GHG indicatoris0.00769kgCO2-eq./kWh(basedonEF3.1).
OperationsundertakenatThermasealorfabricationsitesusepurchasedgridelectricity.Thecompositionoftheresidualelectricity gridmixofNewZealandismodelledinLCAFEbasedonpublisheddatafortheyear1April2021–31March2022(BraveTrace, 2023).TheNewZealandresidualelectricitymixismadeupofhydro(56.6%),geothermal(19.7%)naturalgas(12.5%),wind(6.55%), coal(4.25%),biomass(0.266%)andbiogas(0.160%).
Onsiteconsumption(3.00%),andthemediumvoltage(1kV-60kV)grid’stransmissionanddistributionlosses(3.17%)arecalculated basedondatafromtheMinistryofBusiness,Innovation&Employment(MBIE,2023).
TheemissionfactorfortheNewZealandresidualgridmixfortheGWP-GHGindicatoris0.146kgCO2-eq./kWh(basedonEF3.1).
Location-based grid mix EFs (using the published grid mix) is used for other electricity consumption including Modules C and D.
Recycling
BenefitsfromrecyclingtherecoveredaluminiumandstainlesssteelinModuleC4areconsideredinModuleD;formetals,a recyclingrateof85%isconsideredand15%islandfilled(BRANZ,2024).
Bothmetals’creditsaremodelledasavoidedburdensofvirginmaterials.Bothmetalsaremodelledtowardsfullyvirginproduction, considering recycling efficiency. This leads to recycling credits being slightly lower than the impact of virgin production.
Transport
Primarytransportdatawasusedfortransportofproductioninputs(A2).Anywastesfromtheproductionprocess(A3)areassumed tobetransportedovera50kmdistancetoatreatmentordisposalsite.Transportmodes:
Truck(diesel),Euro0-6mix,34-40tgrossweight/27tpayloadcapacity
Containership(heavyfueloil),5000to200000dwtpayloadcapacity,oceangoing
Cut-off Criteria
thinkstep-anz consistently excludes environmental impacts from infrastructure, construction, production equipment, and tools that arenotdirectlyconsumedintheforegroundproductionprocess,(‘capitalgoods’).
Infrastructure/capital goods are excluded from all MLC datasets. An important exception is the inclusion of capital goods for electricity generation, where the capital goods are very important for modelling of changes towards more renewable generation. Capital goods related to electricity generation are included in all MLC electricity datasets.
Note: The system boundaries on manufacturing of equipment and for employees are not regarded as limiting the scope of the inventory or as an incomplete inventory (i.e. a cut-off).
Furthermore, cut-off criteria were applied to the following:
Glasses are delivered with packaging materials such as timber pallets, steel band and cardboard. Cut-off was applied to these packaging materials given most of them are reused or sent for recycling.
Cut-offwasappliedtotheVOCsreleasedtoairduringthepowdercoatingprocess,duetodataunavailability.
The effects of the exclusions are minimal given the impacts of the windows are largely driven by aluminium and glass.
Allocation
Multi-outputallocationgenerallyfollowstherequirementsofPCR2019:14v1.11(EPDInternational,2021)section4.5.1.When allocation becomes necessary during the data collection phase, the allocation rule most suitable for the respective process step is applied based on the following principles:
Impacts due to multi-output processes within the foreground system are allocated to coproducts by economic value, if the differenceintherevenueofcoproductsishigh(>25%accordingtoEN15804)
This is applicable for processes that involves aluminium and scraps – such as aluminium extrusion and fabrication.
Aluminiumscrapisgeneratedduringaluminiumprofileextrusionandfabrication(ModuleA3).Thealuminiumscrapissold to recyclers, which has an economic value compared to the main product. In this study, we applied economic allocation foraluminiumscrap,accordingtosection4.5.1ofthePCR(EPDInternational,2021).FY2023/24annualaveragepricesof aluminium extrusion and aluminium scrap were used for allocation.
TheemissionfactorforthealuminiumextrusionproducedatINEXfortheGWP-GHGindicatorin2023is8.23kgCO₂-eq./kg (basedonEF3.1).
Whenaccountedforsurfacefinishingprocess,theemissionfactorsforthealuminiumextrusionswithsurfacefinishingare8.89 and9.86kgCO₂-eq./kg,forpowdercoatingandanodising,respectively,fortheGWP-GHGindicatorin2023.
A sensitivity analysis was undertaken to understand the effect of price change for both aluminium extrusion and scrap producedatINEX.A±20%pricechangeinaluminiumextrusionandscrapshowedlittleeffectsontheoverallimpactsofthe aluminiumextrusionproducedatINEX(upto2.17%).However,itiscrucialtomonitortheseeffectscontinuously
For other processes such as glass production, site overheads (e.g. water, wastewater, fuels, electricity, and waste) are allocated based on the mass of outputs
The packaging materials are allocated by mass across the total output of packaged APL products.
End-of-lifeallocationgenerallyfollowstherequirementsofISO14044,section4.3.4.3.
Material recycling (avoided burden approach): Openscrapinputsfromtheproductionstagearesubtractedfromscraptobe recycled at end-of-life to give the net scrap output from the product life cycle. This remaining net scrap is sent to material recycling. Credits are assigned at Module D based on the potential benefit of recovering the secondary material in substitution for primary material production. If net scrap is negative (e.g. the production stage scrap inputs are higher than the scrap available for recycling at end-of-life), Module D will assign a burden. The Module D impacts are modelled using industry average inventories.
Landfilling (avoided burden approach): In cases where materials are sent to landfills, they are linked to an inventory that accounts for waste composition, regional leachate rates, landfill gas capture as well as utilisation rates (flaring vs. power production). A credit is assigned for power output using the national grid mix.
Assessment Indicators
The results tables describe the different environmental indicators for each product per declared unit, for each declared module. TheEN15804referencepackagebasedonEF3.1isused.
Table8containsthecoreenvironmentalimpactindicatorsinaccordancewithEN15804:2012+A2:2019,describingthe potential environmental impacts of the product
Table9showsthelifecycleinventoryindicatorsforresourceuse
Table10displaysthelifecycleinventoryindicatorsforwasteandotheroutputs
Table11providesadditionalenvironmentalimpactindicatorsinaccordancewithEN15804:2012+A2:2019
Table12displaysbiogeniccarboncontentindicators
Table13containsresultsforenvironmentalimpactindicatorsinaccordancewithEN15804:2012+A1:2013toaidbackward comparability.
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.
The use of primary energy is separated into energy used as raw material and energy used as energy carrier as per option C in Annex3inthePCR(EPDInternational,2024).
Energyindicators(MJ)arealwaysgivenasnetcalorificvalue.
Eutrophication
Eutrophication
Depletion of abiotic resources – minerals and metals1
Depletion of abiotic resources – fossil fuels1,5
kg Sb-eq.
Table 9: EN15804+A2 Core Environmental Impact Indicators
Table 10: Life cycle inventory indicators on use of resources
Useofrenewableprimaryenergyexcludingrenewableprimaryenergyresources used as raw materials
Useofrenewableprimaryenergyresourcesusedasrawmaterials
use of renewable primary energy resources
Useofnon-renewableprimaryenergyexcludingnon-renewableprimaryenergy resources used as raw materials
Useofnon-renewableprimaryenergyresourcesusedasrawmaterials
Useofsecondarymaterial
Useofrenewablesecondaryfuels
Useofnon-renewablesecondaryfuels
Table 11: Life cycle inventory indicators on waste categories and output flows
Table 12: EN15804+A2 Additional Environmental Impact Indicators
Climate Change2GWP-GHGkgCO2-eq.
Climate Change3GWP-GHG(IPCCAR5)kgCO2-eq.
Particulate Matter emissions
Ionising Radiation – human health4
HumanToxicity,cancer1HTP-cCTUh HumanToxicity,non-cancer1HTP-ncCTUh
Land use related impacts / soil quality1SQP Dimensionless
Table 13: Biogenic carbon content indicators
Note: 1 kg biogenic carbon is equivalent to 44/12 kg CO2
14: EN15804+A1 Environmental Impact Indicators
Global warming potential
-eq.
OzonedepletionpotentialODP(EN15804+A1)kgCFC11-eq.
Acidification potential AP(EN15804+A1)kgSO2-eq.
Eutrophication potential
Photochemical ozone creation potential
Abiotic depletion potential for non-fossil resources
Abiotic depletion potential for fossil resources
EP(EN15804+A1)kgPO43⁻-eq.
POCP(EN15804+A1) kg C2H4-eq.
ADPE(EN15804+A1) kg Sb-eq.
ADPF(EN15804+A1)MJ
Table
Disclaimers
1 The results of this environmental impact indicator shall be used with care as the uncertainties on these results are high or as there is limited experience with the indicator.
2ThisindicatorisidenticaltoGWP-totalexceptthattheCFforbiogenicCO2 is set to zero. It has been included in the EPD following the PCR.
3GWP-GHG(IPCCAR5)isanadditionalGWP100indicatorthatisalignedwiththeIntergovernmentalPanelonClimateChange (IPCC)2013FifthAssessmentReport(AR5)(IPCC2013),nationalgreenhousegasreportingframeworksinAustraliaandNew ZealandandpreviousversionsoftheConstructionProductsPCR(PCR2019:14v1.11).Itexcludesbiogeniccarbonandindirect radiative forcing.
4 This 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 some construction materials, is also not measured by this indicator
5 ADP-fossil and PENRT results may not be the same since the characterisation factors for some of the flows in the LCA FE software are not the same.
Environmental Performance
APL Architectural Series ThermalHeart+® Awning Window
Table 15: EN15804+A2 Core Environmental Impact Indicators
Indicator
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.1.30E+021.79E-021.22E-017.39E-022.94E-01-3.72E+01
kgCO₂eq.1.29E+021.77E-021.21E-017.23E-022.92E-01-3.72E+01
kgCO₂eq.1.03E+001.45E-041.63E-055.40E-049.29E-04-3.94E-02
kgCO₂eq.1.00E-014.63E-073.19E-061.08E-031.72E-03-2.39E-03
ODPkgCFC-11eq.4.12E-101.77E-151.22E-142.24E-137.94E-13-4.45E-11
AP MoleofH⁺eq.8.44E-019.24E-053.08E-043.50E-042.06E-03-2.53E-01
EP-freshwater kg P eq. 1.68E-042.71E-091.87E-082.02E-077.53E-06-9.00E-06
EP-marine kg N eq. 1.75E-014.50E-051.37E-041.62E-045.27E-04-2.45E-02
EP-terrestrial Mole of N eq. 1.93E+004.93E-041.50E-031.79E-035.80E-03-2.69E-01
POCPkgNMVOCeq.4.69E-011.27E-043.29E-044.47E-041.61E-03-8.07E-02
ADP-minerals&metalskg Sb eq. 8.98E-052.32E-101.60E-097.96E-081.89E-08-3.33E-06
ADP-fossil MJ1.58E+032.33E-011.60E+001.30E+003.89E+00-3.34E+02
WDP m³ world equiv. 2.58E+016.64E-054.57E-041.21E-023.36E-02-1.40E+01
Table 16: EN15804+A2 Additional Environmental Impact Indicators
Indicator Unit
GWP-GHGkgCO₂eq.1.30E+021.77E-021.22E-017.39E-022.94E-01-3.72E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.29E+021.77E-021.22E-017.28E-022.93E-01-3.66E+01
PM Disease incidences 1.02E-051.17E-093.13E-096.88E-092.57E-08-3.37E-06
IRP kBqU235eq.1.37E+004.88E-063.36E-051.07E-034.87E-03-1.98E-01
ETP-fw CTUe9.64E+021.04E-017.16E-011.01E+002.61E+00-1.57E+02
HTP-cCTUh1.86E-071.71E-121.18E-112.18E-115.67E-11-1.61E-08
HTP-ncCTUh9.25E-073.78E-112.58E-107.66E-102.08E-09-3.35E-07
SQP Pt 6.12E+024.75E-043.27E-035.57E-011.05E+00-8.19E+00
Table 17: Use of resources
MJ7.34E+021.01E-036.94E-031.82E-016.74E-01-4.77E+02
PERM MJ7.47E+0100000
Table 18: Waste production and output flows
kg 4.94E+015.72E-063.94E-053.89E-041.91E+01-2.41E+01
Table 19: Biogenic carbon content
6.69E+00007.31E+0000
Table 20: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.28E+021.77E-021.20E-017.15E-022.89E-01-3.69E+01
ODP(A1)kgCFC-11eq.4.16E-102.08E-151.43E-142.63E-139.35E-13-5.24E-11
AP(A1)kgSO2eq.6.85E-016.40E-052.18E-042.44E-041.64E-03-2.20E-01
EP(A1)kgPO₄³¯eq.6.29E-021.51E-054.63E-055.70E-052.60E-04-8.34E-03
POCP(A1) kg Ethene eq. 1.26E-026.66E-06-2.98E-053.26E-051.36E-04-1.15E-02
ADPE(A1) kg Sb eq. 8.97E-052.33E-101.60E-097.96E-081.92E-08-3.34E-06
ADPF(A1)MJ1.54E+032.32E-011.59E+001.26E+003.73E+00-3.28E+02
APL Architectural Series ThermalHeart+® Bi-fold Door
Table 21: EN15804+A2 Core Environmental Impact Indicators
GWP-total kgCO₂eq.1.83E+021.91E-021.30E-017.89E-022.49E-01-6.37E+01
GWP-fossil kgCO₂eq.1.82E+021.89E-021.30E-017.72E-022.47E-01-6.36E+01
GWP-biogenic
GWP-luluc
kgCO₂eq.1.13E+001.55E-041.74E-055.76E-047.90E-04-6.52E-02
kgCO₂eq.1.10E-014.94E-073.40E-061.16E-031.41E-03-4.90E-03
ODPkgCFC-11eq.4.87E-101.89E-151.30E-142.39E-136.84E-13-7.93E-11
AP MoleofH⁺eq.1.11E+009.86E-053.29E-043.73E-041.72E-03-4.29E-01
EP-freshwater kg P eq. 2.57E-042.89E-091.99E-082.16E-071.88E-05-1.86E-05
EP-marine kg N eq. 2.16E-014.80E-051.46E-041.73E-044.34E-04-4.20E-02
EP-terrestrial Mole of N eq. 2.38E+005.26E-041.61E-031.92E-034.77E-03-4.60E-01
POCPkgNMVOCeq.6.11E-011.35E-043.51E-044.77E-041.33E-03-1.38E-01
ADP-minerals & metalskg Sb eq. 6.66E-042.48E-101.71E-098.50E-081.60E-08-4.75E-04
ADP-fossil MJ2.23E+032.49E-011.71E+001.39E+003.37E+00-5.76E+02
WDP m³ world equiv. 4.15E+017.09E-054.88E-041.29E-022.87E-02-2.36E+01
Table 23: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.1.83E+021.89E-021.30E-017.89E-022.49E-01-6.37E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.82E+021.89E-021.30E-017.77E-022.47E-01-6.27E+01
PM Disease incidences 1.44E-051.25E-093.34E-097.34E-092.11E-08-5.71E-06
IRP kBqU235eq.1.94E+005.21E-063.58E-051.14E-034.48E-03-4.07E-01
ETP-fw CTUe1.04E+031.11E-017.64E-011.07E+002.88E+00-2.69E+02
HTP-cCTUh7.65E-071.83E-121.26E-112.33E-115.59E-11-1.39E-06
HTP-ncCTUh1.30E-064.04E-112.76E-108.18E-101.85E-09-5.68E-07
Table 25: Use of resources
PENRM MJ6.21E+0100000
PENRT MJ2.23E+032.49E-011.71E+001.39E+003.37E+00-5.76E+02
Table 27: Waste production and output flows
HWD kg 7.83E-054.01E-122.76E-112.94E-108.39E-101.40E-07
NHWD kg 7.63E+016.11E-064.20E-054.15E-041.54E+01-4.03E+01
RWD kg 1.32E-024.86E-083.34E-071.09E-053.73E-05-2.75E-03
CRU kg 2.17E-0200000 MFR kg 4.90E+00001.28E+0100
kg 000000
Table 28: Biogenic carbon content Indicator
BCC-prod kg 0
Table 29: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.81E+021.89E-021.28E-017.63E-022.44E-01-6.32E+01
ODP(A1)kgCFC-11eq.5.00E-102.22E-151.53E-142.81E-138.06E-13-9.33E-11
AP(A1)kgSO2eq.9.15E-016.83E-052.33E-042.60E-041.37E-03-3.74E-01
EP(A1)kgPO₄³¯eq.7.70E-021.61E-054.94E-056.08E-053.53E-04-1.43E-02
POCP(A1) kg Ethene eq. 3.85E-027.11E-06-3.18E-053.48E-051.14E-04-1.99E-02
ADPE(A1) kg Sb eq. 6.66E-042.48E-101.71E-098.50E-081.63E-08-4.75E-04
ADPF (A1) MJ 2.16E+032.47E-011.70E+001.34E+003.22E+00-5.62E+02
Table 30: EN15804+A2 Core Environmental Impact Indicators
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.2.08E+022.22E-021.51E-019.17E-022.99E-01-7.10E+01
kgCO₂eq.2.07E+022.20E-021.51E-018.96E-022.97E-01-7.09E+01
kgCO₂eq.1.30E+001.80E-042.02E-056.70E-049.51E-04-7.19E-02
kgCO₂eq.1.30E-015.74E-073.95E-061.34E-031.68E-03-5.64E-03
ODPkgCFC-11eq.5.65E-102.19E-151.51E-142.77E-138.25E-13-8.80E-11
AP MoleofH⁺eq.1.27E+001.15E-043.82E-044.34E-042.06E-03-4.77E-01
EP-freshwater kg P eq. 3.11E-043.36E-092.31E-082.51E-072.45E-05-2.11E-05
EP-marine kg N eq. 2.47E-015.58E-051.70E-042.01E-045.20E-04-4.68E-02
EP-terrestrial Mole of N eq. 2.72E+006.11E-041.87E-032.23E-035.72E-03-5.13E-01
POCPkgNMVOCeq.6.96E-011.57E-044.08E-045.54E-041.60E-03-1.54E-01
ADP-minerals&metalskg Sb eq. 8.63E-042.88E-101.98E-099.88E-081.93E-08-5.93E-04
ADP-fossil MJ2.54E+032.89E-011.99E+001.61E+004.06E+00-6.42E+02
WDP m³ world equiv. 4.71E+018.23E-055.67E-041.50E-023.46E-02-2.62E+01
Indicator Unit
GWP-GHGkgCO₂eq.2.08E+022.20E-021.51E-019.17E-022.99E-01-7.10E+01
GWP-GHG(IPCCAR5)kgCO₂eq.2.07E+022.20E-021.51E-019.03E-022.98E-01-6.99E+01
PM Disease incidences 1.64E-051.45E-093.88E-098.53E-092.53E-08-6.35E-06
IRP kBqU235eq.2.22E+006.05E-064.16E-051.33E-035.44E-03-4.60E-01
ETP-fw CTUe1.20E+031.29E-018.88E-011.25E+003.55E+00-2.99E+02
HTP-cCTUh1.10E-062.12E-121.46E-112.71E-116.83E-11-1.73E-06
HTP-ncCTUh1.47E-064.69E-113.20E-109.50E-102.24E-09-6.30E-07
SQP Pt 8.02E+025.89E-044.05E-036.90E-011.05E+00-1.63E+01
Table 31: EN15804+A2 Additional Environmental Impact Indicators
Table 32: Use of resources
PERE
MJ1.31E+031.25E-038.61E-032.25E-016.93E-01-8.88E+02
PERM MJ9.26E+0100000
PERT MJ1.40E+031.25E-038.61E-032.25E-016.93E-01-8.88E+02
PENRE MJ2.46E+032.89E-011.99E+001.61E+004.06E+00-6.42E+02
PENRM MJ7.88E+0100000
PENRT
Table 33: Waste production and output flows
HWD kg 9.15E-054.65E-123.20E-113.42E-101.01E-091.54E-07
NHWD kg 8.53E+017.10E-064.88E-054.82E-041.85E+01-4.47E+01
RWD kg 1.52E-025.64E-083.88E-071.26E-054.52E-05-3.13E-03
CRU kg 2.40E-0200000
MFR kg 5.84E+00001.43E+0100
MER kg 000000
EEE MJ000000
EET MJ000000
Table 34: Biogenic carbon content
Table 35: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.2.05E+022.19E-021.49E-018.87E-022.94E-01-7.04E+01
ODP(A1)kgCFC-11eq.5.80E-102.58E-151.78E-143.27E-139.71E-13-1.04E-10
AP(A1)kgSO2eq.1.04E+007.94E-052.71E-043.02E-041.64E-03-4.15E-01
EP(A1)kgPO₄³¯eq.8.82E-021.87E-055.74E-057.07E-054.44E-04-1.60E-02
POCP(A1) kg Ethene eq. 4.26E-028.26E-06-3.70E-054.04E-051.37E-04-2.22E-02
ADPE(A1) kg Sb eq. 8.63E-042.88E-101.99E-099.87E-081.96E-08-5.93E-04
ADPF(A1)MJ2.46E+032.87E-011.98E+001.56E+003.89E+00-6.27E+02 APL Architectural Series ThermalHeart+® French Door
Table 36: EN15804+A2 Core Environmental Impact Indicators
GWP-total kgCO₂eq.1.95E+021.91E-021.30E-017.91E-022.31E-01-6.99E+01
GWP-fossil kgCO₂eq.1.94E+021.90E-021.30E-017.74E-022.29E-01-6.98E+01
GWP-biogenic kgCO₂eq.1.14E+001.56E-041.74E-055.78E-047.34E-04-7.17E-02
GWP-luluc
kgCO₂eq.1.11E-014.96E-073.41E-061.16E-031.30E-03-5.28E-03
ODPkgCFC-11eq.5.00E-101.89E-151.30E-142.39E-136.37E-13-8.63E-11
AP MoleofH⁺eq.1.17E+009.89E-053.30E-043.74E-041.59E-03-4.71E-01
EP-freshwater kg P eq. 2.59E-042.90E-092.00E-082.16E-071.84E-05-1.99E-05
EP-marine kg N eq. 2.25E-014.81E-051.46E-041.73E-044.02E-04-4.61E-02
EP-terrestrial Mole of N eq. 2.47E+005.27E-041.61E-031.92E-034.42E-03-5.05E-01
POCPkgNMVOCeq.6.41E-011.36E-043.52E-044.78E-041.24E-03-1.52E-01
ADP-minerals & metalskg Sb eq. 6.57E-042.49E-101.71E-098.52E-081.49E-08-4.53E-04
ADP-fossil MJ2.36E+032.50E-011.72E+001.39E+003.14E+00-6.31E+02
WDP m³ world equiv. 4.48E+017.11E-054.89E-041.29E-022.67E-02-2.59E+01
Table 37: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.1.95E+021.90E-021.30E-017.91E-022.31E-01-6.99E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.94E+021.90E-021.30E-017.80E-022.30E-01-6.88E+01
PM Disease incidences 1.53E-051.25E-093.35E-097.36E-091.96E-08-6.28E-06
IRP kBqU235eq.2.06E+005.22E-063.59E-051.15E-034.19E-03-4.36E-01
ETP-fw CTUe1.05E+031.11E-017.66E-011.08E+002.74E+00-2.95E+02
HTP-cCTUh8.37E-071.83E-121.26E-112.34E-115.24E-11-1.33E-06
HTP-ncCTUh1.37E-064.05E-112.76E-108.20E-101.73E-09-6.23E-07
SQP Pt 7.09E+025.08E-043.50E-035.96E-018.08E-01-1.60E+01
Table 38: Use of resources
Indicator Unit
PERT
MJ1.36E+031.08E-037.43E-031.95E-015.35E-01-8.81E+02
PENRE MJ2.30E+032.50E-011.72E+001.39E+003.14E+00-6.31E+02
PENRM MJ6.10E+0100000
PENRT MJ2.36E+032.50E-011.72E+001.39E+003.14E+00-6.31E+02
MJ000000
MJ000000
FW m³ 4.22E+001.45E-069.94E-064.04E-048.12E-04-2.80E+00
Table 39: Waste production and output flows
HWD kg 7.84E-054.02E-122.76E-112.95E-107.80E-101.55E-07
NHWD kg 8.27E+016.12E-064.21E-054.16E-041.43E+01-4.43E+01
RWD kg 1.39E-024.87E-083.35E-071.09E-053.48E-05-2.91E-03 CRU kg 2.38E-0200000
Table 40: Biogenic carbon content
Table 41: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.93E+021.89E-021.29E-017.65E-022.27E-01-6.94E+01
ODP(A1)kgCFC-11eq.5.15E-102.23E-151.53E-142.82E-137.50E-13-1.02E-10
AP(A1)kgSO2eq.9.64E-016.85E-052.34E-042.61E-041.27E-03-4.10E-01
EP(A1)kgPO₄³¯eq.7.98E-021.61E-054.95E-056.10E-053.37E-04-1.57E-02
POCP(A1) kg Ethene eq. 4.43E-027.13E-06-3.19E-053.49E-051.06E-04-2.18E-02
ADPE(A1) kg Sb eq. 6.57E-042.49E-101.71E-098.52E-081.51E-08-4.54E-04
ADPF(A1)MJ2.29E+032.48E-011.71E+001.34E+003.00E+00-6.17E+02
APL Architectural Series ThermalHeart+® Hinge Door
Table 42: EN15804+A2 Core Environmental Impact Indicators
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.1.70E+021.85E-021.26E-017.64E-022.57E-01-5.73E+01
kgCO₂eq.1.69E+021.83E-021.26E-017.47E-022.54E-01-5.72E+01
kgCO₂eq.1.09E+001.50E-041.68E-055.58E-048.15E-04-5.95E-02
kgCO₂eq.1.06E-014.79E-073.29E-061.12E-031.45E-03-4.06E-03
ODPkgCFC-11eq.4.61E-101.83E-151.26E-142.31E-137.06E-13-6.95E-11
AP MoleofH⁺eq.1.04E+009.55E-053.19E-043.61E-041.77E-03-3.87E-01
EP-freshwater kg P eq. 2.52E-042.80E-091.93E-082.09E-071.94E-05-1.52E-05
EP-marine kg N eq. 2.04E-014.65E-051.41E-041.67E-044.47E-04-3.77E-02
EP-terrestrial Mole of N eq. 2.24E+005.09E-041.55E-031.86E-034.92E-03-4.14E-01
POCPkgNMVOCeq.5.72E-011.31E-043.40E-044.62E-041.37E-03-1.24E-01
ADP-minerals & metalskg Sb eq. 3.62E-042.40E-101.65E-098.23E-081.65E-08-2.08E-04
ADP-fossil MJ2.08E+032.41E-011.66E+001.35E+003.48E+00-5.16E+02
WDP m³ world equiv. 3.80E+016.86E-054.72E-041.25E-022.96E-02-2.13E+01
43: EN15804+A2 Additional Environmental Impact Indicators Indicator
GWP-GHGkgCO₂eq.1.70E+021.83E-021.26E-017.64E-022.57E-01-5.73E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.69E+021.83E-021.26E-017.53E-022.55E-01-5.64E+01
PM Disease incidences 1.33E-051.21E-093.24E-097.11E-092.18E-08-5.16E-06
IRP kBqU235eq.1.76E+005.04E-063.47E-051.11E-034.62E-03-3.33E-01
ETP-fw CTUe1.00E+031.08E-017.40E-011.04E+002.96E+00-2.41E+02
HTP-cCTUh5.65E-071.77E-121.22E-112.26E-115.76E-11-6.13E-07
HTP-ncCTUh1.18E-063.91E-112.67E-107.92E-101.91E-09-5.12E-07
SQP Pt 6.64E+024.91E-043.38E-035.75E-018.99E-01-1.28E+01
Table
Table 44: Use of resources
PERE
MJ1.07E+031.04E-037.17E-031.88E-015.94E-01-7.26E+02
PERM MJ7.72E+0100000
PERT
MJ1.15E+031.04E-037.17E-031.88E-015.94E-01-7.26E+02 PENRE MJ2.01E+032.41E-011.66E+001.35E+003.48E+00-5.16E+02 PENRM MJ6.31E+0100000
PENRT MJ2.08E+032.41E-011.66E+001.35E+003.48E+00-5.16E+02
Table 45: Waste production and output flows
kg 7.28E-053.88E-122.67E-112.85E-108.65E-101.30E-07 NHWD kg 6.97E+015.92E-064.07E-054.02E-041.59E+01-3.66E+01
kg 1.18E-024.70E-083.24E-071.05E-053.85E-05-2.15E-03
kg 1.97E-0200000 MFR kg 5.12E+00001.14E+0100 MER kg 000000 EEE MJ000000 EET MJ000000
Table 46: Biogenic carbon content Indicator Unit
BCC-prod kg 0
BCC-pack kg 2.25E+00
Table 47: EN15804+A1 Environmental Impact Indicators Indicator
GWP(A1)kgCO₂eq.1.68E+021.83E-021.24E-017.39E-022.52E-01-5.69E+01
ODP(A1)kgCFC-11eq.4.71E-102.15E-151.48E-142.72E-138.31E-13-8.18E-11
AP(A1)kgSO2eq.8.54E-016.62E-052.26E-042.52E-041.41E-03-3.37E-01
EP(A1)kgPO₄³¯eq.7.28E-021.56E-054.78E-055.89E-053.64E-04-1.29E-02
POCP(A1) kg Ethene eq. 3.32E-026.89E-06-3.08E-053.37E-051.17E-04-1.77E-02
ADPE(A1) kg Sb eq. 3.62E-042.40E-101.65E-098.23E-081.68E-08-2.08E-04
ADPF(A1)MJ2.01E+032.39E-011.65E+001.30E+003.32E+00-5.05E+02
APL Architectural Series ThermalHeart+® Sliding Door
Table 48: EN15804+A2 Core Environmental Impact Indicators
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.2.00E+022.06E-021.40E-018.53E-022.71E-01-6.88E+01
kgCO₂eq.1.99E+022.05E-021.40E-018.34E-022.69E-01-6.87E+01
kgCO₂eq.1.22E+001.68E-041.88E-056.23E-048.61E-04-7.07E-02
kgCO₂eq.1.21E-015.35E-073.68E-061.25E-031.53E-03-4.81E-03
ODPkgCFC-11eq.5.30E-102.04E-151.40E-142.58E-137.47E-13-7.98E-11
AP MoleofH⁺eq.1.21E+001.07E-043.56E-044.03E-041.87E-03-4.64E-01
EP-freshwater kg P eq. 2.87E-043.13E-092.15E-082.33E-072.18E-05-1.70E-05
EP-marine kg N eq. 2.35E-015.19E-051.58E-041.87E-044.71E-04-4.52E-02
EP-terrestrial Mole of N eq. 2.58E+005.69E-041.74E-032.07E-035.19E-03-4.96E-01
POCPkgNMVOCeq.6.64E-011.46E-043.80E-045.16E-041.45E-03-1.49E-01
ADP-minerals & metalskg Sb eq. 3.55E-042.68E-101.85E-099.19E-081.75E-08-7.33E-05
ADP-fossil MJ2.43E+032.69E-011.85E+001.50E+003.68E+00-6.17E+02
WDP m³ world equiv. 4.54E+017.66E-055.27E-041.40E-023.13E-02-2.55E+01
GWP-GHGkgCO₂eq.2.00E+022.05E-021.40E-018.53E-022.71E-01-6.87E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.99E+022.05E-021.40E-018.41E-022.70E-01-6.76E+01
PM Disease incidences
1.57E-051.35E-093.61E-097.93E-092.29E-08-6.19E-06
IRP kBqU235eq.2.06E+005.63E-063.87E-051.24E-034.92E-03-3.64E-01
ETP-fw CTUe1.13E+031.20E-018.26E-011.16E+003.21E+00-2.88E+02
HTP-cCTUh1.11E-061.97E-121.36E-112.52E-116.17E-11-2.25E-07
HTP-ncCTUh1.37E-064.37E-112.98E-108.84E-102.03E-09-6.10E-07
SQP Pt 7.53E+025.48E-043.77E-036.42E-019.47E-01-1.46E+01
Table 49: EN15804+A2 Additional Environmental Impact Indicators
Table 50: Use of resources
PERE
MJ1.28E+031.16E-038.01E-032.10E-016.28E-01-8.70E+02
PERM MJ8.62E+0100000
PERT MJ1.37E+031.16E-038.01E-032.10E-016.28E-01-8.70E+02
PENRE MJ2.36E+032.69E-011.85E+001.50E+003.68E+00-6.17E+02
PENRM MJ7.10E+0100000
PENRT
Table 51: Waste production and output flows
HWD kg 7.94E-054.33E-122.98E-113.18E-109.16E-101.61E-07
NHWD kg 8.27E+016.60E-064.55E-054.49E-041.67E+01-4.39E+01
RWD kg 1.38E-025.25E-083.61E-071.17E-054.09E-05-2.24E-03
CRU kg 2.36E-0200000
MFR kg 5.30E+00001.37E+0100
MER kg 000000
EEE MJ000000
EET MJ000000
Table 52: Biogenic carbon content
Table 53: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.98E+022.04E-021.39E-018.25E-022.66E-01-6.82E+01
ODP(A1)kgCFC-11eq.5.44E-102.40E-151.65E-143.04E-138.80E-13-9.40E-11
AP(A1)kgSO2eq.9.98E-017.39E-052.52E-042.81E-041.49E-03-4.04E-01
EP(A1)kgPO₄³¯eq.8.35E-021.74E-055.34E-056.58E-053.99E-04-1.54E-02
POCP(A1) kg Ethene eq. 4.23E-027.69E-06-3.44E-053.76E-051.24E-04-2.12E-02
ADPE(A1) kg Sb eq. 3.55E-042.69E-101.85E-099.19E-081.77E-08-7.34E-05
ADPF(A1)MJ2.36E+032.67E-011.84E+001.45E+003.52E+00-6.05E+02 APL Architectural Series ThermalHeart+® Sliding Window
Table 54: EN15804+A2 Core Environmental Impact Indicators
GWP-total kgCO₂eq.2.25E+022.27E-021.54E-019.39E-022.96E-01-7.77E+01
GWP-fossil kgCO₂eq.2.24E+022.25E-021.54E-019.18E-022.93E-01-7.76E+01
GWP-biogenic
GWP-luluc
kgCO₂eq.1.34E+001.85E-042.07E-056.86E-049.42E-04-7.91E-02
kgCO₂eq.1.35E-015.88E-074.05E-061.38E-031.64E-03-5.58E-03
ODPkgCFC-11eq.5.92E-102.24E-151.54E-142.84E-138.21E-13-8.92E-11
AP MoleofH⁺eq.1.36E+001.17E-043.91E-044.44E-042.02E-03-5.23E-01
EP-freshwater kg P eq. 3.51E-043.44E-092.37E-082.57E-072.97E-05-1.93E-05
EP-marine kg N eq. 2.61E-015.71E-051.74E-042.06E-045.08E-04-5.11E-02
EP-terrestrial Mole of N eq. 2.86E+006.26E-041.91E-032.28E-035.60E-03-5.60E-01
POCPkgNMVOCeq.7.41E-011.61E-044.18E-045.67E-041.56E-03-1.68E-01
ADP-minerals & metalskg Sb eq. 4.87E-042.95E-102.03E-091.01E-071.91E-08-1.04E-04
ADP-fossil MJ2.75E+032.96E-012.04E+001.65E+004.05E+00-6.97E+02
WDP m³ world equiv. 5.19E+018.43E-055.80E-041.54E-023.43E-02-2.87E+01
Table 55: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.2.25E+022.25E-021.54E-019.39E-022.96E-01-7.77E+01
GWP-GHG(IPCCAR5)kgCO₂eq.2.24E+022.25E-021.54E-019.25E-022.94E-01-7.64E+01
PM Disease incidences 1.77E-051.48E-093.98E-098.73E-092.47E-08-6.97E-06
IRP kBqU235eq.2.31E+006.20E-064.26E-051.36E-035.54E-03-4.09E-01
ETP-fw CTUe1.24E+031.32E-019.09E-011.28E+003.80E+00-3.25E+02
HTP-cCTUh1.54E-062.17E-121.50E-112.77E-117.11E-11-3.17E-07
HTP-ncCTUh1.53E-064.80E-113.28E-109.73E-102.26E-09-6.87E-07
SQP Pt 8.31E+026.03E-044.15E-037.07E-011.03E+00-1.63E+01
Table 56: Use of resources
PERT
MJ1.54E+031.28E-038.81E-032.31E-016.87E-01-9.78E+02
PENRE MJ2.66E+032.96E-012.04E+001.65E+004.05E+00-6.97E+02
PENRM MJ9.30E+0100000
PENRT MJ2.75E+032.96E-012.04E+001.65E+004.05E+00-6.97E+02
MJ000000
MJ000000
FW m³ 4.76E+001.71E-061.18E-054.80E-041.04E-03-3.12E+00
Table 57: Waste production and output flows
HWD kg 8.77E-054.77E-123.28E-113.50E-101.01E-091.82E-07
NHWD kg 9.27E+017.27E-065.00E-054.94E-041.79E+01-4.94E+01
RWD kg 1.55E-025.78E-083.98E-071.29E-054.56E-05-2.52E-03 CRU kg 2.66E-0200000
kg
Table 58: Biogenic carbon content
BCC-prod kg 0
Table 59: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.2.22E+022.25E-021.53E-019.08E-022.90E-01-7.71E+01
ODP(A1)kgCFC-11eq.6.09E-102.64E-151.82E-143.35E-139.67E-13-1.05E-10
AP(A1)kgSO2eq.1.12E+008.13E-052.77E-043.10E-041.62E-03-4.55E-01
EP(A1)kgPO₄³¯eq.9.28E-021.92E-055.88E-057.24E-054.98E-04-1.74E-02
POCP(A1) kg Ethene eq. 4.99E-028.46E-06-3.78E-054.14E-051.35E-04-2.39E-02
ADPE(A1) kg Sb eq. 4.86E-042.95E-102.03E-091.01E-071.93E-08-1.04E-04
ADPF(A1)MJ2.67E+032.94E-012.02E+001.60E+003.87E+00-6.84E+02
Metro Series ThermalHeart+® with Centrafix® Awning Window
Table 60: EN15804+A2 Core Environmental Impact Indicators
Indicator
GWP-total
kgCO₂eq.8.75E+011.62E-021.10E-016.68E-024.98E+00-2.15E+01
GWP-fossil kgCO₂eq.9.03E+011.60E-021.10E-016.53E-024.96E-01-2.15E+01
GWP-biogenic kgCO₂eq.-2.87E+001.31E-041.47E-054.88E-044.48E+00-2.28E-02
GWP-luluc
kgCO₂eq.8.75E-024.19E-072.88E-069.79E-041.86E-03-1.39E-03
ODPkgCFC-11eq.3.49E-101.60E-151.10E-142.02E-131.12E-12-2.57E-11
AP MoleofH⁺eq.6.20E-018.35E-052.79E-043.16E-042.81E-03-1.46E-01
EP-freshwater kg P eq. 1.48E-042.45E-091.69E-081.83E-078.42E-06-5.21E-06
EP-marine kg N eq. 1.33E-014.07E-051.24E-041.46E-047.91E-04-1.42E-02
EP-terrestrial Mole of N eq. 1.48E+004.45E-041.36E-031.62E-038.45E-03-1.56E-01
POCPkgNMVOCeq.3.48E-011.15E-042.97E-044.04E-042.68E-03-4.67E-02
ADP-minerals & metalskg Sb eq. 7.38E-052.10E-101.44E-097.20E-082.70E-08-1.92E-06
ADP-fossil MJ1.14E+032.11E-011.45E+001.18E+006.81E+00-1.93E+02
WDP m³ world equiv. 1.68E+016.00E-054.13E-041.09E-023.39E-02-8.08E+00
Table 61: EN15804+A2 Additional Environmental Impact Indicators
Indicator Unit
GWP-GHGkgCO₂eq.9.16E+011.60E-021.10E-016.68E-024.73E+00-2.15E+01
GWP-GHG(IPCCAR5)kgCO₂eq.9.10E+011.60E-021.10E-016.58E-021.62E+00-2.12E+01
PM Disease incidences 7.69E-061.06E-092.83E-096.21E-093.03E-08-1.95E-06
IRP kBqU235eq.9.80E-014.41E-063.03E-059.69E-046.33E-03-1.14E-01
ETP-fw CTUe7.75E+029.41E-026.47E-019.10E-014.04E+00-9.21E+01
HTP-cCTUh1.31E-071.55E-121.06E-111.97E-118.68E-11-9.32E-09
HTP-ncCTUh6.62E-073.42E-112.33E-106.92E-104.73E-09-1.93E-07
SQP Pt 1.30E+034.29E-042.95E-035.03E-011.21E+00-4.74E+00
Table 62: Use of resources
MJ4.50E+029.11E-046.27E-031.64E-011.08E+00-2.76E+02
PERM MJ1.05E+0200000
Table 63: Waste production and output flows
3.17E+015.17E-063.56E-053.51E-041.93E+01-1.39E+01
kg 6.71E-034.11E-082.83E-079.20E-065.56E-05-6.98E-04
Table 64: Biogenic carbon content
Table 65: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.8.62E+011.60E-021.09E-016.46E-021.74E+00-2.14E+01
ODP(A1)kgCFC-11eq.3.49E-101.88E-151.29E-142.38E-131.32E-12-3.02E-11
AP(A1)kgSO2eq.4.98E-015.79E-051.97E-042.20E-042.21E-03-1.27E-01
EP(A1)kgPO₄³¯eq.4.85E-021.36E-054.18E-055.15E-053.96E-04-4.83E-03
POCP(A1) kg Ethene eq. 3.02E-036.02E-06-2.69E-052.95E-054.09E-04-6.62E-03
ADPE(A1) kg Sb eq. 7.38E-052.10E-101.45E-097.20E-082.73E-08-1.93E-06
ADPF(A1)MJ1.10E+032.09E-011.44E+001.14E+006.59E+00-1.90E+02
Metro Series ThermalHeart+® with Centrafix® Bi-fold Door
Table 66: EN15804+A2 Core Environmental Impact Indicators
GWP-total kgCO₂eq.1.55E+021.80E-021.22E-017.45E-023.48E+00-5.38E+01
GWP-fossil kgCO₂eq.1.57E+021.79E-021.22E-017.28E-023.84E-01-5.38E+01
GWP-biogenic kgCO₂eq.-1.56E+001.46E-041.64E-055.44E-043.10E+00-5.49E-02
GWP-luluc
kgCO₂eq.1.03E-014.67E-073.21E-061.09E-031.50E-03-4.22E-03
ODPkgCFC-11eq.4.48E-101.78E-151.23E-142.25E-138.96E-13-6.73E-11
AP MoleofH⁺eq.9.70E-019.31E-053.11E-043.52E-042.21E-03-3.62E-01
EP-freshwater kg P eq. 2.15E-042.73E-091.88E-082.04E-071.42E-05-1.60E-05
EP-marine kg N eq. 1.90E-014.53E-051.38E-041.63E-046.13E-04-3.55E-02
EP-terrestrial Mole of N eq. 2.09E+004.97E-041.52E-031.81E-036.57E-03-3.89E-01
POCPkgNMVOCeq.5.34E-011.28E-043.31E-044.50E-042.06E-03-1.17E-01
ADP-minerals & metalskg Sb eq. 6.22E-042.34E-101.61E-098.03E-082.13E-08-4.48E-04
ADP-fossil MJ1.92E+032.35E-011.62E+001.31E+005.29E+00-4.87E+02
WDP m³ world equiv. 3.52E+016.69E-054.61E-041.22E-022.83E-02-1.99E+01
Table 67: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.1.58E+021.79E-021.22E-017.45E-023.31E+00-5.38E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.57E+021.79E-021.22E-017.34E-021.16E+00-5.30E+01
PM Disease incidences 1.28E-051.18E-093.15E-096.93E-092.42E-08-4.82E-06
IRP kBqU235eq.1.70E+004.92E-063.38E-051.08E-035.27E-03-3.51E-01
ETP-fw CTUe9.28E+021.05E-017.22E-011.01E+003.57E+00-2.28E+02
HTP-cCTUh6.88E-071.72E-121.19E-112.20E-117.26E-11-1.31E-06
HTP-ncCTUh1.13E-063.81E-112.60E-107.72E-103.62E-09-4.79E-07
Table 68: Use of resources
MJ1.10E+031.02E-036.99E-031.83E-018.47E-01-6.76E+02 PENRE
MJ1.87E+032.35E-011.62E+001.31E+005.29E+00-4.87E+02
PENRM MJ4.90E+0100000
PENRT
MJ1.92E+032.35E-011.62E+001.31E+005.29E+00-4.87E+02
Table 69: Waste production and output flows
HWD kg 7.38E-053.78E-122.60E-112.78E-101.13E-091.17E-07
NHWD kg 6.52E+015.77E-063.97E-053.92E-041.56E+01-3.39E+01
RWD kg 1.16E-024.58E-083.15E-071.03E-054.55E-05-2.39E-03
CRU kg 1.83E-0200000 MFR kg 4.62E+00001.08E+0100 MER kg 000000
Table 70: Biogenic carbon content
Table 71: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.54E+021.78E-021.21E-017.21E-021.24E+00-5.34E+01
ODP(A1)kgCFC-11eq.4.58E-102.10E-151.44E-142.65E-131.05E-12-7.92E-11
AP(A1)kgSO2eq.7.95E-016.45E-052.20E-042.46E-041.75E-03-3.15E-01
EP(A1)kgPO₄³¯eq.6.78E-021.52E-054.66E-055.74E-053.88E-04-1.21E-02
POCP(A1) kg Ethene eq. 3.17E-026.71E-06-3.00E-053.29E-053.01E-04-1.68E-02
ADPE(A1) kg Sb eq. 6.22E-042.34E-101.61E-098.02E-082.16E-08-4.49E-04
ADPF(A1)MJ1.86E+032.33E-011.61E+001.27E+005.12E+00-4.75E+02
Metro Series ThermalHeart+® with Centrafix® Bi-fold Window
Table 72: EN15804+A2 Core Environmental Impact Indicators Indicator
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.1.64E+022.01E-021.37E-018.33E-024.03E+00-5.48E+01
kgCO₂eq.1.66E+022.00E-021.37E-018.14E-024.50E-01-5.48E+01
kgCO₂eq.-1.86E+001.64E-041.83E-056.09E-043.58E+00-5.52E-02
kgCO₂eq.1.15E-015.22E-073.59E-061.22E-031.77E-03-4.52E-03
ODPkgCFC-11eq.4.95E-101.99E-151.37E-142.52E-131.06E-12-6.88E-11
AP MoleofH⁺eq.1.04E+001.04E-043.47E-043.94E-042.61E-03-3.68E-01
EP-freshwater kg P eq. 2.48E-043.06E-092.10E-082.28E-071.78E-05-1.70E-05
EP-marine kg N eq. 2.05E-015.07E-051.54E-041.82E-047.21E-04-3.61E-02
EP-terrestrial Mole of N eq. 2.26E+005.55E-041.69E-032.02E-037.73E-03-3.96E-01
POCPkgNMVOCeq.5.72E-011.43E-043.71E-045.03E-042.42E-03-1.19E-01
ADP-minerals & metalskg Sb eq. 7.86E-042.62E-101.80E-098.97E-082.51E-08-5.59E-04
ADP-fossil MJ2.05E+032.63E-011.81E+001.47E+006.22E+00-4.97E+02
WDP m³ world equiv. 3.69E+017.48E-055.15E-041.36E-023.36E-02-2.02E+01
Indicator Unit
GWP-GHGkgCO₂eq.1.68E+022.00E-021.37E-018.33E-023.83E+00-5.48E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.66E+022.00E-021.37E-018.21E-021.35E+00-5.40E+01
PM Disease incidences 1.36E-051.32E-093.53E-097.75E-092.85E-08-4.90E-06
IRP kBqU235eq.1.82E+005.50E-063.78E-051.21E-036.25E-03-3.70E-01
ETP-fw CTUe1.02E+031.17E-018.07E-011.13E+004.24E+00-2.32E+02
HTP-cCTUh9.09E-071.93E-121.33E-112.46E-118.60E-11-1.63E-06
HTP-ncCTUh1.21E-064.26E-112.91E-108.63E-104.24E-09-4.86E-07
SQP Pt 1.33E+035.35E-043.68E-036.27E-011.15E+00-1.28E+01
Table 73: EN15804+A2 Additional Environmental Impact Indicators
Table 74: Use of resources
PERE
MJ1.02E+031.14E-037.82E-032.05E-019.96E-01-6.84E+02
PERM MJ1.14E+0200000
PERT MJ1.14E+031.14E-037.82E-032.05E-019.96E-01-6.84E+02
PENRE MJ1.99E+032.63E-011.81E+001.47E+006.22E+00-4.97E+02
PENRM MJ5.96E+0100000
PENRT
Table 76: Waste production and output flows
HWD kg 8.31E-054.23E-122.91E-113.10E-101.33E-091.17E-07
NHWD kg 6.73E+016.45E-064.44E-054.38E-041.84E+01-3.43E+01 RWD kg 1.26E-025.13E-083.53E-071.15E-055.38E-05-2.57E-03
CRU kg 1.85E-0200000
MFR kg 5.49E+00001.11E+0100 MER kg 000000
EEE MJ00002.69E-010
EET MJ000000
Table 77: Biogenic carbon content
Table 78: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.62E+021.99E-021.36E-018.06E-021.44E+00-5.44E+01
ODP(A1)kgCFC-11eq.5.06E-102.34E-151.61E-142.97E-131.24E-12-8.10E-11
AP(A1)kgSO2eq.8.50E-017.21E-052.46E-042.75E-042.06E-03-3.20E-01
EP(A1)kgPO₄³¯eq.7.35E-021.70E-055.21E-056.42E-054.67E-04-1.23E-02
POCP(A1) kg Ethene eq. 3.10E-027.51E-06-3.36E-053.67E-053.51E-04-1.72E-02
ADPE(A1) kg Sb eq. 7.86E-042.62E-101.80E-098.97E-082.54E-08-5.59E-04
ADPF(A1)MJ1.98E+032.61E-011.80E+001.42E+006.01E+00-4.85E+02
Metro Series ThermalHeart+® with Centrafix® French Door
Table 79: EN15804+A2 Core Environmental Impact Indicators
GWP-total kgCO₂eq.1.64E+021.81E-021.23E-017.47E-023.47E+00-5.82E+01
GWP-fossil kgCO₂eq.1.65E+021.79E-021.23E-017.30E-023.72E-01-5.82E+01
GWP-biogenic kgCO₂eq.-1.56E+001.47E-041.64E-055.46E-043.10E+00-5.96E-02
GWP-luluc
kgCO₂eq.1.03E-014.68E-073.22E-061.09E-031.42E-03-4.47E-03
ODPkgCFC-11eq.4.56E-101.79E-151.23E-142.26E-138.64E-13-7.24E-11
AP MoleofH⁺eq.1.01E+009.33E-053.11E-043.53E-042.13E-03-3.92E-01
EP-freshwater kg P eq. 2.17E-042.74E-091.89E-082.04E-071.41E-05-1.70E-05
EP-marine kg N eq. 1.96E-014.54E-051.38E-041.64E-045.92E-04-3.84E-02
EP-terrestrial Mole of N eq. 2.15E+004.98E-041.52E-031.81E-036.33E-03-4.21E-01
POCPkgNMVOCeq.5.56E-011.28E-043.32E-044.51E-041.99E-03-1.27E-01
ADP-minerals & metalskg Sb eq. 6.03E-042.35E-101.61E-098.04E-082.05E-08-4.28E-04
ADP-fossil
MJ2.01E+032.35E-011.62E+001.32E+005.14E+00-5.27E+02
WDP m³ world equiv. 3.76E+016.71E-054.62E-041.22E-022.69E-02-2.16E+01
Table 80: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.1.67E+021.79E-021.23E-017.47E-023.30E+00-5.82E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.65E+021.79E-021.23E-017.36E-021.15E+00-5.73E+01
PM Disease incidences 1.34E-051.18E-093.16E-096.94E-092.31E-08-5.22E-06
IRP kBqU235eq.1.78E+004.93E-063.39E-051.08E-035.08E-03-3.71E-01
ETP-fw CTUe9.39E+021.05E-017.23E-011.02E+003.48E+00-2.47E+02
HTP-cCTUh7.08E-071.73E-121.19E-112.21E-117.04E-11-1.25E-06
HTP-ncCTUh1.18E-063.82E-112.61E-107.74E-103.53E-09-5.19E-07
SQP Pt 1.19E+034.80E-043.30E-035.62E-019.29E-01-1.34E+01
Table 81: Use of resources
Indicator Unit
PERT
MJ1.18E+031.02E-037.01E-031.84E-018.20E-01-7.33E+02
PENRE MJ1.96E+032.35E-011.62E+001.32E+005.14E+00-5.27E+02
PENRM MJ4.88E+0100000
PENRT MJ2.01E+032.35E-011.62E+001.32E+005.14E+00-5.27E+02
MJ000000 NRSF MJ000000
FW m³ 3.52E+001.36E-069.39E-063.82E-041.03E-03-2.33E+00
Table 82: Waste production and output flows
HWD kg 7.38E-053.79E-122.61E-112.78E-101.09E-091.28E-07
NHWD kg 6.98E+015.78E-063.98E-053.93E-041.48E+01-3.68E+01
RWD kg 1.21E-024.60E-083.16E-071.03E-054.39E-05-2.50E-03 CRU kg 1.98E-0200000
Table 83: Biogenic carbon content
Table 84: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.62E+021.79E-021.22E-017.22E-021.23E+00-5.78E+01
ODP(A1)kgCFC-11eq.4.68E-102.10E-151.45E-142.66E-131.02E-12-8.52E-11
AP(A1)kgSO2eq.8.30E-016.47E-052.21E-042.46E-041.68E-03-3.42E-01
EP(A1)kgPO₄³¯eq.6.98E-021.52E-054.67E-055.76E-053.80E-04-1.31E-02
POCP(A1) kg Ethene eq. 3.58E-026.73E-06-3.01E-053.29E-052.95E-04-1.82E-02
ADPE(A1) kg Sb eq. 6.03E-042.35E-101.62E-098.04E-082.08E-08-4.29E-04
ADPF(A1)MJ1.95E+032.34E-011.61E+001.27E+004.97E+00-5.14E+02
Metro Series ThermalHeart+® with Centrafix® Hinge Door
Table 85: EN15804+A2 Core Environmental Impact Indicators
Indicator
GWP-total
kgCO₂eq.1.39E+021.74E-021.18E-017.18E-023.52E+00-4.58E+01
GWP-fossil kgCO₂eq.1.41E+021.72E-021.18E-017.02E-023.96E-01-4.58E+01
GWP-biogenic kgCO₂eq.-1.63E+001.41E-041.58E-055.25E-043.12E+00-4.75E-02
GWP-luluc
kgCO₂eq.9.72E-024.50E-073.10E-061.05E-031.56E-03-3.29E-03
ODPkgCFC-11eq.4.18E-101.72E-151.18E-142.17E-139.29E-13-5.59E-11
AP MoleofH⁺eq.8.81E-018.97E-052.99E-043.40E-042.30E-03-3.10E-01
EP-freshwater kg P eq. 2.08E-042.64E-091.81E-081.97E-071.46E-05-1.24E-05
EP-marine kg N eq. 1.76E-014.37E-051.33E-041.57E-046.35E-04-3.02E-02
EP-terrestrial Mole of N eq. 1.93E+004.79E-041.46E-031.74E-036.81E-03-3.31E-01
POCPkgNMVOCeq.4.87E-011.23E-043.20E-044.34E-042.13E-03-9.95E-02
ADP-minerals & metalskg Sb eq. 3.24E-042.26E-101.55E-097.74E-082.21E-08-1.96E-04
ADP-fossil MJ1.73E+032.27E-011.56E+001.27E+005.46E+00-4.13E+02
WDP m³ world equiv. 3.08E+016.45E-054.44E-041.17E-022.96E-02-1.71E+01
Table 86: EN15804+A2 Additional Environmental Impact Indicators
Indicator Unit
GWP-GHGkgCO₂eq.1.42E+021.72E-021.18E-017.18E-023.34E+00-4.58E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.41E+021.72E-021.18E-017.08E-021.18E+00-4.51E+01
PM Disease incidences 1.15E-051.14E-093.04E-096.68E-092.52E-08-4.13E-06
IRP kBqU235eq.1.49E+004.74E-063.26E-051.04E-035.47E-03-2.71E-01
ETP-fw CTUe8.85E+021.01E-016.96E-019.78E-013.67E+00-1.94E+02
HTP-cCTUh4.49E-071.66E-121.14E-112.12E-117.50E-11-5.76E-07
HTP-ncCTUh9.99E-073.67E-112.51E-107.44E-103.71E-09-4.09E-07
SQP Pt 1.15E+034.61E-043.17E-035.41E-011.01E+00-1.03E+01
Table 87: Use of resources
Table 89: Waste production and output flows
5.71E+015.56E-063.83E-053.78E-041.63E+01-2.92E+01
kg 1.01E-024.42E-083.04E-079.89E-064.72E-05-1.76E-03
Table 91: Biogenic carbon content
Table 92: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.37E+021.72E-021.17E-016.95E-021.26E+00-4.55E+01
ODP(A1)kgCFC-11eq.4.25E-102.02E-151.39E-142.56E-131.09E-12-6.58E-11
AP(A1)kgSO2eq.7.20E-016.22E-052.12E-042.37E-041.81E-03-2.70E-01
EP(A1)kgPO₄³¯eq.6.28E-021.47E-054.49E-055.54E-054.00E-04-1.03E-02
POCP(A1) kg Ethene eq. 2.49E-026.47E-06-2.90E-053.17E-053.07E-04-1.42E-02
ADPE(A1) kg Sb eq. 3.24E-042.26E-101.56E-097.74E-082.24E-08-1.96E-04
ADPF(A1)MJ1.68E+032.25E-011.55E+001.22E+005.28E+00-4.04E+02
Metro Series ThermalHeart+® with Centrafix® Sliding Door
Table 93: EN15804+A2 Core Environmental Impact Indicators
GWP-total kgCO₂eq.1.72E+022.05E-021.39E-018.46E-025.14E+00-5.92E+01
GWP-fossil kgCO₂eq.1.74E+022.03E-021.39E-018.28E-024.90E-01-5.91E+01
GWP-biogenic kgCO₂eq.-2.73E+001.66E-041.86E-056.18E-044.65E+00-6.15E-02
GWP-luluc
kgCO₂eq.1.16E-015.30E-073.65E-061.24E-031.76E-03-4.05E-03
ODPkgCFC-11eq.5.03E-102.02E-151.39E-142.56E-131.10E-12-6.97E-11
AP MoleofH⁺eq.1.08E+001.06E-043.53E-044.00E-042.73E-03-4.00E-01
EP-freshwater kg P eq. 2.20E-043.11E-092.14E-082.32E-071.24E-05-1.47E-05
EP-marine kg N eq. 2.12E-015.15E-051.57E-041.85E-047.71E-04-3.89E-02
EP-terrestrial Mole of N eq. 2.33E+005.64E-041.72E-032.06E-038.22E-03-4.27E-01
POCPkgNMVOCeq.5.95E-011.45E-043.77E-045.12E-042.63E-03-1.28E-01
ADP-minerals & metalskg Sb eq. 2.61E-042.66E-101.83E-099.12E-082.64E-08-6.87E-05
ADP-fossil MJ2.12E+032.67E-011.84E+001.49E+006.75E+00-5.31E+02
WDP m³ world equiv. 3.86E+017.60E-055.23E-041.38E-023.24E-02-2.20E+01
Table 94: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.1.76E+022.03E-021.39E-018.46E-024.88E+00-5.91E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.74E+022.03E-021.39E-018.34E-021.65E+00-5.82E+01
PM Disease incidences 1.43E-051.34E-093.58E-097.87E-092.90E-08-5.34E-06
IRP kBqU235eq.1.83E+005.59E-063.84E-051.23E-036.28E-03-3.18E-01
ETP-fw CTUe1.05E+031.19E-018.20E-011.15E+004.24E+00-2.50E+02
HTP-cCTUh7.12E-071.96E-121.35E-112.50E-118.79E-11-2.10E-07
HTP-ncCTUh1.22E-064.33E-112.96E-108.77E-104.77E-09-5.28E-07
Table 95: Use of resources
PENRM MJ4.58E+0100000
PENRT MJ2.12E+032.67E-011.84E+001.49E+006.75E+00-5.31E+02
Table 96: Waste production and output flows
HWD kg 7.86E-054.30E-122.96E-113.15E-101.40E-091.38E-07
NHWD kg 7.25E+016.55E-064.51E-054.45E-041.81E+01-3.79E+01
RWD kg 1.23E-025.21E-083.58E-071.17E-055.49E-05-1.97E-03
CRU kg 2.04E-0200000 MFR kg 5.34E+00001.18E+0100 MER kg 000000 EEE MJ00003.50E-010 EET MJ000000
Table 97: Biogenic carbon content
Table 98: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.69E+022.03E-021.38E-018.19E-021.78E+00-5.87E+01
ODP(A1)kgCFC-11eq.5.13E-102.38E-151.64E-143.02E-131.30E-12-8.21E-11
AP(A1)kgSO2eq.8.84E-017.33E-052.50E-042.79E-042.15E-03-3.49E-01
EP(A1)kgPO₄³¯eq.7.57E-021.73E-055.30E-056.52E-054.34E-04-1.33E-02
POCP(A1) kg Ethene eq. 3.42E-027.63E-06-3.41E-053.73E-054.12E-04-1.82E-02
ADPE(A1) kg Sb eq. 2.61E-042.66E-101.83E-099.12E-082.67E-08-6.88E-05
ADPF(A1)MJ2.06E+032.65E-011.82E+001.44E+006.54E+00-5.21E+02
Metro Series ThermalHeart+® with Centrafix® Sliding Window
Table 99: EN15804+A2 Core Environmental Impact Indicators
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.1.94E+022.27E-021.54E-019.37E-025.92E+00-6.76E+01
kgCO₂eq.1.97E+022.25E-021.54E-019.17E-025.47E-01-6.75E+01
kgCO₂eq.-3.21E+001.84E-042.06E-056.85E-045.37E+00-6.97E-02
kgCO₂eq.1.30E-015.87E-074.04E-061.37E-031.92E-03-4.73E-03
ODPkgCFC-11eq.5.63E-102.24E-151.54E-142.84E-131.23E-12-7.91E-11
AP MoleofH⁺eq.1.21E+001.17E-043.91E-044.43E-043.02E-03-4.56E-01
EP-freshwater kg P eq. 2.59E-043.44E-092.37E-082.57E-071.62E-05-1.69E-05
EP-marine kg N eq. 2.37E-015.70E-051.74E-042.05E-048.56E-04-4.45E-02
EP-terrestrial Mole of N eq. 2.61E+006.25E-041.91E-032.28E-039.11E-03-4.88E-01
POCPkgNMVOCeq.6.69E-011.61E-044.17E-045.67E-042.93E-03-1.46E-01
ADP-minerals & metalskg Sb eq. 3.57E-042.95E-102.03E-091.01E-072.93E-08-9.82E-05
ADP-fossil MJ2.40E+032.96E-012.03E+001.65E+007.57E+00-6.07E+02
WDP m³ world equiv. 4.43E+018.42E-055.80E-041.53E-023.54E-02-2.51E+01
100: EN15804+A2 Additional Environmental Impact Indicators
Indicator Unit
GWP-GHGkgCO₂eq.1.99E+022.25E-021.54E-019.37E-025.61E+00-6.75E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.97E+022.25E-021.54E-019.24E-021.89E+00-6.65E+01
PM Disease incidences 1.62E-051.48E-093.97E-098.72E-093.18E-08-6.08E-06
IRP kBqU235eq.2.07E+006.19E-064.26E-051.36E-037.02E-03-3.63E-01
ETP-fw CTUe1.16E+031.32E-019.08E-011.28E+004.85E+00-2.85E+02
HTP-cCTUh9.96E-072.17E-121.49E-112.77E-119.94E-11-2.97E-07
HTP-ncCTUh1.38E-064.80E-113.28E-109.72E-105.39E-09-6.01E-07
SQP Pt 1.74E+036.02E-044.14E-037.06E-011.27E+00-1.45E+01
Table
Table 101: Use of resources
PERE
MJ1.27E+031.28E-038.80E-032.31E-011.19E+00-8.56E+02
PERM MJ1.39E+0200000
PERT MJ1.40E+031.28E-038.80E-032.31E-011.19E+00-8.56E+02
PENRE MJ2.35E+032.96E-012.03E+001.65E+007.57E+00-6.07E+02
PENRM MJ5.71E+0100000
Table 103: Waste production and output flows
HWD kg 8.73E-054.76E-123.28E-113.49E-101.56E-091.58E-07
NHWD kg 8.22E+017.26E-064.99E-054.93E-041.96E+01-4.32E+01 RWD kg 1.39E-025.77E-083.97E-071.29E-056.12E-05-2.25E-03 CRU kg 2.32E-0200000 MFR kg 5.63E+00001.35E+0100 MER kg 000000 EEE MJ00004.04E-010 EET MJ000000
Table 104: Biogenic carbon content
Table 105: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.92E+022.24E-021.53E-019.07E-022.04E+00-6.71E+01
ODP(A1)kgCFC-11eq.5.76E-102.64E-151.82E-143.34E-131.44E-12-9.31E-11
AP(A1)kgSO2eq.9.96E-018.12E-052.77E-043.09E-042.38E-03-3.97E-01
EP(A1)kgPO₄³¯eq.8.46E-021.91E-055.87E-057.23E-055.10E-04-1.51E-02
POCP(A1) kg Ethene eq. 4.07E-028.45E-06-3.78E-054.13E-054.67E-04-2.08E-02
ADPE(A1) kg Sb eq. 3.57E-042.95E-102.03E-091.01E-072.96E-08-9.83E-05
ADPF(A1)MJ2.33E+032.94E-012.02E+001.59E+007.34E+00-5.95E+02
Commercial Series Awning Window
Table 106: EN15804+A2 Core Environmental Impact Indicators
GWP-total kgCO₂eq.1.07E+021.55E-021.06E-016.43E-022.66E-01-2.89E+01
GWP-fossil kgCO₂eq.1.06E+021.54E-021.06E-016.28E-022.64E-01-2.89E+01
GWP-biogenic
GWP-luluc
kgCO₂eq.8.94E-011.26E-041.41E-054.70E-048.41E-04-3.04E-02
kgCO₂eq.8.73E-024.03E-072.77E-069.42E-041.56E-03-1.89E-03
ODPkgCFC-11eq.3.54E-101.54E-151.06E-141.95E-137.19E-13-3.43E-11
AP MoleofH⁺eq.7.06E-018.03E-052.68E-043.04E-041.86E-03-1.96E-01
EP-freshwater kg P eq. 1.49E-042.36E-091.62E-081.76E-077.35E-06-6.98E-06
EP-marine kg N eq. 1.47E-013.91E-051.19E-041.41E-044.76E-04-1.90E-02
EP-terrestrial Mole of N eq. 1.63E+004.28E-041.31E-031.56E-035.24E-03-2.09E-01
POCPkgNMVOCeq.3.92E-011.10E-042.86E-043.88E-041.46E-03-6.27E-02
ADP-minerals & metalskg Sb eq. 9.57E-052.02E-101.39E-096.92E-081.71E-08-2.58E-06
ADP-fossil MJ1.31E+032.03E-011.39E+001.13E+003.52E+00-2.60E+02
WDP m³ world equiv. 2.08E+015.77E-053.97E-041.05E-023.04E-02-1.08E+01
Table 107: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.1.07E+021.54E-021.06E-016.43E-022.66E-01-2.89E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.06E+021.54E-021.06E-016.33E-022.65E-01-2.85E+01
PM Disease incidences 8.45E-061.02E-092.72E-095.98E-092.32E-08-2.62E-06
IRP kBqU235eq.1.14E+004.24E-062.92E-059.32E-044.42E-03-1.53E-01
ETP-fw CTUe8.30E+029.05E-026.22E-018.75E-012.38E+00-1.22E+02
HTP-cCTUh2.30E-071.49E-121.02E-111.90E-115.17E-11-1.26E-08
HTP-ncCTUh7.64E-073.29E-112.25E-106.66E-101.88E-09-2.59E-07
SQP Pt 5.26E+024.13E-042.84E-034.84E-019.50E-01-6.30E+00
Table 108: Use of resources
Indicator Unit
MJ5.79E+028.77E-046.03E-031.58E-016.10E-01-3.70E+02 PERM MJ6.49E+0100000
PERT
PENRE
MJ6.44E+028.77E-046.03E-031.58E-016.10E-01-3.70E+02
MJ1.28E+032.03E-011.39E+001.13E+003.52E+00-2.60E+02
PENRM MJ2.93E+0100000
PENRT
MJ1.31E+032.03E-011.39E+001.13E+003.52E+00-2.60E+02
MJ000000
MJ000000
FW m³ 1.87E+001.17E-068.08E-063.28E-049.27E-04-1.18E+00
Table 109: Waste production and output flows
HWD kg 5.87E-053.26E-122.25E-112.39E-108.77E-106.82E-08
NHWD kg 3.94E+014.98E-063.42E-053.38E-041.73E+01-1.87E+01
RWD kg 7.67E-033.96E-082.72E-078.85E-063.77E-05-9.31E-04 CRU kg 1.01E-0200000
Table 110: Biogenic carbon content
BCC-prod kg 0
Table 111: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.05E+021.54E-021.05E-016.22E-022.61E-01-2.87E+01
ODP(A1)kgCFC-11eq.3.56E-101.81E-151.24E-142.29E-138.46E-13-4.04E-11
AP(A1)kgSO2eq.5.71E-015.57E-051.90E-042.12E-041.48E-03-1.71E-01
EP(A1)kgPO₄³¯eq.5.33E-021.31E-054.02E-054.95E-052.41E-04-6.48E-03
POCP(A1) kg Ethene eq. 7.94E-035.79E-06-2.59E-052.83E-051.23E-04-8.90E-03
ADPE(A1) kg Sb eq. 9.56E-052.02E-101.39E-096.92E-081.73E-08-2.59E-06
ADPF(A1)MJ1.27E+032.01E-011.39E+001.09E+003.38E+00-2.55E+02
Commercial Series Hinge Door
Table 112: EN15804+A2 Core Environmental Impact Indicators
Indicator
GWP-total
kgCO₂eq.1.15E+021.56E-021.06E-016.46E-023.15E+00-3.16E+01
GWP-fossil kgCO₂eq.1.16E+021.55E-021.06E-016.31E-023.92E-01-3.16E+01
GWP-biogenic kgCO₂eq.-1.44E+001.27E-041.42E-054.72E-042.75E+00-2.76E-02
GWP-luluc kgCO₂eq.9.84E-024.05E-072.78E-069.46E-041.55E-03-3.26E-03
ODPkgCFC-11eq.3.93E-101.54E-151.06E-141.95E-139.59E-13-3.25E-11
AP MoleofH⁺eq.7.43E-018.07E-052.69E-043.05E-042.29E-03-2.05E-01
EP-freshwater kg P eq. 3.14E-042.37E-091.63E-081.77E-073.54E-05-9.46E-06
EP-marine kg N eq. 1.45E-013.93E-051.20E-041.41E-046.18E-04-2.07E-02
EP-terrestrial Mole of N eq. 1.60E+004.30E-041.31E-031.57E-036.64E-03-2.26E-01
POCPkgNMVOCeq.4.01E-011.11E-042.87E-043.90E-042.06E-03-6.82E-02
ADP-minerals & metalskg Sb eq. 8.38E-042.03E-101.40E-096.96E-082.23E-08-3.03E-04
ADP-fossil MJ1.51E+032.04E-011.40E+001.14E+005.53E+00-2.84E+02
WDP m³ world equiv. 2.67E+015.80E-053.99E-041.06E-023.16E-02-1.11E+01
Table 113: EN15804+A2 Additional Environmental Impact Indicators
Indicator Unit
GWP-GHGkgCO₂eq.1.17E+021.55E-021.06E-016.46E-022.99E+00-3.16E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.17E+021.55E-021.06E-016.36E-021.08E+00-3.11E+01
PM Disease incidences
9.75E-061.02E-092.73E-096.00E-092.50E-08-2.73E-06
IRP kBqU235eq.1.28E+004.26E-062.93E-059.36E-046.17E-03-1.80E-01
ETP-fw CTUe7.44E+029.09E-026.25E-018.79E-014.70E+00-1.29E+02
HTP-cCTUh2.23E-061.49E-121.03E-111.91E-118.81E-11-8.88E-07
HTP-ncCTUh7.96E-073.30E-112.26E-106.69E-103.75E-09-2.64E-07
SQP Pt 1.00E+034.15E-042.85E-034.86E-011.02E+00-5.87E+00
Table 114: Use of resources
MJ6.02E+028.81E-046.06E-031.59E-018.81E-01-3.72E+02
PERM MJ8.82E+0100000
Table 116: Waste production and output flows
kg 4.00E+015.00E-063.44E-053.40E-041.60E+01-1.88E+01
Table 118: Biogenic carbon content
Table 119: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.13E+021.55E-021.05E-016.24E-021.15E+00-3.14E+01
ODP(A1)kgCFC-11eq.4.02E-101.82E-151.25E-142.30E-131.13E-12-3.82E-11
AP(A1)kgSO2eq.6.08E-015.59E-051.91E-042.13E-041.81E-03-1.78E-01
EP(A1)kgPO₄³¯eq.5.29E-021.32E-054.04E-054.98E-056.20E-04-7.05E-03
POCP(A1) kg Ethene eq. 1.99E-025.82E-06-2.60E-052.85E-052.90E-04-9.85E-03
ADPE(A1) kg Sb eq. 8.38E-042.03E-101.40E-096.95E-082.26E-08-3.04E-04
ADPF(A1)MJ1.45E+032.02E-011.39E+001.10E+005.33E+00-2.78E+02
Metro Series ThermalHeart+® Awning Window
Table 120: EN15804+A2 Core Environmental Impact Indicators
GWP-total kgCO₂eq.7.11E+011.51E-021.03E-016.26E-024.98E+00-1.47E+01
GWP-fossil kgCO₂eq.7.40E+011.50E-021.03E-016.12E-024.91E-01-1.47E+01
GWP-biogenic
GWP-luluc
kgCO₂eq.-2.94E+001.23E-041.38E-054.58E-044.49E+00-1.55E-02
kgCO₂eq.8.18E-023.92E-072.70E-069.18E-041.84E-03-9.53E-04
ODPkgCFC-11eq.3.19E-101.50E-151.03E-141.90E-131.11E-12-1.74E-11
AP MoleofH⁺eq.5.30E-017.82E-052.61E-042.96E-042.78E-03-9.96E-02
EP-freshwater kg P eq. 1.19E-042.30E-091.58E-081.71E-075.12E-06-3.56E-06
EP-marine kg N eq. 1.17E-013.81E-051.16E-041.37E-047.85E-04-9.67E-03
EP-terrestrial Mole of N eq. 1.30E+004.17E-041.27E-031.52E-038.39E-03-1.06E-01
POCPkgNMVOCeq.3.00E-011.07E-042.79E-043.78E-042.66E-03-3.18E-02
ADP-minerals & metalskg Sb eq. 6.87E-051.97E-101.35E-096.75E-082.66E-08-1.31E-06
ADP-fossil MJ9.37E+021.97E-011.36E+001.10E+006.72E+00-1.32E+02
WDP m³ world equiv. 1.26E+015.63E-053.87E-041.02E-023.33E-02-5.51E+00
Table 121: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.7.52E+011.50E-021.03E-016.26E-024.73E+00-1.47E+01
GWP-GHG(IPCCAR5)kgCO₂eq.7.47E+011.50E-021.03E-016.17E-021.61E+00-1.44E+01
PM Disease incidences
6.45E-069.90E-102.65E-095.82E-093.00E-08-1.33E-06
IRP kBqU235eq.8.26E-014.13E-062.84E-059.08E-046.16E-03-7.77E-02
ETP-fw CTUe7.18E+028.82E-026.07E-018.53E-013.82E+00-6.31E+01
HTP-cCTUh1.05E-071.45E-129.98E-121.85E-118.38E-11-6.37E-09
HTP-ncCTUh5.57E-073.20E-112.19E-106.49E-104.68E-09-1.32E-07
Table 122: Use of resources
MJ4.29E+028.54E-045.88E-031.54E-011.07E+00-1.88E+02 PENRE
MJ9.14E+021.97E-011.36E+001.10E+006.72E+00-1.32E+02
PENRM MJ2.26E+0100000
PENRT
MJ9.37E+021.97E-011.36E+001.10E+006.72E+00-1.32E+02
Table 123: Waste production and output flows
HWD kg 5.69E-053.18E-122.19E-112.33E-101.40E-093.46E-08
NHWD kg 2.41E+014.85E-063.34E-053.29E-041.91E+01-9.47E+00
RWD kg 5.72E-033.85E-082.65E-078.62E-065.43E-05-4.74E-04
CRU kg 5.10E-0300000 MFR kg 6.16E+00002.89E+0000 MER kg 000000 EEE MJ00003.38E-010 EET MJ000000
Table 124: Biogenic carbon content
Table 125: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.7.00E+011.50E-021.02E-016.06E-021.74E+00-1.46E+01
ODP(A1)kgCFC-11eq.3.17E-101.76E-151.21E-142.23E-131.30E-12-2.05E-11
AP(A1)kgSO2eq.4.24E-015.42E-051.85E-042.07E-042.19E-03-8.68E-02
EP(A1)kgPO₄³¯eq.4.30E-021.28E-053.92E-054.83E-053.57E-04-3.29E-03
POCP(A1) kg Ethene eq. -2.67E-035.64E-06-2.52E-052.76E-054.07E-04-4.51E-03
ADPE(A1) kg Sb eq. 6.87E-051.97E-101.36E-096.75E-082.70E-08-1.31E-06
ADPF(A1)MJ9.06E+021.96E-011.35E+001.06E+006.51E+00-1.29E+02
Metro Series ThermalHeart+® Bi-fold Door
Table 126: EN15804+A2 Core Environmental Impact Indicators
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.1.32E+021.65E-021.12E-016.82E-023.46E+00-4.42E+01
kgCO₂eq.1.34E+021.64E-021.12E-016.67E-023.76E-01-4.41E+01
kgCO₂eq.-1.65E+001.34E-041.50E-054.98E-043.08E+00-4.47E-02
kgCO₂eq.9.38E-024.27E-072.94E-061.00E-031.46E-03-3.59E-03
ODPkgCFC-11eq.4.02E-101.63E-151.12E-142.06E-138.73E-13-5.58E-11
AP MoleofH⁺eq.8.41E-018.52E-052.84E-043.23E-042.17E-03-2.96E-01
EP-freshwater kg P eq. 1.86E-042.50E-091.72E-081.87E-071.18E-05-1.37E-05
EP-marine kg N eq. 1.67E-014.15E-051.26E-041.49E-046.02E-04-2.91E-02
EP-terrestrial Mole of N eq. 1.84E+004.55E-041.39E-031.66E-036.45E-03-3.19E-01
POCPkgNMVOCeq.4.64E-011.17E-043.04E-044.12E-042.02E-03-9.61E-02
ADP-minerals&metalskg Sb eq. 6.04E-042.14E-101.48E-097.35E-082.08E-08-4.46E-04
ADP-fossil MJ1.64E+032.15E-011.48E+001.20E+005.18E+00-4.00E+02
WDP m³ world equiv. 2.94E+016.13E-054.22E-041.12E-022.74E-02-1.63E+01
Indicator Unit
GWP-GHGkgCO₂eq.1.35E+021.64E-021.12E-016.82E-023.29E+00-4.41E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.34E+021.64E-021.12E-016.72E-021.15E+00-4.35E+01
PM Disease incidences
1.10E-051.08E-092.89E-096.34E-092.36E-08-3.95E-06
IRP kBqU235eq.1.47E+004.50E-063.10E-059.89E-045.09E-03-2.99E-01
ETP-fw CTUe8.38E+029.60E-026.61E-019.29E-013.38E+00-1.87E+02
HTP-cCTUh6.17E-071.58E-121.09E-112.02E-116.97E-11-1.30E-06
HTP-ncCTUh9.79E-073.49E-112.38E-107.07E-103.54E-09-3.93E-07
SQP Pt 1.11E+034.38E-043.02E-035.14E-019.50E-01-1.04E+01
Table 127: EN15804+A2 Additional Environmental Impact Indicators
Table 128: Use of resources
PERE
MJ8.26E+029.31E-046.40E-031.68E-018.29E-01-5.53E+02
PERM MJ9.46E+0100000
PERT
MJ9.20E+029.31E-046.40E-031.68E-018.29E-01-5.53E+02
PENRE MJ1.60E+032.15E-011.48E+001.20E+005.18E+00-4.00E+02
PENRM MJ4.15E+0100000
PENRT MJ1.64E+032.15E-011.48E+001.20E+005.18E+00-4.00E+02 SM kg 000000 RSF MJ000000 NRSF MJ000000
Table 129: Waste production and output flows
HWD kg 6.79E-053.46E-122.38E-112.54E-101.10E-099.41E-08
NHWD kg 5.45E+015.28E-063.63E-053.59E-041.52E+01-2.77E+01
RWD kg 1.02E-024.20E-082.89E-079.39E-064.41E-05-2.08E-03
CRU kg 1.49E-0200000
MFR kg 4.61E+00008.89E+0000
MER kg 000000
EEE MJ00002.32E-010
EET MJ000000
Table 130: Biogenic carbon content
Table 131: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.31E+021.63E-021.11E-016.60E-021.23E+00-4.38E+01
ODP(A1)kgCFC-11eq.4.10E-101.92E-151.32E-142.43E-131.03E-12-6.57E-11
AP(A1)kgSO2eq.6.87E-015.91E-052.02E-042.25E-041.71E-03-2.58E-01
EP(A1)kgPO₄³¯eq.5.98E-021.39E-054.27E-055.26E-053.57E-04-9.95E-03
POCP(A1) kg Ethene eq. 2.41E-026.15E-06-2.75E-053.01E-052.97E-04-1.38E-02
ADPE(A1) kg Sb eq. 6.04E-042.15E-101.48E-097.35E-082.11E-08-4.47E-04
ADPF(A1)MJ1.59E+032.14E-011.47E+001.16E+005.01E+00-3.90E+02
Metro Series ThermalHeart+® Bi-fold Window
Table 132: EN15804+A2 Core Environmental Impact Indicators
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.1.48E+021.91E-021.30E-017.91E-024.03E+00-4.80E+01
kgCO₂eq.1.50E+021.90E-021.30E-017.73E-024.45E-01-4.79E+01
kgCO₂eq.-1.92E+001.56E-041.74E-055.78E-043.58E+00-4.79E-02
kgCO₂eq.1.10E-014.96E-073.41E-061.16E-031.75E-03-4.08E-03
ODPkgCFC-11eq.4.65E-101.89E-151.30E-142.39E-131.04E-12-6.06E-11
AP MoleofH⁺eq.9.49E-019.88E-053.30E-043.74E-042.58E-03-3.21E-01
EP-freshwater kg P eq. 2.19E-042.90E-092.00E-082.16E-071.46E-05-1.54E-05
EP-marine kg N eq. 1.90E-014.81E-051.46E-041.73E-047.14E-04-3.16E-02
EP-terrestrial Mole of N eq. 2.08E+005.27E-041.61E-031.92E-037.66E-03-3.47E-01
POCPkgNMVOCeq.5.24E-011.36E-043.52E-044.78E-042.40E-03-1.04E-01
ADP-minerals & metalskg Sb eq. 7.82E-042.49E-101.71E-098.52E-082.47E-08-5.58E-04
ADP-fossil
MJ1.85E+032.49E-011.72E+001.39E+006.13E+00-4.36E+02
WDP m³ world equiv. 3.26E+017.10E-054.89E-041.29E-023.29E-02-1.76E+01
Table 133: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.1.51E+021.90E-021.30E-017.91E-023.83E+00-4.80E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.50E+021.90E-021.30E-017.79E-021.34E+00-4.72E+01
PM Disease incidences 1.24E-051.25E-093.35E-097.36E-092.82E-08-4.27E-06
IRP kBqU235eq.1.67E+005.22E-063.59E-051.15E-036.07E-03-3.34E-01
ETP-fw CTUe9.64E+021.11E-017.66E-011.08E+004.03E+00-2.03E+02
HTP-cCTUh8.83E-071.83E-121.26E-112.34E-118.30E-11-1.63E-06
HTP-ncCTUh1.10E-064.05E-112.76E-108.20E-104.18E-09-4.25E-07
SQP Pt 1.29E+035.08E-043.50E-035.96E-011.13E+00-1.13E+01
Table 134: Use of resources
Indicator Unit
MJ9.00E+021.08E-037.43E-031.95E-019.83E-01-5.96E+02 PERM MJ1.10E+0200000
PERT
MJ1.01E+031.08E-037.43E-031.95E-019.83E-01-5.96E+02
PENRE MJ1.80E+032.49E-011.72E+001.39E+006.13E+00-4.36E+02
PENRM MJ5.04E+0100000
PENRT MJ1.85E+032.49E-011.72E+001.39E+006.13E+00-4.36E+02
MJ000000 NRSF MJ000000
FW m³ 2.93E+001.44E-069.94E-064.04E-041.25E-03-1.90E+00
Table 135: Waste production and output flows
HWD kg 7.92E-054.02E-122.76E-112.95E-101.31E-091.01E-07
NHWD kg 5.97E+016.12E-064.21E-054.16E-041.82E+01-2.99E+01 RWD kg 1.16E-024.87E-083.35E-071.09E-055.26E-05-2.34E-03
Table 136: Biogenic carbon content
Table 137: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.46E+021.89E-021.29E-017.65E-021.44E+00-4.76E+01
ODP(A1)kgCFC-11eq.4.73E-102.23E-151.53E-142.82E-131.22E-12-7.13E-11
AP(A1)kgSO2eq.7.76E-016.85E-052.34E-042.61E-042.03E-03-2.80E-01
EP(A1)kgPO₄³¯eq.6.79E-021.61E-054.95E-056.10E-054.30E-04-1.08E-02
POCP(A1) kg Ethene eq. 2.53E-027.13E-06-3.19E-053.49E-053.49E-04-1.51E-02
ADPE(A1) kg Sb eq. 7.82E-042.49E-101.71E-098.52E-082.51E-08-5.59E-04
ADPF(A1)MJ1.79E+032.48E-011.70E+001.34E+005.93E+00-4.24E+02
Metro Series ThermalHeart+® French Door
Table 138: EN15804+A2 Core Environmental Impact Indicators
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.1.42E+021.65E-021.12E-016.84E-023.45E+00-4.94E+01
kgCO₂eq.1.44E+021.64E-021.12E-016.69E-023.61E-01-4.94E+01
kgCO₂eq.-1.64E+001.35E-041.51E-055.00E-043.09E+00-5.03E-02
kgCO₂eq.9.47E-024.29E-072.95E-061.00E-031.37E-03-3.91E-03
ODPkgCFC-11eq.4.13E-101.64E-151.13E-142.07E-138.33E-13-6.17E-11
AP MoleofH⁺eq.8.89E-018.55E-052.85E-043.24E-042.06E-03-3.32E-01
EP-freshwater kg P eq. 1.88E-042.51E-091.73E-081.87E-071.14E-05-1.48E-05
EP-marine kg N eq. 1.74E-014.16E-051.27E-041.50E-045.75E-04-3.26E-02
EP-terrestrial Mole of N eq. 1.92E+004.56E-041.39E-031.66E-036.16E-03-3.57E-01
POCPkgNMVOCeq.4.90E-011.17E-043.04E-044.13E-041.94E-03-1.07E-01
ADP-minerals & metalskg Sb eq. 5.97E-042.15E-101.48E-097.37E-081.99E-08-4.26E-04
ADP-fossil MJ1.75E+032.16E-011.48E+001.20E+004.98E+00-4.47E+02
WDP m³ world equiv. 3.22E+016.15E-054.23E-041.12E-022.57E-02-1.83E+01
Table 139: EN15804+A2 Additional Environmental Impact Indicators
Indicator Unit
GWP-GHGkgCO₂eq.1.45E+021.64E-021.12E-016.84E-023.27E+00-4.94E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.44E+021.64E-021.12E-016.74E-021.13E+00-4.86E+01
PM Disease incidences 1.18E-051.08E-092.90E-096.36E-092.23E-08-4.42E-06
IRP kBqU235eq.1.57E+004.52E-063.11E-059.92E-044.84E-03-3.23E-01
ETP-fw CTUe8.52E+029.63E-026.63E-019.32E-013.26E+00-2.09E+02
HTP-cCTUh6.84E-071.58E-121.09E-112.02E-116.68E-11-1.24E-06
HTP-ncCTUh1.04E-063.50E-112.39E-107.09E-103.44E-09-4.40E-07
SQP Pt 1.13E+034.39E-043.02E-035.15E-018.97E-01-1.15E+01
Table 140: Use of resources
PERE
MJ9.17E+029.33E-046.42E-031.68E-017.94E-01-6.20E+02
PERM MJ9.49E+0100000
PERT MJ1.01E+039.33E-046.42E-031.68E-017.94E-01-6.20E+02 PENRE MJ1.71E+032.16E-011.48E+001.20E+004.98E+00-4.47E+02 PENRM MJ4.06E+0100000 PENRT MJ1.75E+032.16E-011.48E+001.20E+004.98E+00-4.47E+02
Table 142: Waste production and output flows
5.99E+015.30E-063.64E-053.60E-041.43E+01-3.11E+01
kg 1.07E-024.21E-082.90E-079.42E-064.20E-05-2.21E-03
kg 1.67E-0200000
4.23E+00009.93E+0000
Table 144: Biogenic carbon content
Table 145: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.41E+021.64E-021.11E-016.62E-021.22E+00-4.91E+01
ODP(A1)kgCFC-11eq.4.22E-101.93E-151.32E-142.44E-139.81E-13-7.27E-11
AP(A1)kgSO2eq.7.29E-015.93E-052.02E-042.26E-041.63E-03-2.89E-01
EP(A1)kgPO₄³¯eq.6.22E-021.40E-054.28E-055.27E-053.44E-04-1.11E-02
POCP(A1) kg Ethene eq. 2.91E-026.17E-06-2.76E-053.02E-052.90E-04-1.55E-02
ADPE(A1) kg Sb eq. 5.96E-042.15E-101.48E-097.37E-082.01E-08-4.26E-04
ADPF(A1)MJ1.70E+032.14E-011.47E+001.16E+004.82E+00-4.37E+02
Table 146: EN15804+A2 Core Environmental Impact Indicators
GWP-total kgCO₂eq.1.18E+021.59E-021.08E-016.56E-023.50E+00-3.70E+01
GWP-fossil kgCO₂eq.1.19E+021.57E-021.08E-016.41E-023.85E-01-3.70E+01
GWP-biogenic kgCO₂eq.-1.71E+001.29E-041.44E-054.79E-043.11E+00-3.82E-02
GWP-luluc kgCO₂eq.8.87E-024.11E-072.83E-069.61E-041.51E-03-2.73E-03
ODPkgCFC-11eq.3.74E-101.57E-151.08E-141.98E-138.98E-13-4.53E-11
AP MoleofH⁺eq.7.60E-018.19E-052.73E-043.10E-042.23E-03-2.50E-01
EP-freshwater kg P eq. 1.77E-042.41E-091.66E-081.79E-071.18E-05-1.03E-05
EP-marine kg N eq. 1.54E-013.99E-051.21E-041.44E-046.19E-04-2.44E-02
EP-terrestrial Mole of N eq. 1.69E+004.37E-041.33E-031.59E-036.63E-03-2.67E-01
POCPkgNMVOCeq.4.21E-011.12E-042.92E-043.96E-042.08E-03-8.04E-02
ADP-minerals & metalskg Sb eq. 3.18E-042.06E-101.42E-097.06E-082.14E-08-1.94E-04
ADP-fossil MJ1.47E+032.07E-011.42E+001.15E+005.30E+00-3.34E+02
WDP m³ world equiv. 2.55E+015.89E-054.05E-041.07E-022.84E-02-1.38E+01
Table 147: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.1.20E+021.57E-021.08E-016.56E-023.32E+00-3.70E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.20E+021.57E-021.08E-016.46E-021.16E+00-3.64E+01
PM Disease incidences
9.81E-061.04E-092.78E-096.10E-092.44E-08-3.33E-06
IRP kBqU235eq.1.28E+004.33E-062.98E-059.51E-045.22E-03-2.24E-01
ETP-fw CTUe7.99E+029.23E-026.35E-018.93E-013.44E+00-1.57E+02
HTP-cCTUh4.27E-071.52E-121.05E-111.94E-117.13E-11-5.70E-07
HTP-ncCTUh8.57E-073.35E-112.29E-106.80E-103.62E-09-3.30E-07
Table 148: Use of resources
MJ1.43E+032.07E-011.42E+001.15E+005.30E+00-3.34E+02
PENRM MJ4.09E+0100000
PENRT
MJ1.47E+032.07E-011.42E+001.15E+005.30E+00-3.34E+02
Table 150: Waste production and output flows
HWD kg 6.23E-053.33E-122.29E-112.44E-101.13E-098.30E-08
NHWD kg 4.71E+015.08E-063.49E-053.45E-041.58E+01-2.35E+01
RWD kg 8.74E-034.04E-082.78E-079.03E-064.53E-05-1.47E-03
CRU kg 1.27E-0200000 MFR kg 4.87E+00007.39E+0000 MER kg 000000
Table 152: Biogenic carbon content
Table 153: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.16E+021.57E-021.07E-016.34E-021.25E+00-3.67E+01
ODP(A1)kgCFC-11eq.3.79E-101.85E-151.27E-142.34E-131.06E-12-5.33E-11
AP(A1)kgSO2eq.6.20E-015.68E-051.94E-042.16E-041.76E-03-2.18E-01
EP(A1)kgPO₄³¯eq.5.52E-021.34E-054.10E-055.05E-053.63E-04-8.32E-03
POCP(A1) kg Ethene eq. 1.81E-025.91E-06-2.64E-052.89E-053.02E-04-1.15E-02
ADPE(A1) kg Sb eq. 3.18E-042.06E-101.42E-097.06E-082.17E-08-1.95E-04
ADPF(A1)MJ1.43E+032.05E-011.41E+001.11E+005.13E+00-3.27E+02
Metro Series ThermalHeart+® Sliding Door
Table 154: EN15804+A2 Core Environmental Impact Indicators
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.1.62E+021.96E-021.33E-018.11E-024.30E+00-5.41E+01
kgCO₂eq.1.64E+021.94E-021.33E-017.93E-024.47E-01-5.41E+01
kgCO₂eq.-2.12E+001.59E-041.79E-055.93E-043.85E+00-5.47E-02
kgCO₂eq.1.15E-015.08E-073.50E-061.19E-031.71E-03-3.95E-03
ODPkgCFC-11eq.4.89E-101.94E-151.33E-142.45E-131.02E-12-6.14E-11
AP MoleofH⁺eq.1.03E+001.01E-043.38E-043.84E-042.55E-03-3.63E-01
EP-freshwater kg P eq. 2.03E-042.98E-092.05E-082.22E-071.02E-05-1.34E-05
EP-marine kg N eq. 2.02E-014.94E-051.50E-041.78E-047.14E-04-3.56E-02
EP-terrestrial Mole of N eq. 2.22E+005.41E-041.65E-031.97E-037.64E-03-3.90E-01
POCPkgNMVOCeq.5.63E-011.39E-043.61E-044.90E-042.41E-03-1.17E-01
ADP-minerals & metalskg Sb eq. 3.85E-042.55E-101.75E-098.74E-082.45E-08-6.84E-05
ADP-fossil MJ1.99E+032.56E-011.76E+001.43E+006.14E+00-4.85E+02
WDP m³ world equiv. 3.60E+017.29E-055.01E-041.33E-023.15E-02-2.00E+01
GWP-GHGkgCO₂eq.1.65E+021.95E-021.33E-018.11E-024.08E+00-5.41E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.64E+021.95E-021.33E-017.99E-021.41E+00-5.33E+01
PM Disease incidences
1.36E-051.28E-093.43E-097.54E-092.77E-08-4.85E-06
IRP kBqU235eq.1.75E+005.35E-063.68E-051.18E-035.85E-03-2.81E-01
ETP-fw CTUe1.02E+031.14E-017.86E-011.10E+003.82E+00-2.27E+02
HTP-cCTUh1.24E-061.88E-121.29E-112.40E-118.00E-11-2.09E-07
HTP-ncCTUh1.15E-064.15E-112.83E-108.41E-104.23E-09-4.77E-07
SQP Pt 1.36E+035.21E-043.59E-036.11E-011.11E+00-1.12E+01
Table 155: EN15804+A2 Additional Environmental Impact Indicators
Table 156: Use of resources
PERE
MJ1.02E+031.11E-037.61E-031.99E-019.80E-01-6.80E+02
PERM MJ1.14E+0200000
PERT MJ1.14E+031.11E-037.61E-031.99E-019.80E-01-6.80E+02
PENRE MJ1.95E+032.56E-011.76E+001.43E+006.14E+00-4.85E+02
PENRM MJ3.94E+0100000
PENRT
Table 158: Waste production and output flows
7.52E-054.12E-122.83E-113.02E-101.29E-091.27E-07
NHWD kg 6.67E+016.28E-064.32E-054.27E-041.77E+01-3.43E+01 RWD kg 1.19E-024.99E-083.44E-071.12E-055.11E-05-1.72E-03 CRU kg 1.85E-0200000
MFR kg 5.39E+00001.09E+0100 MER kg 000000 EEE MJ00002.90E-010
EET MJ000000
Table 160: Biogenic carbon content
Table 161: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.60E+021.94E-021.32E-017.84E-021.52E+00-5.37E+01
ODP(A1)kgCFC-11eq.5.00E-102.28E-151.57E-142.89E-131.21E-12-7.23E-11
AP(A1)kgSO2eq.8.40E-017.02E-052.40E-042.68E-042.01E-03-3.16E-01
EP(A1)kgPO₄³¯eq.7.21E-021.65E-055.08E-056.25E-053.84E-04-1.21E-02
POCP(A1) kg Ethene eq. 3.05E-027.31E-06-3.27E-053.58E-053.61E-04-1.67E-02
ADPE(A1) kg Sb eq. 3.85E-042.55E-101.76E-098.74E-082.48E-08-6.85E-05
ADPF(A1)MJ1.94E+032.54E-011.75E+001.38E+005.94E+00-4.76E+02
Metro Series ThermalHeart+® Sliding Window
Table 162: EN15804+A2 Core Environmental Impact Indicators
GWP-total kgCO₂eq.1.83E+022.16E-021.47E-018.95E-024.94E+00-6.15E+01
GWP-fossil kgCO₂eq.1.85E+022.15E-021.47E-018.75E-024.95E-01-6.15E+01
GWP-biogenic
GWP-luluc
kgCO₂eq.-2.49E+001.76E-041.97E-056.54E-044.44E+00-6.13E-02
kgCO₂eq.1.30E-015.61E-073.86E-061.31E-031.85E-03-4.66E-03
ODPkgCFC-11eq.5.49E-102.14E-151.47E-142.71E-131.13E-12-6.86E-11
AP MoleofH⁺eq.1.15E+001.12E-043.73E-044.23E-042.80E-03-4.12E-01
EP-freshwater kg P eq. 2.36E-043.28E-092.26E-082.45E-071.29E-05-1.53E-05
EP-marine kg N eq. 2.25E-015.45E-051.66E-041.96E-047.87E-04-4.04E-02
EP-terrestrial Mole of N eq. 2.47E+005.97E-041.82E-032.17E-038.40E-03-4.43E-01
POCPkgNMVOCeq.6.30E-011.54E-043.98E-045.41E-042.67E-03-1.33E-01
ADP-minerals & metalskg Sb eq. 5.36E-042.81E-101.94E-099.64E-082.70E-08-9.78E-05
ADP-fossil
MJ2.25E+032.82E-011.94E+001.58E+006.83E+00-5.52E+02
WDP m³ world equiv. 4.11E+018.04E-055.53E-041.46E-023.42E-02-2.26E+01
Table 163: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.1.87E+022.15E-021.47E-018.95E-024.69E+00-6.15E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.85E+022.15E-021.47E-018.82E-021.61E+00-6.06E+01
PM Disease incidences 1.54E-051.42E-093.79E-098.33E-093.01E-08-5.49E-06
IRP kBqU235eq.1.99E+005.91E-064.07E-051.30E-036.47E-03-3.17E-01
ETP-fw CTUe1.12E+031.26E-018.67E-011.22E+004.32E+00-2.57E+02
HTP-cCTUh1.77E-062.07E-121.43E-112.65E-118.96E-11-2.96E-07
HTP-ncCTUh1.30E-064.58E-113.13E-109.28E-104.75E-09-5.39E-07
SQP Pt 1.54E+035.75E-043.96E-036.74E-011.21E+00-1.25E+01
Table 164: Use of resources Indicator Unit
PERT
MJ1.28E+031.22E-038.40E-032.20E-011.09E+00-7.68E+02
PENRE MJ2.21E+032.82E-011.94E+001.58E+006.83E+00-5.52E+02
PENRM MJ4.79E+0100000
PENRT MJ2.25E+032.82E-011.94E+001.58E+006.83E+00-5.52E+02
MJ000000
MJ000000
FW m³ 3.77E+001.64E-061.13E-054.58E-041.35E-03-2.45E+00
Table 165: Waste production and output flows
HWD kg 8.34E-054.55E-123.13E-113.34E-101.43E-091.44E-07
NHWD kg 7.51E+016.93E-064.77E-054.71E-041.91E+01-3.88E+01 RWD kg 1.36E-025.51E-083.79E-071.23E-055.64E-05-1.94E-03
Table 167: Biogenic carbon content
Table 168: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.80E+022.14E-021.46E-018.66E-021.73E+00-6.11E+01
ODP(A1)kgCFC-11eq.5.63E-102.52E-151.73E-143.19E-131.33E-12-8.08E-11
AP(A1)kgSO2eq.9.45E-017.75E-052.65E-042.95E-042.21E-03-3.58E-01
EP(A1)kgPO₄³¯eq.8.03E-021.83E-055.60E-056.90E-054.43E-04-1.38E-02
POCP(A1) kg Ethene eq. 3.64E-028.07E-06-3.61E-053.95E-054.06E-04-1.89E-02
ADPE(A1) kg Sb eq. 5.35E-042.82E-101.94E-099.64E-082.73E-08-9.79E-05
ADPF(A1)MJ2.19E+032.80E-011.93E+001.52E+006.61E+00-5.41E+02
Residential Series ThermalHeart+® Awning Window
Table 169: EN15804+A2 Core Environmental Impact Indicators
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.6.84E+011.49E-021.01E-016.17E-024.94E+00-1.33E+01
kgCO₂eq.7.12E+011.48E-021.01E-016.04E-024.91E-01-1.33E+01
kgCO₂eq.-2.92E+001.21E-041.36E-054.51E-044.45E+00-1.41E-02
kgCO₂eq.8.04E-023.87E-072.66E-069.04E-041.84E-03-8.64E-04
ODPkgCFC-11eq.3.12E-101.48E-151.02E-141.87E-131.11E-12-1.58E-11
AP MoleofH⁺eq.5.13E-017.71E-052.57E-042.92E-042.78E-03-9.04E-02
EP-freshwater kg P eq. 1.33E-042.26E-091.56E-081.69E-077.85E-06-3.23E-06
EP-marine kg N eq. 1.14E-013.76E-051.14E-041.35E-047.83E-04-8.77E-03
EP-terrestrial Mole of N eq. 1.27E+004.11E-041.26E-031.50E-038.37E-03-9.63E-02
POCPkgNMVOCeq.2.90E-011.06E-042.75E-043.73E-042.66E-03-2.89E-02
ADP-minerals & metalskg Sb eq. 6.64E-051.94E-101.33E-096.65E-082.67E-08-1.19E-06
ADP-fossil MJ9.13E+021.95E-011.34E+001.09E+006.73E+00-1.20E+02
WDP m³ world equiv. 1.21E+015.54E-053.82E-041.01E-023.35E-02-5.00E+00
Table 170: EN15804+A2 Additional Environmental Impact Indicators
Indicator Unit
GWP-GHGkgCO₂eq.7.24E+011.48E-021.01E-016.17E-024.69E+00-1.33E+01
GWP-GHG(IPCCAR5)kgCO₂eq.7.20E+011.48E-021.01E-016.08E-021.60E+00-1.31E+01
PM Disease incidences 6.20E-069.76E-102.61E-095.74E-093.00E-08-1.20E-06
IRP kBqU235eq.7.90E-014.07E-062.80E-058.95E-046.25E-03-7.04E-02
ETP-fw CTUe7.00E+028.69E-025.98E-018.40E-013.96E+00-5.74E+01
HTP-cCTUh9.64E-081.43E-129.84E-121.82E-118.56E-11-5.78E-09
HTP-ncCTUh5.33E-073.16E-112.16E-106.40E-104.68E-09-1.19E-07
SQP Pt 1.24E+033.96E-042.73E-034.65E-011.20E+00-2.93E+00
Table 171: Use of resources
MJ3.03E+028.42E-045.79E-031.52E-011.07E+00-1.71E+02
PERM MJ9.95E+0100000
PERT
MJ4.03E+028.42E-045.79E-031.52E-011.07E+00-1.71E+02 PENRE MJ8.83E+021.95E-011.34E+001.09E+006.73E+00-1.20E+02 PENRM MJ2.96E+0100000 PENRT MJ9.13E+021.95E-011.34E+001.09E+006.73E+00-1.20E+02
Table 172: Waste production and output flows
kg 2.25E+014.78E-063.29E-053.25E-041.91E+01-8.59E+00
kg 4.63E-0300000
Table 173: Biogenic carbon content
Table 174: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.6.73E+011.48E-021.00E-015.97E-021.72E+00-1.32E+01
ODP(A1)kgCFC-11eq.3.09E-101.74E-151.20E-142.20E-131.31E-12-1.86E-11
AP(A1)kgSO2eq.4.09E-015.35E-051.82E-042.04E-042.19E-03-7.87E-02
EP(A1)kgPO₄³¯eq.4.18E-021.26E-053.86E-054.76E-053.86E-04-2.99E-03
POCP(A1) kg Ethene eq. -3.22E-035.56E-06-2.49E-052.72E-054.05E-04-4.09E-03
ADPE(A1)
kg Sb eq. 6.63E-051.94E-101.34E-096.65E-082.70E-08-1.19E-06
ADPF(A1)MJ8.82E+021.93E-011.33E+001.05E+006.52E+00-1.17E+02
Residential Series ThermalHeart+® Bi-fold Door
Table 175: EN15804+A2 Core Environmental Impact Indicators
GWP-total kgCO₂eq.1.28E+021.62E-021.10E-016.69E-023.45E+00-4.23E+01
GWP-fossil kgCO₂eq.1.29E+021.60E-021.10E-016.54E-023.74E-01-4.22E+01
GWP-biogenic kgCO₂eq.-1.66E+001.32E-041.47E-054.89E-043.08E+00-4.27E-02
GWP-luluc
kgCO₂eq.9.20E-024.19E-072.88E-069.80E-041.45E-03-3.47E-03
ODPkgCFC-11eq.3.93E-101.60E-151.10E-142.02E-138.69E-13-5.35E-11
AP MoleofH⁺eq.8.15E-018.36E-052.79E-043.16E-042.15E-03-2.84E-01
EP-freshwater kg P eq. 1.82E-042.45E-091.69E-081.83E-071.17E-05-1.32E-05
EP-marine kg N eq. 1.62E-014.07E-051.24E-041.47E-045.99E-04-2.79E-02
EP-terrestrial Mole of N eq. 1.79E+004.46E-041.36E-031.62E-036.41E-03-3.05E-01
POCPkgNMVOCeq.4.50E-011.15E-042.98E-044.04E-042.01E-03-9.19E-02
ADP-minerals&metalskg Sb eq. 6.03E-042.10E-101.45E-097.21E-082.07E-08-4.45E-04
ADP-fossil MJ1.59E+032.11E-011.45E+001.18E+005.15E+00-3.83E+02
WDP m³ world equiv. 2.83E+016.01E-054.14E-041.09E-022.73E-02-1.56E+01
Table 176: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.1.31E+021.60E-021.10E-016.69E-023.28E+00-4.22E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.30E+021.60E-021.10E-016.59E-021.14E+00-4.16E+01
PM Disease incidences 1.07E-051.06E-092.83E-096.22E-092.35E-08-3.78E-06
IRP kBqU235eq.1.43E+004.41E-063.04E-059.70E-045.05E-03-2.89E-01
ETP-fw CTUe8.19E+029.42E-026.48E-019.11E-013.36E+00-1.79E+02
HTP-cCTUh6.14E-071.55E-121.07E-111.98E-116.93E-11-1.30E-06
HTP-ncCTUh9.48E-073.42E-112.34E-106.93E-103.53E-09-3.75E-07
Table 177: Use of resources
MJ8.85E+029.13E-046.28E-031.65E-018.24E-01-5.28E+02 PENRE
MJ1.55E+032.11E-011.45E+001.18E+005.15E+00-3.83E+02
PENRM MJ4.10E+0100000
PENRT
MJ1.59E+032.11E-011.45E+001.18E+005.15E+00-3.83E+02
Table 178: Waste production and output flows
HWD kg 6.67E-053.40E-122.34E-112.49E-101.09E-098.96E-08
NHWD kg 5.23E+015.18E-063.56E-053.52E-041.51E+01-2.65E+01
RWD kg 9.86E-034.12E-082.83E-079.21E-064.38E-05-2.01E-03
CRU kg 1.42E-0200000 MFR kg 4.58E+00008.52E+0000 MER kg 000000
Table 180: Biogenic carbon content
Table 181: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.26E+021.60E-021.09E-016.47E-021.23E+00-4.19E+01
ODP(A1)kgCFC-11eq.4.00E-101.88E-151.30E-142.38E-131.02E-12-6.30E-11
AP(A1)kgSO2eq.6.66E-015.79E-051.98E-042.21E-041.70E-03-2.47E-01
EP(A1)kgPO₄³¯eq.5.81E-021.36E-054.19E-055.16E-053.55E-04-9.52E-03
POCP(A1) kg Ethene eq. 2.27E-026.03E-06-2.70E-052.95E-052.96E-04-1.33E-02
ADPE(A1) kg Sb eq. 6.03E-042.11E-101.45E-097.21E-082.10E-08-4.45E-04
ADPF(A1)MJ1.54E+032.09E-011.44E+001.14E+004.98E+00-3.73E+02
Residential Series ThermalHeart+® Bi-fold Window
Table 182: EN15804+A2 Core Environmental Impact Indicators
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.1.44E+021.88E-021.28E-017.78E-024.02E+00-4.61E+01
kgCO₂eq.1.45E+021.87E-021.28E-017.61E-024.43E-01-4.61E+01
kgCO₂eq.-1.94E+001.53E-041.71E-055.68E-043.58E+00-4.59E-02
kgCO₂eq.1.08E-014.87E-073.35E-061.14E-031.74E-03-3.96E-03
ODPkgCFC-11eq.4.56E-101.86E-151.28E-142.35E-131.03E-12-5.83E-11
AP MoleofH⁺eq.9.24E-019.72E-053.24E-043.68E-042.56E-03-3.08E-01
EP-freshwater kg P eq. 2.16E-042.85E-091.96E-082.13E-071.44E-05-1.49E-05
EP-marine kg N eq. 1.85E-014.73E-051.44E-041.70E-047.11E-04-3.04E-02
EP-terrestrial Mole of N eq. 2.03E+005.18E-041.58E-031.89E-037.62E-03-3.33E-01
POCPkgNMVOCeq.5.10E-011.33E-043.46E-044.70E-042.39E-03-1.00E-01
ADP-minerals&metalskg Sb eq. 7.80E-042.44E-101.68E-098.38E-082.46E-08-5.57E-04
ADP-fossil MJ1.79E+032.45E-011.69E+001.37E+006.11E+00-4.19E+02
WDP m³ world equiv. 3.16E+016.99E-054.81E-041.27E-023.27E-02-1.69E+01
Indicator Unit
GWP-GHGkgCO₂eq.1.47E+021.87E-021.28E-017.78E-023.82E+00-4.61E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.46E+021.87E-021.28E-017.66E-021.34E+00-4.54E+01
PM Disease incidences 1.20E-051.23E-093.29E-097.23E-092.80E-08-4.10E-06
IRP kBqU235eq.1.62E+005.13E-063.53E-051.13E-036.04E-03-3.23E-01
ETP-fw CTUe9.45E+021.10E-017.53E-011.06E+004.01E+00-1.95E+02
HTP-cCTUh8.80E-071.80E-121.24E-112.30E-118.26E-11-1.62E-06
HTP-ncCTUh1.07E-063.98E-112.72E-108.06E-104.17E-09-4.08E-07
SQP Pt 1.27E+035.00E-043.44E-035.86E-011.13E+00-1.09E+01
Table 183: EN15804+A2 Additional Environmental Impact Indicators
Table 184: Use of resources
PERE
MJ8.67E+021.06E-037.30E-031.91E-019.79E-01-5.72E+02
PERM MJ1.08E+0200000
PERT MJ9.75E+021.06E-037.30E-031.91E-019.79E-01-5.72E+02
PENRE MJ1.74E+032.45E-011.69E+001.37E+006.11E+00-4.19E+02
PENRM MJ4.98E+0100000
PENRT
Table 185: Waste production and output flows
HWD kg 7.79E-053.95E-122.72E-112.90E-101.30E-099.64E-08
NHWD kg 5.76E+016.02E-064.14E-054.09E-041.81E+01-2.87E+01 RWD kg 1.13E-024.79E-083.29E-071.07E-055.23E-05-2.28E-03
CRU kg 1.54E-0200000
MFR kg 5.52E+00009.38E+0000
MER kg 000000
EEE MJ00002.69E-010
EET MJ000000
Table 187: Biogenic carbon content
Table 188: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.42E+021.86E-021.27E-017.52E-021.43E+00-4.58E+01
ODP(A1)kgCFC-11eq.4.64E-102.19E-151.51E-142.77E-131.22E-12-6.87E-11
AP(A1)kgSO2eq.7.54E-016.74E-052.30E-042.57E-042.02E-03-2.68E-01
EP(A1)kgPO₄³¯eq.6.63E-021.59E-054.87E-056.00E-054.27E-04-1.04E-02
POCP(A1) kg Ethene eq. 2.39E-027.01E-06-3.14E-053.43E-053.48E-04-1.45E-02
ADPE(A1) kg Sb eq. 7.80E-042.45E-101.68E-098.38E-082.49E-08-5.58E-04
ADPF(A1)MJ1.74E+032.44E-011.68E+001.32E+005.91E+00-4.08E+02
Residential Series ThermalHeart+® French Door
Table 189: EN15804+A2 Core Environmental Impact Indicators
GWP-fossil kgCO₂eq.1.41E+021.59E-021.09E-016.49E-023.53E-01-4.87E+01
GWP-biogenic
GWP-luluc
kgCO₂eq.-1.67E+001.31E-041.46E-054.85E-043.09E+00-4.99E-02
kgCO₂eq.9.09E-024.16E-072.86E-069.73E-041.33E-03-3.81E-03
ODPkgCFC-11eq.4.00E-101.59E-151.09E-142.01E-138.11E-13-6.16E-11
AP MoleofH⁺eq.8.67E-018.30E-052.77E-043.14E-042.00E-03-3.28E-01
EP-freshwater kg P eq. 1.83E-042.44E-091.68E-081.82E-071.13E-05-1.47E-05
EP-marine kg N eq. 1.70E-014.04E-051.23E-041.46E-045.60E-04-3.21E-02
EP-terrestrial Mole of N eq. 1.87E+004.43E-041.35E-031.61E-035.99E-03-3.52E-01
POCPkgNMVOCeq.4.78E-011.14E-042.96E-044.01E-041.90E-03-1.06E-01
ADP-minerals & metalskg Sb eq. 5.60E-042.09E-101.44E-097.15E-081.93E-08-4.26E-04
ADP-fossil
MJ1.71E+032.09E-011.44E+001.17E+004.87E+00-4.42E+02
WDP m³ world equiv. 3.16E+015.97E-054.11E-041.09E-022.48E-02-1.81E+01
Table 191: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.1.42E+021.59E-021.09E-016.64E-023.27E+00-4.87E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.41E+021.59E-021.09E-016.54E-021.12E+00-4.80E+01
PM Disease incidences 1.15E-051.05E-092.81E-096.18E-092.16E-08-4.37E-06
IRP kBqU235eq.1.53E+004.38E-063.02E-059.63E-044.70E-03-3.23E-01
ETP-fw CTUe8.26E+029.35E-026.43E-019.04E-013.19E+00-2.07E+02
HTP-cCTUh5.33E-071.54E-121.06E-111.96E-116.53E-11-1.24E-06
HTP-ncCTUh1.02E-063.40E-112.32E-106.88E-103.38E-09-4.35E-07
SQP Pt 1.11E+034.27E-042.94E-035.00E-018.67E-01-1.15E+01
Table 192: Use of resources Indicator Unit
MJ9.03E+029.06E-046.23E-031.63E-017.76E-01-6.13E+02 PERM MJ9.28E+0100000
PERT
PENRE
MJ9.96E+029.06E-046.23E-031.63E-017.76E-01-6.13E+02
MJ1.67E+032.09E-011.44E+001.17E+004.87E+00-4.42E+02
PENRM MJ4.00E+0100000
PENRT
MJ1.71E+032.09E-011.44E+001.17E+004.87E+00-4.42E+02
MJ000000
MJ000000
FW m³ 2.95E+001.21E-068.35E-063.39E-049.69E-04-1.95E+00
Table 194: Waste production and output flows
HWD kg 6.62E-053.37E-122.32E-112.47E-101.02E-091.05E-07
NHWD kg 5.90E+015.14E-063.54E-053.49E-041.37E+01-3.08E+01
RWD kg 1.04E-024.09E-082.81E-079.14E-064.08E-05-2.21E-03 CRU kg 1.66E-0200000
Table 195: Biogenic carbon content
EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.37E+021.59E-021.08E-016.42E-021.21E+00-4.84E+01
ODP(A1)kgCFC-11eq.4.09E-101.87E-151.29E-142.37E-139.55E-13-7.25E-11
AP(A1)kgSO2eq.7.11E-015.75E-051.96E-042.19E-041.58E-03-2.86E-01
EP(A1)kgPO₄³¯eq.6.05E-021.35E-054.16E-055.12E-053.38E-04-1.10E-02
POCP(A1) kg Ethene eq. 2.88E-025.99E-06-2.68E-052.93E-052.86E-04-1.53E-02
ADPE(A1) kg Sb eq. 5.60E-042.09E-101.44E-097.15E-081.96E-08-4.26E-04
ADPF(A1)MJ1.66E+032.08E-011.43E+001.13E+004.72E+00-4.31E+02
Residential Series ThermalHeart+® Hinge Door
Table 196: EN15804+A2 Core Environmental Impact Indicators
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.1.14E+021.57E-021.06E-016.47E-023.50E+00-3.58E+01
kgCO₂eq.1.16E+021.55E-021.06E-016.33E-023.85E-01-3.58E+01
kgCO₂eq.-1.73E+001.27E-041.43E-054.73E-043.12E+00-3.72E-02
kgCO₂eq.8.69E-024.06E-072.79E-069.49E-041.51E-03-2.61E-03
ODPkgCFC-11eq.3.67E-101.55E-151.07E-141.96E-138.97E-13-4.43E-11
AP MoleofH⁺eq.7.42E-018.09E-052.70E-043.06E-042.23E-03-2.42E-01
EP-freshwater kg P eq. 1.75E-042.38E-091.63E-081.77E-071.17E-05-9.99E-06
EP-marine kg N eq. 1.51E-013.94E-051.20E-041.42E-046.18E-04-2.36E-02
EP-terrestrial Mole of N eq. 1.66E+004.32E-041.32E-031.57E-036.62E-03-2.59E-01
POCPkgNMVOCeq.4.12E-011.11E-042.88E-043.91E-042.08E-03-7.79E-02
ADP-minerals & metalskg Sb eq. 2.94E-042.03E-101.40E-096.98E-082.14E-08-1.95E-04
ADP-fossil MJ1.44E+032.04E-011.41E+001.14E+005.30E+00-3.24E+02
WDP m³ world equiv. 2.47E+015.82E-054.00E-041.06E-022.83E-02-1.34E+01
Table 197: EN15804+A2 Additional Environmental Impact Indicators
Indicator Unit
GWP-GHGkgCO₂eq.1.17E+021.55E-021.06E-016.47E-023.33E+00-3.58E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.17E+021.55E-021.06E-016.38E-021.16E+00-3.53E+01
PM Disease incidences
9.55E-061.02E-092.74E-096.02E-092.44E-08-3.23E-06
IRP kBqU235eq.1.25E+004.27E-062.94E-059.39E-045.22E-03-2.19E-01
ETP-fw CTUe7.86E+029.12E-026.27E-018.82E-013.43E+00-1.52E+02
HTP-cCTUh3.19E-071.50E-121.03E-111.91E-117.12E-11-5.70E-07
HTP-ncCTUh8.37E-073.31E-112.26E-106.71E-103.61E-09-3.21E-07
SQP Pt 1.08E+034.16E-042.86E-034.88E-019.79E-01-8.22E+00
Table 198: Use of resources
MJ6.87E+028.83E-046.08E-031.59E-018.49E-01-4.54E+02
PERM MJ9.14E+0100000
Table 200: Waste production and output flows
kg 4.59E+015.01E-063.45E-053.41E-041.58E+01-2.28E+01
kg 1.23E-0200000
Table 201: Biogenic carbon content
Table 202: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.13E+021.55E-021.05E-016.26E-021.25E+00-3.56E+01
ODP(A1)kgCFC-11eq.3.71E-101.82E-151.25E-142.31E-131.06E-12-5.22E-11
AP(A1)kgSO2eq.6.05E-015.61E-051.91E-042.14E-041.76E-03-2.11E-01
EP(A1)kgPO₄³¯eq.5.41E-021.32E-054.05E-054.99E-053.62E-04-8.06E-03
POCP(A1) kg Ethene eq. 1.71E-025.84E-06-2.61E-052.86E-053.02E-04-1.11E-02
ADPE(A1) kg Sb eq. 2.94E-042.04E-101.40E-096.97E-082.16E-08-1.95E-04
ADPF(A1)MJ1.39E+032.03E-011.40E+001.10E+005.12E+00-3.16E+02
Residential Series ThermalHeart+® Sliding Door
Table 203: EN15804+A2 Core Environmental Impact Indicators
GWP-total kgCO₂eq.1.34E+021.83E-021.24E-017.56E-023.63E+00-4.18E+01
GWP-fossil kgCO₂eq.1.35E+021.81E-021.24E-017.40E-024.27E-01-4.17E+01
GWP-biogenic kgCO₂eq.-1.65E+001.49E-041.66E-055.53E-043.20E+00-4.38E-02
GWP-luluc
kgCO₂eq.1.02E-014.74E-073.26E-061.11E-031.76E-03-2.86E-03
ODPkgCFC-11eq.4.27E-101.81E-151.24E-142.29E-131.00E-12-5.06E-11
AP MoleofH⁺eq.8.70E-019.45E-053.15E-043.58E-042.52E-03-2.83E-01
EP-freshwater kg P eq. 1.77E-042.77E-091.91E-082.07E-078.78E-06-1.08E-05
EP-marine kg N eq. 1.77E-014.60E-051.40E-041.66E-046.96E-04-2.75E-02
EP-terrestrial Mole of N eq. 1.95E+005.04E-041.54E-031.84E-037.48E-03-3.02E-01
POCPkgNMVOCeq.4.83E-011.30E-043.37E-044.57E-042.32E-03-9.07E-02
ADP-minerals & metalskg Sb eq. 2.10E-042.38E-101.64E-098.15E-082.40E-08-1.04E-04
ADP-fossil MJ1.66E+032.39E-011.64E+001.33E+005.84E+00-3.76E+02
WDP m³ world equiv. 2.83E+016.79E-054.68E-041.24E-023.27E-02-1.56E+01
Table 204: EN15804+A2 Additional Environmental Impact Indicators
GWP-GHGkgCO₂eq.1.37E+021.81E-021.24E-017.56E-023.45E+00-4.18E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.36E+021.81E-021.24E-017.45E-021.23E+00-4.11E+01
PM Disease incidences 1.11E-051.20E-093.20E-097.03E-092.80E-08-3.77E-06
IRP kBqU235eq.1.45E+004.99E-063.43E-051.10E-035.77E-03-2.37E-01
ETP-fw CTUe9.37E+021.06E-017.33E-011.03E+003.60E+00-1.77E+02
HTP-cCTUh3.12E-071.75E-121.21E-112.23E-117.67E-11-3.08E-07
HTP-ncCTUh9.74E-073.87E-112.64E-107.84E-103.91E-09-3.74E-07
Table 206: Use of resources
MJ9.10E+021.03E-037.10E-031.86E-019.44E-01-5.33E+02 PENRE MJ1.63E+032.39E-011.64E+001.33E+005.84E+00-3.76E+02
PENRM MJ3.47E+0100000
PENRT MJ1.66E+032.39E-011.64E+001.33E+005.84E+00-3.76E+02
Table 207: Waste production and output flows
HWD kg 7.05E-053.84E-122.64E-112.82E-101.26E-099.62E-08
NHWD kg 5.38E+015.85E-064.03E-053.98E-041.85E+01-2.68E+01
RWD kg 9.76E-034.65E-083.20E-071.04E-055.03E-05-1.50E-03
CRU kg 1.44E-0200000 MFR kg 5.90E+00008.26E+0000 MER kg 000000
Table 208: Biogenic carbon content
Table 209: EN15804+A1 Environmental Impact Indicators
GWP(A1)kgCO₂eq.1.32E+021.81E-021.23E-017.32E-021.31E+00-4.15E+01
ODP(A1)kgCFC-11eq.4.32E-102.13E-151.46E-142.69E-131.18E-12-5.96E-11
AP(A1)kgSO2eq.7.08E-016.55E-052.23E-042.49E-041.99E-03-2.47E-01
EP(A1)kgPO₄³¯eq.6.36E-021.54E-054.73E-055.83E-053.57E-04-9.38E-03
POCP(A1) kg Ethene eq. 1.87E-026.82E-06-3.05E-053.34E-053.26E-04-1.29E-02
ADPE(A1) kg Sb eq. 2.10E-042.38E-101.64E-098.15E-082.43E-08-1.04E-04
ADPF(A1)MJ1.61E+032.37E-011.63E+001.29E+005.65E+00-3.68E+02
Residential Series ThermalHeart+® Sliding Window
Table 210: EN15804+A2 Core Environmental Impact Indicators
GWP-total
GWP-fossil
GWP-biogenic
GWP-luluc
kgCO₂eq.1.42E+021.88E-021.28E-017.79E-024.10E+00-4.57E+01
kgCO₂eq.1.44E+021.87E-021.28E-017.62E-024.46E-01-4.57E+01
kgCO₂eq.-2.00E+001.53E-041.71E-055.69E-043.65E+00-4.64E-02
kgCO₂eq.1.07E-014.88E-073.36E-061.14E-031.75E-03-3.63E-03
ODPkgCFC-11eq.4.51E-101.86E-151.28E-142.36E-131.03E-12-5.71E-11
AP MoleofH⁺eq.9.18E-019.73E-053.25E-043.68E-042.58E-03-3.07E-01
EP-freshwater kg P eq. 1.86E-042.86E-091.97E-082.13E-079.23E-06-1.38E-05
EP-marine kg N eq. 1.85E-014.74E-051.44E-041.71E-047.18E-04-3.01E-02
EP-terrestrial Mole of N eq. 2.03E+005.19E-041.58E-031.89E-037.70E-03-3.30E-01
POCPkgNMVOCeq.5.08E-011.34E-043.47E-044.71E-042.41E-03-9.94E-02
ADP-minerals & metalskg Sb eq. 5.73E-042.45E-101.68E-098.39E-082.47E-08-4.00E-04
ADP-fossil MJ1.76E+032.46E-011.69E+001.37E+006.11E+00-4.14E+02
WDP m³ world equiv. 3.07E+017.00E-054.81E-041.27E-023.24E-02-1.69E+01
Table 211: EN15804+A2 Additional Environmental Impact Indicators
Indicator
GWP-GHGkgCO₂eq.1.45E+021.87E-021.28E-017.79E-023.90E+00-4.57E+01
GWP-GHG(IPCCAR5)kgCO₂eq.1.44E+021.87E-021.28E-017.67E-021.36E+00-4.50E+01
PM Disease incidences
1.19E-051.23E-093.30E-097.24E-092.83E-08-4.09E-06
IRP kBqU235eq.1.59E+005.14E-063.54E-051.13E-035.89E-03-3.00E-01
ETP-fw CTUe9.58E+021.10E-017.54E-011.06E+003.76E+00-1.94E+02
HTP-cCTUh6.41E-071.80E-121.24E-112.30E-117.96E-11-1.17E-06
HTP-ncCTUh1.06E-063.98E-112.72E-108.07E-104.16E-09-4.06E-07
SQP Pt 1.29E+035.00E-043.44E-035.86E-011.13E+00-1.06E+01
Table 213: Use of resources
PERE
MJ8.66E+021.06E-037.31E-031.92E-019.80E-01-5.73E+02
PERM MJ1.09E+0200000
PERT MJ9.76E+021.06E-037.31E-031.92E-019.80E-01-5.73E+02
PENRE MJ1.72E+032.46E-011.69E+001.37E+006.11E+00-4.14E+02
PENRM MJ3.62E+0100000
PENRT
Table 214: Waste production and output flows
HWD kg 7.61E-053.95E-122.72E-112.90E-101.30E-099.88E-08
NHWD kg 5.76E+016.03E-064.15E-054.10E-041.83E+01-2.88E+01 RWD kg 1.10E-024.79E-083.30E-071.07E-055.14E-05-2.05E-03 CRU kg 1.55E-0200000
MFR kg 5.72E+00009.19E+0000 MER kg 000000 EEE MJ00002.75E-010
EET MJ000000
Table 215: Biogenic carbon content
Table 216: EN15804+A1 Environmental Impact Indicators
Indicator
GWP(A1)kgCO₂eq.1.40E+021.86E-021.27E-017.53E-021.46E+00-4.54E+01
ODP(A1)kgCFC-11eq.4.58E-102.19E-151.51E-142.77E-131.21E-12-6.73E-11
AP(A1)kgSO2eq.7.48E-016.75E-052.30E-042.57E-042.03E-03-2.67E-01
EP(A1)kgPO₄³¯eq.6.63E-021.59E-054.87E-056.00E-053.73E-04-1.03E-02
POCP(A1) kg Ethene eq. 2.24E-027.02E-06-3.14E-053.43E-053.52E-04-1.43E-02
ADPE(A1) kg Sb eq. 5.73E-042.45E-101.69E-098.39E-082.50E-08-4.00E-04
ADPF(A1)MJ1.71E+032.44E-011.68E+001.32E+005.91E+00-4.04E+02
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