This is the TEST environment for the Building Smart Data Dictionary (bSDD). It is intended exclusively for demonstrating and testing the platform's development. For all other purposes, like test uploading your draft content, please use the actual bSDD search page, management site and SwaggerHub API documentation. To better understand this process, refer to our guide on the lifecycle of the bSDD dictionary content. If you have any questions or need further assistance, feel free to contact us at: bsdd underscore support -at- buildingsmart dot org

EPD Indicators 1.0


Name

EPD Indicators

Version

1.0

Status

Active

Release date

2022-03-25

More info

https://www.lignum.ch/leistungen/projekte/buildingsmart-data-dictionary-bsdd/

DefaultLanguageCode

EN

QualityAssuranceProcedure

EN ISO 23386:2020

Classes

Code Name
05d3f292-abaa-4439-9088-c9e468d457d4 [ProductStage]
18a3ae0f-d88d-4e15-bc3c-4546ad291f5e Waste categories
21b802b6-39cc-4c05-9b40-ae12aecbda63 Biogenic carbon content at the factory gate
24d90064-10e5-44f6-b2ca-28bb2d5b078d [UseStage]
35718fd4-ce92-49b8-b7e1-aea961d8685a Lifecycle stage
3becc4a3-9d73-4162-a4f2-2a158d2582b2 Human health
40498421-e551-493d-bd32-8460d2870193 [ConstructionProcessStage]
4086ef94-a2e9-48fe-9dc2-8764b0162599 Land use related impacts
438c0bfd-706d-4879-83c3-5154b22677a5 Ozone Depletion
4c504c22-bd21-45a3-aa30-0b9c1dc11f17 Resource use
5cc30ddf-11fa-4f96-933c-f50161289379 Eutrophication
6a9d124d-1c59-491a-b11e-4c528e389e07 [BenefitsAndLoadsBeyondTheSystemBoundary]
6f11de80-0148-4ed4-a6db-281116a52e9d Inventory indicators describing resource use
719eb5fc-33f6-479a-a7ec-88a4581bc53e Global Warming Potential
72bd5cd0-3a8d-4242-af92-52e635673475 Scenarios
9f16072b-4cc4-4fbc-bde4-3196e5440929 Eco-toxicity
a6cd0e30-8572-401d-88de-807bdd5c209d Ozone Formation
b97fbf2a-1291-43f0-bc3b-c9427b89c7f9 Environmental information describing output flows
ba3a78d5-271f-40d2-9fab-d991747efc4e [EndOfLifeStage]
ccce5239-4bff-4d73-8657-fe0194b4e4d4 Resource depletion
cf8866c6-98cb-4c03-bf78-ded9f482a1bc Acidification

Properties

Code Name
0_9_Xepir9pfp1RHs65ct2 water (user) deprivation potential, deprivation-weighted water consumption
0_YKJPRh97F9sASKeTfeew materials for energy recovery
03W12BKavE8x6IWz_fOys0 secondary materials
0a6f27da-44c0-4b9c-8573-48d129275869 [REFURBISHMENT]
0bxI3NxmHBGhEnAKvHn0gJ eutrophication potential, accumulated exceedance
0d63SlVi5E2O5p1QvyrHnx components for re-use
0e87e5cc-e5ec-480f-9da2-2f840a45d96e Non-renewable primary resources with energy content, total
0fHDpX02rBe90OnECvCyZ9 eutrophication potential, fraction of nutrients reaching freshwater end compartment
0jIKukBtDF3BVectVvcKJz eutrophication potential, fraction of nutrients reaching marine end compartment
0LUvsLL_L17w6_kQbrwYH global warming potential - land use and land use change
0q8OlTYA9AMQ262TdhWLUy global warming potential - total
0R6QcQZJnBqO_cgaZRe09x depletion potential of the stratospheric ozone layer
0xzayR1W531O7oo3C0O4l reference service life according to ISO 15686-8
1a49ac4c-e84c-4d1b-8eba-87ea0740a945 Bulk density of the transported products
1cVHyaZyz2LwYsgcus0_K renewable primary resources used as an energy carrier (fuel)
1JWoKLmMX2K8umNurcyttd renewable primary resources with energy content used as material
1l3TyajTP5AAjWIWyoXlj8 global warming potential - biogenic
1lBQWFKGL7ywZZEch3DR9F exported electrical energy
1lWAq27H7lBwaQ0xslz3y net use of freshwater
1nz5be2fDO842DoqKSoPj biogenic carbon content packaging according to EN 15804
1qZcFiOH2iv4vfxwYrd0t potential comparative toxic unit for humans - non-cancer effects
1XetEifDj53uigNa3Ckaj potential soil quality index
1XWUA4IzTDIR9YpoQBqkWJ non-renewable primary resources with energy content used as material
20f6yvfDz3rwhYW1OIiQRv non-renewable secondary fuels
25LIgwWKLFHwoEBdGn4AmT high-level radioactive waste disposed according to ISO 21930:2017 (mass)
295adf82-17ac-46fd-92b6-b627ecb217de Primary resources with energy content, total
2a5urlyjDFdB2AnRAkxCBB hazardous waste disposed
2cKXEcnKH2Hx7gLXSdXX0 acidification potential, accumulated Exceedance
2KDnimpb10xv6PppooK8x4 tropospheric ozone concentration increase
2madygVA50I8lkpTzIuxd6 global warming potential - fossil fuels
2nF1CZFSvC5BByHwEyW0wX biogenic carbon content within bio-based products according to EN 15804
2uLicla5H9yvoo3J7xZwcv renewable secondary fuels
31822563-6337-46ea-91be-4918874e9b2e [RawMaterialSupply]
31d699d2-c609-4c4c-9a8d-2ada04d277f0 [OPERATIONAlLEnergy]
36048a32-1ede-4a6c-8f6f-6741a9860097 [DECONSTRUCTION]
39eDNkrvbBm9UwrEc6sS0C non-hazardous waste disposed
3b18f49c-7d39-49d0-80d5-920e81d0370a Volume utilization factor (factor: = 1 or <1 or ≥ 1 for compressed or packaged products)
3bvaqNevEO9_i8TAfi1v3 non-renewable primary resources used as an energy carrier (fuel)
3ec3z7wXHC89GyTPdk63MV materials for recycling
3eENUk7RLAZB0VprsH6p2Q abiotic depletion potential for non-fossil resources - minerals and metals
3EyDlg0wz3iAcUHVJ0bh0L exported thermal energy
3gHt8EnXf4iP2_NVmtSsAW abiotic depletion potential for fossil resources
3rAzcbM1H1ePo1H24TPVp potential comparative toxic unit for humans - cancer effects
3vX1lbDvr3Yezb4zYgqEFG potential incidence of disease due to PM emissions
3WIW9FykP708JtbC7Mg3n potential human exposure efficiency relative to U235
401c53e2-4ad6-4bd5-bab3-7ed8095bfe5c Distances
47840c9a-e636-4568-a1a0-f99d362394ae [PRODUCTIONTRANSPORT]
4e4f0cbf-d7ac-4f49-848d-205a7c06ad78 [Waste]
617a6e7c-94af-4946-b758-0246d3bb4536 Primary resources with energy content used as material
691c41f1-5298-4331-be85-9741fcb79970 [DisposalTotal]