Name
Version
1.0
Status
Active
Release date
2022-03-25
DefaultLanguageCode
EN
QualityAssuranceProcedure
EN ISO 23386:2020
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] |