NS 3451 | 232-ikke bærende yttervegger, 231-bærende yttervegger |
TFM komponentkoder | BB-beskyttende/stoppende |
GWP Stage A1-A3 | 0,331 kg CO2-Eq. |
GWP Stage A4 | 0,00712 kg CO2-Eq. |
GWP Stage A5 | 0,00185 kg CO2-Eq. |
GWP Stage C4 | 0,216 kg CO2-Eq. |
GWP Stage D | -0,114 kg CO2-Eq. |
global warming potential - fossil fuels for A1-A3 | 0,331 kg CO2-Eq. |
global warming potential - fossil fuels for A4 | 0,00697 kg CO2-Eq. |
global warming potential - fossil fuels for A5 | 0,00015 kg CO2-Eq. |
global warming potential - fossil fuels for C4 | 0,216 kg CO2-Eq. |
global warming potential - fossil fuels for D | -0,114 kg CO2-Eq. |
global warming potential - biogenic for A1-A3 | 0,00036 kg CO2-Eq. |
global warming potential - biogenic for A4 | 0,0000974 kg CO2-Eq. |
global warming potential - biogenic for A5 | 0,0017 kg CO2-Eq. |
global warming potential - biogenic for C4 | 0,00000718 kg CO2-Eq. |
global warming potential - biogenic for D | -0,000535 kg CO2-Eq. |
global warming potential - land use and land use change for A1-A3 | 0,00025 kg CO2-Eq. |
global warming potential - land use and land use change for A4 | 0,0000473 kg CO2-Eq. |
global warming potential - land use and land use change for A5 | 0,0000000491 kg CO2-Eq. |
global warming potential - land use and land use change for C4 | 0,00000116 kg CO2-Eq. |
global warming potential - land use and land use change for D | -0,0000718 kg CO2-Eq. |
depletion potential of the stratospheric ozone layer for A1-A3 | 0,00000000000418 kg CFC11-Eq. |
depletion potential of the stratospheric ozone layer for A4 | 5,62E-18 kg CFC11-Eq. |
depletion potential of the stratospheric ozone layer for A5 | 2,39E-19 kg CFC11-Eq. |
depletion potential of the stratospheric ozone layer for C4 | 1,62E-17 kg CFC11-Eq. |
depletion potential of the stratospheric ozone layer for D | -0,00000000000000118 kg CFC11-Eq. |
acidification potential, accumulated exceedance for A1-A3 | 0,00128 mol H+ -Eq. |
acidification potential, accumulated exceedance for A4 | 0,0000777 mol H+ -Eq. |
acidification potential, accumulated exceedance for A5 | 0,000000389 mol H+ -Eq. |
acidification potential, accumulated exceedance for C4 | 0,0000215 mol H+ -Eq. |
acidification potential, accumulated exceedance for D | -0,000141 mol H+ -Eq. |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for A1-A3 | 0,000000512 kg P-Eq. |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for A4 | 0,0000000178 kg P-Eq. |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for A5 | 0,00000000368 kg P-Eq. |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for C4 | 0,00000000216 kg P-Eq. |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for D | -0,000000136 kg P-Eq. |
eutrophication potential, fraction of nutrients reaching marine end compartment for A1-A3 | 0,000205 kg N-Eq. |
eutrophication potential, fraction of nutrients reaching marine end compartment for A4 | 0,0000282 kg N-Eq. |
eutrophication potential, fraction of nutrients reaching marine end compartment for A5 | 0,00000017 kg N-Eq. |
eutrophication potential, fraction of nutrients reaching marine end compartment for C4 | 0,00000452 kg N-Eq. |
eutrophication potential, fraction of nutrients reaching marine end compartment for D | -0,000041 kg N-Eq. |
eutrophication potential, accumulated exceedance for A1-A3 | 0,00221 mol N-Eq. |
eutrophication potential, accumulated exceedance for A4 | 0,000311 mol N-Eq. |
eutrophication potential, accumulated exceedance for A5 | 0,00000158 mol N-Eq. |
eutrophication potential, accumulated exceedance for C4 | 0,000101 mol N-Eq. |
eutrophication potential, accumulated exceedance for D | -0,00044 mol N-Eq. |
tropospheric ozone concentration increase for A1-A3 | 0,000725 kg NMVOC-Eq. |
tropospheric ozone concentration increase for A4 | 0,0000638 kg NMVOC-Eq. |
tropospheric ozone concentration increase for A5 | 0,000000685 kg NMVOC-Eq. |
tropospheric ozone concentration increase for C4 | 0,0000135 kg NMVOC-Eq. |
tropospheric ozone concentration increase for D | -0,000116 kg NMVOC-Eq. |
abiotic depletion potential for non-fossil resources - minerals and metals for A1-A3 | 0,0000000506 kg Sb-ekv |
abiotic depletion potential for non-fossil resources - minerals and metals for A4 | 0,000000000531 kg Sb-ekv |
abiotic depletion potential for non-fossil resources - minerals and metals for A5 | 0,00000000000504 kg Sb-ekv |
abiotic depletion potential for non-fossil resources - minerals and metals for C4 | 0,000000000245 kg Sb-ekv |
abiotic depletion potential for non-fossil resources - minerals and metals for D | -0,0000000177 kg Sb-ekv |
abiotic depletion potential for fossil resources for A1-A3 | 8,28 MJ |
abiotic depletion potential for fossil resources for A4 | 0,0942 MJ |
abiotic depletion potential for fossil resources for A5 | 0,000854 MJ |
abiotic depletion potential for fossil resources for C4 | 0,0264 MJ |
abiotic depletion potential for fossil resources for D | -1,97 MJ |
water (user) deprivation potential, deprivation-weighted water consumption for A1-A3 | 0,03 m³ world-Eq deprived |
water (user) deprivation potential, deprivation-weighted water consumption for A4 | 0,0000836 m³ world-Eq deprived |
water (user) deprivation potential, deprivation-weighted water consumption for A5 | 0,0000861 m³ world-Eq deprived |
water (user) deprivation potential, deprivation-weighted water consumption for C4 | 0,0199 m³ world-Eq deprived |
water (user) deprivation potential, deprivation-weighted water consumption for D | -0,0078 m³ world-Eq deprived |
renewable primary resources used as an energy carrier (fuel) for A1-A3 | 0,738 MJ |
renewable primary resources used as an energy carrier (fuel) for A4 | 0,00595 MJ |
renewable primary resources used as an energy carrier (fuel) for A5 | 0,0000875 MJ |
renewable primary resources used as an energy carrier (fuel) for C4 | 0,00522 MJ |
renewable primary resources used as an energy carrier (fuel) for D | -0,404 MJ |
renewable primary resources with energy content used as material for A1-A3 | 0,000339 MJ |
renewable primary resources with energy content used as material for A4 | -0,0000000000000111 MJ |
renewable primary resources with energy content used as material for A5 | -0,000000000000000122 MJ |
renewable primary resources with energy content used as material for C4 | 0,0000000000000217 MJ |
renewable primary resources with energy content used as material for D | -0,000000000000815 MJ |
non-renewable primary resources used as an energy carrier (fuel) for A1-A3 | 8,28 MJ |
non-renewable primary resources used as an energy carrier (fuel) for A4 | 0,0943 MJ |
non-renewable primary resources used as an energy carrier (fuel) for A5 | 0,000854 MJ |
non-renewable primary resources used as an energy carrier (fuel) for C4 | 0,0264 MJ |
non-renewable primary resources used as an energy carrier (fuel) for D | -1,97 MJ |
non-renewable primary resources with energy content used as material for A1-A3 | 0,000182 MJ |
non-renewable primary resources with energy content used as material for A4 | 0,00000303 MJ |
non-renewable primary resources with energy content used as material for A5 | 0,0000000167 MJ |
non-renewable primary resources with energy content used as material for C4 | 0,000000933 MJ |
non-renewable primary resources with energy content used as material for D | -0,0000638 MJ |
secondary materials for A1-A3 | 0,00362 MJ |
secondary materials for A4 | 0 MJ |
secondary materials for A5 | 0 MJ |
secondary materials for C4 | 0 MJ |
secondary materials for D | 0 MJ |
renewable secondary fuels for A1-A3 | 0,0000000565 MJ |
renewable secondary fuels for A4 | 0 MJ |
renewable secondary fuels for A5 | 0 MJ |
renewable secondary fuels for C4 | 0 MJ |
renewable secondary fuels for D | 0 MJ |
non-renewable secondary fuels for A1-A3 | 0,000000623 MJ |
non-renewable secondary fuels for A4 | 0 MJ |
non-renewable secondary fuels for A5 | 0 MJ |
non-renewable secondary fuels for C4 | 0 MJ |
non-renewable secondary fuels for D | 0 MJ |
net use of freshwater for A1-A3 | 0,00416 m3 |
net use of freshwater for A4 | 0,00000655 m3 |
net use of freshwater for A5 | 0,00000205 m3 |
net use of freshwater for C4 | 0,000466 m3 |
net use of freshwater for D | -0,000393 m3 |
hazardous waste disposed for A1-A3 | 0,00000000177 kg |
hazardous waste disposed for A4 | 0,0000000000049 kg |
hazardous waste disposed for A5 | 0,000000000000154 kg |
hazardous waste disposed for C4 | 0,00000000000471 kg |
hazardous waste disposed for D | -0,000000000436 kg |
non-hazardous waste disposed for A1-A3 | 0,00323 kg |
non-hazardous waste disposed for A4 | 0,0000153 kg |
non-hazardous waste disposed for A5 | 0,000446 kg |
non-hazardous waste disposed for C4 | 0,000857 kg |
non-hazardous waste disposed for D | -0,000863 kg |
total radioactive waste disposed (mass) for A1-A3 | 0,000143 kg |
total radioactive waste disposed (mass) for A4 | 0,000000636 kg |
total radioactive waste disposed (mass) for A5 | 0,0000000179 kg |
total radioactive waste disposed (mass) for C4 | 0,0000015 kg |
total radioactive waste disposed (mass) for D | -0,000129 kg |
components for re-use for A1-A3 | 0 kg |
components for re-use for A4 | 0 kg |
components for re-use for A5 | 0 kg |
components for re-use for C4 | 0 kg |
components for re-use for D | 0 kg |
materials for recycling for A1-A3 | 0 kg |
materials for recycling for A4 | 0 kg |
materials for recycling for A5 | 0 kg |
materials for recycling for C4 | 0 kg |
materials for recycling for D | 0 kg |
materials for energy recovery for A1-A3 | 0 kg |
materials for energy recovery for A4 | 0 kg |
materials for energy recovery for A5 | 0 kg |
materials for energy recovery for C4 | 0 kg |
materials for energy recovery for D | 0 kg |
exported electrical energy for A1-A3 | 0 MJ |
exported electrical energy for A4 | 0 MJ |
exported electrical energy for A5 | 0,00146 MJ |
exported electrical energy for C4 | 0,461 MJ |
exported electrical energy for D | 0 MJ |
exported thermal energy for A1-A3 | 0 MJ |
exported thermal energy for A4 | 0 MJ |
exported thermal energy for A5 | 0,00208 MJ |
exported thermal energy for C4 | 0,82 MJ |
exported thermal energy for D | 0 MJ |
reference unit type | declared unit |
reference quantity (area) | 1 square metre |
reference service life | 30 year |
nominal length | 50 meter |
nominal width | 1.3 meter |
elongation strain | ≥ 9 ≤ 13 prosent |
impact force withstand according to EN 61439-5 | ≥ 0.005 ≤ 0.038 kvadratmeter sekund paskal per kilo |
force of tear resistance | 80 newton |
watertightness | EN 1928 (A) - W1 |
reaction to fire | E |
depth of water vapour permeability | 0.021 meter |
flexibility at low temperature | -40 grad Celsius |
net weight | 0.069 kilogram |
tensile pressure | ≥ 170 ≤ 205 newton per femti millimeter |