NS 3451 | 222-søyler, 223-bjelker |
TFM komponentkoder | AB-bjelke, AF-fagverk, AR-ramme/oppheng, As-søyle |
GWP Stage A1-A3 | -723 kg CO2-Eq. |
GWP Stage A4 | 13,7 kg CO2-Eq. |
GWP Stage A5 | 7,81 kg CO2-Eq. |
GWP Stage C1 | 0,00881 kg CO2-Eq. |
GWP Stage C2 | 5,43 kg CO2-Eq. |
GWP Stage C3 | 804 kg CO2-Eq. |
GWP Stage C4 | 0,04 kg CO2-Eq. |
GWP Stage D | -34 kg CO2-Eq. |
depletion potential of the stratospheric ozone layer for A1-A3 | 0,0000137 kg CFC11-Eq. |
depletion potential of the stratospheric ozone layer for A4 | 0,00000276 kg CFC11-Eq. |
depletion potential of the stratospheric ozone layer for A5 | 0,000000947 kg CFC11-Eq. |
depletion potential of the stratospheric ozone layer for C1 | 0,000000000824 kg CFC11-Eq. |
depletion potential of the stratospheric ozone layer for C2 | 0,00000102 kg CFC11-Eq. |
depletion potential of the stratospheric ozone layer for C3 | 0,000000517 kg CFC11-Eq. |
depletion potential of the stratospheric ozone layer for C4 | 0,0000000156 kg CFC11-Eq. |
depletion potential of the stratospheric ozone layer for D | -0,00000377 kg CFC11-Eq. |
tropospheric ozone concentration increase for A1-A3 | 0,0265 kg C2H2 -ekv |
tropospheric ozone concentration increase for A4 | 0,00215 kg C2H2 -ekv |
tropospheric ozone concentration increase for A5 | 0,00167 kg C2H2 -ekv |
tropospheric ozone concentration increase for C1 | 0,00000182 kg C2H2 -ekv |
tropospheric ozone concentration increase for C2 | 0,000892 kg C2H2 -ekv |
tropospheric ozone concentration increase for C3 | 0,00213 kg C2H2 -ekv |
tropospheric ozone concentration increase for C4 | 0,0000119 kg C2H2 -ekv |
tropospheric ozone concentration increase for D | -0,0185 kg C2H2 -ekv |
acidification potential, accumulated exceedance for A1-A3 | 0,373 kg SO2 -ekv |
acidification potential, accumulated exceedance for A4 | 0,0369 kg SO2 -ekv |
acidification potential, accumulated exceedance for A5 | 0,0258 kg SO2 -ekv |
acidification potential, accumulated exceedance for C1 | 0,0000397 kg SO2 -ekv |
acidification potential, accumulated exceedance for C2 | 0,0177 kg SO2 -ekv |
acidification potential, accumulated exceedance for C3 | 0,0608 kg SO2 -ekv |
acidification potential, accumulated exceedance for C4 | 0,000272 kg SO2 -ekv |
acidification potential, accumulated exceedance for D | -0,188 kg SO2 -ekv |
eutrophication potential, accumulated exceedance for A1-A3 | 0,0897 kg (PO4)-3 -ekv |
eutrophication potential, accumulated exceedance for A4 | 0,00741 kg (PO4)-3 -ekv |
eutrophication potential, accumulated exceedance for A5 | 0,00637 kg (PO4)-3 -ekv |
eutrophication potential, accumulated exceedance for C1 | 0,00000993 kg (PO4)-3 -ekv |
eutrophication potential, accumulated exceedance for C2 | 0,00292 kg (PO4)-3 -ekv |
eutrophication potential, accumulated exceedance for C3 | 0,0208 kg (PO4)-3 -ekv |
eutrophication potential, accumulated exceedance for C4 | 0,0000492 kg (PO4)-3 -ekv |
eutrophication potential, accumulated exceedance for D | -0,0502 kg (PO4)-3 -ekv |
abiotic depletion potential for non-fossil resources - minerals and metals for A1-A3 | 0,000469 kg Sb-ekv |
abiotic depletion potential for non-fossil resources - minerals and metals for A4 | 0,0000336 kg Sb-ekv |
abiotic depletion potential for non-fossil resources - minerals and metals for A5 | 0,0000279 kg Sb-ekv |
abiotic depletion potential for non-fossil resources - minerals and metals for C1 | 0,000000138 kg Sb-ekv |
abiotic depletion potential for non-fossil resources - minerals and metals for C2 | 0,000015 kg Sb-ekv |
abiotic depletion potential for non-fossil resources - minerals and metals for C3 | 0,00000946 kg Sb-ekv |
abiotic depletion potential for non-fossil resources - minerals and metals for C4 | 0,0000000557 kg Sb-ekv |
abiotic depletion potential for non-fossil resources - minerals and metals for D | -0,000139 kg Sb-ekv |
abiotic depletion potential for fossil resources for A1-A3 | 1130 MJ |
abiotic depletion potential for fossil resources for A4 | 224 MJ |
abiotic depletion potential for fossil resources for A5 | 79 MJ |
abiotic depletion potential for fossil resources for C1 | 0,0933 MJ |
abiotic depletion potential for fossil resources for C2 | 88,8 MJ |
abiotic depletion potential for fossil resources for C3 | 58,1 MJ |
abiotic depletion potential for fossil resources for C4 | 1,51 MJ |
abiotic depletion potential for fossil resources for D | -456 MJ |
renewable primary resources used as an energy carrier (fuel) for A1-A3 | 2400 MJ |
renewable primary resources used as an energy carrier (fuel) for A4 | 3,72 MJ |
renewable primary resources used as an energy carrier (fuel) for A5 | 567 MJ |
renewable primary resources used as an energy carrier (fuel) for C1 | 1,13 MJ |
renewable primary resources used as an energy carrier (fuel) for C2 | 0,909 MJ |
renewable primary resources used as an energy carrier (fuel) for C3 | 8350 MJ |
renewable primary resources used as an energy carrier (fuel) for C4 | 0,0236 MJ |
renewable primary resources used as an energy carrier (fuel) for D | -2940 MJ |
renewable primary resources with energy content used as material for A1-A3 | 6680 MJ |
renewable primary resources with energy content used as material for A4 | 0 MJ |
renewable primary resources with energy content used as material for A5 | -87,8 MJ |
renewable primary resources with energy content used as material for C1 | 0 MJ |
renewable primary resources with energy content used as material for C2 | 0 MJ |
renewable primary resources with energy content used as material for C3 | -8350 MJ |
renewable primary resources with energy content used as material for C4 | 0 MJ |
renewable primary resources with energy content used as material for D | 0 MJ |
non-renewable primary resources used as an energy carrier (fuel) for A1-A3 | 1370 MJ |
non-renewable primary resources used as an energy carrier (fuel) for A4 | 230 MJ |
non-renewable primary resources used as an energy carrier (fuel) for A5 | 92,2 MJ |
non-renewable primary resources used as an energy carrier (fuel) for C1 | 0,158 MJ |
non-renewable primary resources used as an energy carrier (fuel) for C2 | 90,2 MJ |
non-renewable primary resources used as an energy carrier (fuel) for C3 | 60,5 MJ |
non-renewable primary resources used as an energy carrier (fuel) for C4 | 1,55 MJ |
non-renewable primary resources used as an energy carrier (fuel) for D | -560 MJ |
non-renewable primary resources with energy content used as material for A1-A3 | 33 MJ |
non-renewable primary resources with energy content used as material for A4 | 0 MJ |
non-renewable primary resources with energy content used as material for A5 | 1,74 MJ |
non-renewable primary resources with energy content used as material for C1 | 0 MJ |
non-renewable primary resources with energy content used as material for C2 | 0 MJ |
non-renewable primary resources with energy content used as material for C3 | 0 MJ |
non-renewable primary resources with energy content used as material for C4 | 0 MJ |
non-renewable primary resources with energy content used as material for D | 0 MJ |
secondary materials for A1-A3 | 0,289 MJ |
secondary materials for A4 | 0 MJ |
secondary materials for A5 | 0,0152 MJ |
secondary materials for C1 | 0 MJ |
secondary materials for C2 | 0 MJ |
secondary materials for C3 | 0 MJ |
secondary materials for C4 | 0 MJ |
secondary materials for D | 0 MJ |
renewable secondary fuels for A1-A3 | 0,000000527 MJ |
renewable secondary fuels for A4 | 0 MJ |
renewable secondary fuels for A5 | 0,0000000278 MJ |
renewable secondary fuels for C1 | 0 MJ |
renewable secondary fuels for C2 | 0 MJ |
renewable secondary fuels for C3 | 0 MJ |
renewable secondary fuels for C4 | 0 MJ |
renewable secondary fuels for D | -2120 MJ |
non-renewable secondary fuels for A1-A3 | 0,000000352 MJ |
non-renewable secondary fuels for A4 | 0 MJ |
non-renewable secondary fuels for A5 | 0,0000000185 MJ |
non-renewable secondary fuels for C1 | 0 MJ |
non-renewable secondary fuels for C2 | 0 MJ |
non-renewable secondary fuels for C3 | 0 MJ |
non-renewable secondary fuels for C4 | 0 MJ |
non-renewable secondary fuels for D | -1410 MJ |
net use of freshwater for A1-A3 | 2,78 m3 |
net use of freshwater for A4 | 0,051 m3 |
net use of freshwater for A5 | 0,165 m3 |
net use of freshwater for C1 | 0,00841 m3 |
net use of freshwater for C2 | 0,0147 m3 |
net use of freshwater for C3 | 0,108 m3 |
net use of freshwater for C4 | 0,00184 m3 |
net use of freshwater for D | -11,8 m3 |
hazardous waste disposed for A1-A3 | 0,338 kg |
hazardous waste disposed for A4 | 0,00299 kg |
hazardous waste disposed for A5 | 0,313 kg |
hazardous waste disposed for C1 | 0,0000562 kg |
hazardous waste disposed for C2 | 0,00626 kg |
hazardous waste disposed for C3 | 0,0475 kg |
hazardous waste disposed for C4 | 5,56 kg |
hazardous waste disposed for D | -0,227 kg |
non-hazardous waste disposed for A1-A3 | 55,5 kg |
non-hazardous waste disposed for A4 | 19,1 kg |
non-hazardous waste disposed for A5 | 4,32 kg |
non-hazardous waste disposed for C1 | 0,00673 kg |
non-hazardous waste disposed for C2 | 5,35 kg |
non-hazardous waste disposed for C3 | 1,24 kg |
non-hazardous waste disposed for C4 | 0,693 kg |
non-hazardous waste disposed for D | -11,5 kg |
total radioactive waste disposed (mass) for A1-A3 | 0,00989 kg |
total radioactive waste disposed (mass) for A4 | 0,00159 kg |
total radioactive waste disposed (mass) for A5 | 0,000644 kg |
total radioactive waste disposed (mass) for C1 | 0,00000111 kg |
total radioactive waste disposed (mass) for C2 | 0,000574 kg |
total radioactive waste disposed (mass) for C3 | 0,000148 kg |
total radioactive waste disposed (mass) for C4 | 0,00000901 kg |
total radioactive waste disposed (mass) for D | -0,00251 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 C1 | 0 kg |
components for re-use for C2 | 0 kg |
components for re-use for C3 | 0 kg |
components for re-use for C4 | 0 kg |
components for re-use for D | 0 kg |
materials for recycling for A1-A3 | 0,342 kg |
materials for recycling for A4 | 0 kg |
materials for recycling for A5 | 0,783 kg |
materials for recycling for C1 | 0 kg |
materials for recycling for C2 | 0 kg |
materials for recycling for C3 | 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 | 1,72 kg |
materials for energy recovery for C1 | 0 kg |
materials for energy recovery for C2 | 0 kg |
materials for energy recovery for C3 | 0 kg |
materials for energy recovery for C4 | 0 kg |
materials for energy recovery for D | 0 kg |
exported electrical energy for A1-A3 | 0,507 MJ |
exported electrical energy for A4 | 0 MJ |
exported electrical energy for A5 | 36,8 MJ |
exported electrical energy for C1 | 0 MJ |
exported electrical energy for C2 | 0 MJ |
exported electrical energy for C3 | 699 MJ |
exported electrical energy for C4 | 0 MJ |
exported electrical energy for D | -699 MJ |
exported thermal energy for A1-A3 | 5,06 MJ |
exported thermal energy for A4 | 0 MJ |
exported thermal energy for A5 | 253 MJ |
exported thermal energy for C1 | 0 MJ |
exported thermal energy for C2 | 0 MJ |
exported thermal energy for C3 | 4810 MJ |
exported thermal energy for C4 | 0 MJ |
exported thermal energy for D | -4810 MJ |
reference quantity (volume) | 1 cubic metre |
reference service life | 60 year |
species | Northern Europe, WPPA, Whitewood (Norway Spruce), Picea abies |
biological durability | holdbarhetsklasse 4 |
reaction to fire | D-s2,d0 |
width | 198 millimeter |
thickness | 48 millimeter |
strength class | C24 |