NS 3451 | 234-vinduer, dører, porter |
TFM komponentkoder | DU-dør - utvendig |
GWP Stage A1-A3 | 153 kg CO2 -eq |
GWP Stage A4 | 5,2 kg CO2 -eq |
GWP Stage A5 | 6,5 kg CO2 -eq |
GWP Stage B2 | 94,7 kg CO2 -eq |
GWP Stage B4 | 0 kg CO2 -eq |
GWP Stage C1 | 0 kg CO2 -eq |
GWP Stage C2 | 0,707 kg CO2 -eq |
GWP Stage C3 | 59,8 kg CO2 -eq |
GWP Stage C4 | 0,775 kg CO2 -eq |
GWP Stage D | -9,52 kg CO2 -eq |
global warming potential - fossil fuels for A1-A3 | 202 kg CO2 -eq |
global warming potential - fossil fuels for A4 | 5,2 kg CO2 -eq |
global warming potential - fossil fuels for A5 | 0,0156 kg CO2 -eq |
global warming potential - fossil fuels for B2 | 93,5 kg CO2 -eq |
global warming potential - fossil fuels for B4 | 0 kg CO2 -eq |
global warming potential - fossil fuels for C1 | 0 kg CO2 -eq |
global warming potential - fossil fuels for C2 | 0,707 kg CO2 -eq |
global warming potential - fossil fuels for C3 | 14,7 kg CO2 -eq |
global warming potential - fossil fuels for C4 | 0,775 kg CO2 -eq |
global warming potential - fossil fuels for D | -9,31 kg CO2 -eq |
global warming potential - biogenic for A1-A3 | -49,2 kg CO2 -eq |
global warming potential - biogenic for A4 | 0,00221 kg CO2 -eq |
global warming potential - biogenic for A5 | 6,48 kg CO2 -eq |
global warming potential - biogenic for B2 | 0,69 kg CO2 -eq |
global warming potential - biogenic for B4 | 0 kg CO2 -eq |
global warming potential - biogenic for C1 | 0 kg CO2 -eq |
global warming potential - biogenic for C2 | 0,000303 kg CO2 -eq |
global warming potential - biogenic for C3 | 45,1 kg CO2 -eq |
global warming potential - biogenic for C4 | 0,00058 kg CO2 -eq |
global warming potential - biogenic for D | -0,0282 kg CO2 -eq |
global warming potential - land use and land use change for A1-A3 | 0,229 kg CO2 -eq |
global warming potential - land use and land use change for A4 | 0,00163 kg CO2 -eq |
global warming potential - land use and land use change for A5 | 0,00000274 kg CO2 -eq |
global warming potential - land use and land use change for B2 | 0,519 kg CO2 -eq |
global warming potential - land use and land use change for B4 | 0 kg CO2 -eq |
global warming potential - land use and land use change for C1 | 0 kg CO2 -eq |
global warming potential - land use and land use change for C2 | 0,00025 kg CO2 -eq |
global warming potential - land use and land use change for C3 | 0,00049 kg CO2 -eq |
global warming potential - land use and land use change for C4 | 0,000234 kg CO2 -eq |
global warming potential - land use and land use change for D | -0,187 kg CO2 -eq |
depletion potential of the stratospheric ozone layer for A1-A3 | 0,0000244 kg CFC11 -eq |
depletion potential of the stratospheric ozone layer for A4 | 0,00000124 kg CFC11 -eq |
depletion potential of the stratospheric ozone layer for A5 | 0,00000000182 kg CFC11 -eq |
depletion potential of the stratospheric ozone layer for B2 | 0,0000108 kg CFC11 -eq |
depletion potential of the stratospheric ozone layer for B4 | 0 kg CFC11 -eq |
depletion potential of the stratospheric ozone layer for C1 | 0 kg CFC11 -eq |
depletion potential of the stratospheric ozone layer for C2 | 0,000000161 kg CFC11 -eq |
depletion potential of the stratospheric ozone layer for C3 | 0,000000285 kg CFC11 -eq |
depletion potential of the stratospheric ozone layer for C4 | 0,000000239 kg CFC11 -eq |
depletion potential of the stratospheric ozone layer for D | -0,209 kg CFC11 -eq |
acidification potential, accumulated exceedance for A1-A3 | 1,6 mol H+ -eq |
acidification potential, accumulated exceedance for A4 | 0,0164 mol H+ -eq |
acidification potential, accumulated exceedance for A5 | 0,0000642 mol H+ -eq |
acidification potential, accumulated exceedance for B2 | 0,802 mol H+ -eq |
acidification potential, accumulated exceedance for B4 | 0 mol H+ -eq |
acidification potential, accumulated exceedance for C1 | 0 mol H+ -eq |
acidification potential, accumulated exceedance for C2 | 0,00403 mol H+ -eq |
acidification potential, accumulated exceedance for C3 | 0,0162 mol H+ -eq |
acidification potential, accumulated exceedance for C4 | 0,00547 mol H+ -eq |
acidification potential, accumulated exceedance for D | -0,064 mol H+ -eq |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for A1-A3 | 0,00695 kg P -eq |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for A4 | 0,0000414 kg P -eq |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for A5 | 0,0000001 kg P -eq |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for B2 | 0,00211 kg P -eq |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for B4 | 0 kg P -eq |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for C1 | 0 kg P -eq |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for C2 | 0,00000581 kg P -eq |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for C3 | 0,0000232 kg P -eq |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for C4 | 0,00000772 kg P -eq |
eutrophication potential, fraction of nutrients reaching freshwater end compartment for D | -0,000545 kg P -eq |
eutrophication potential, fraction of nutrients reaching marine end compartment for A1-A3 | 0,276 kg N -eq |
eutrophication potential, fraction of nutrients reaching marine end compartment for A4 | 0,00355 kg N -eq |
eutrophication potential, fraction of nutrients reaching marine end compartment for A5 | 0,0000313 kg N -eq |
eutrophication potential, fraction of nutrients reaching marine end compartment for B2 | 0,134 kg N -eq |
eutrophication potential, fraction of nutrients reaching marine end compartment for B4 | 0 kg N -eq |
eutrophication potential, fraction of nutrients reaching marine end compartment for C1 | 0 kg N -eq |
eutrophication potential, fraction of nutrients reaching marine end compartment for C2 | 0,00144 kg N -eq |
eutrophication potential, fraction of nutrients reaching marine end compartment for C3 | 0,00728 kg N -eq |
eutrophication potential, fraction of nutrients reaching marine end compartment for C4 | 0,00195 kg N -eq |
eutrophication potential, fraction of nutrients reaching marine end compartment for D | -0,0135 kg N -eq |
eutrophication potential, accumulated exceedance for A1-A3 | 3,16 mol N -eq |
eutrophication potential, accumulated exceedance for A4 | 0,0396 mol N -eq |
eutrophication potential, accumulated exceedance for A5 | 0,000275 mol N -eq |
eutrophication potential, accumulated exceedance for B2 | 1,58 mol N -eq |
eutrophication potential, accumulated exceedance for B4 | 0 mol N -eq |
eutrophication potential, accumulated exceedance for C1 | 0 mol N -eq |
eutrophication potential, accumulated exceedance for C2 | 0,0159 mol N -eq |
eutrophication potential, accumulated exceedance for C3 | 0,0741 mol N -eq |
eutrophication potential, accumulated exceedance for C4 | 0,0215 mol N -eq |
eutrophication potential, accumulated exceedance for D | -0,146 mol N -eq |
tropospheric ozone concentration increase for A1-A3 | 0,906 kg NMVOC -eq |
tropospheric ozone concentration increase for A4 | 0,0155 kg NMVOC -eq |
tropospheric ozone concentration increase for A5 | 0,0000744 kg NMVOC -eq |
tropospheric ozone concentration increase for B2 | 0,407 kg NMVOC -eq |
tropospheric ozone concentration increase for B4 | 0 kg NMVOC -eq |
tropospheric ozone concentration increase for C1 | 0 kg NMVOC -eq |
tropospheric ozone concentration increase for C2 | 0,00454 kg NMVOC -eq |
tropospheric ozone concentration increase for C3 | 0,019 kg NMVOC -eq |
tropospheric ozone concentration increase for C4 | 0,00622 kg NMVOC -eq |
tropospheric ozone concentration increase for D | -0,0468 kg NMVOC -eq |
abiotic depletion potential for non-fossil resources - minerals and metals for A1-A3 | 0,00564 kg Sb -eq |
abiotic depletion potential for non-fossil resources - minerals and metals for A4 | 0,000101 kg Sb -eq |
abiotic depletion potential for non-fossil resources - minerals and metals for A5 | 0,000000186 kg Sb -eq |
abiotic depletion potential for non-fossil resources - minerals and metals for B2 | 0,0011 kg Sb -eq |
abiotic depletion potential for non-fossil resources - minerals and metals for B4 | 0 kg Sb -eq |
abiotic depletion potential for non-fossil resources - minerals and metals for C1 | 0 kg Sb -eq |
abiotic depletion potential for non-fossil resources - minerals and metals for C2 | 0,0000183 kg Sb -eq |
abiotic depletion potential for non-fossil resources - minerals and metals for C3 | 0,00000783 kg Sb -eq |
abiotic depletion potential for non-fossil resources - minerals and metals for C4 | 0,0000134 kg Sb -eq |
abiotic depletion potential for non-fossil resources - minerals and metals for D | -0,0000528 kg Sb -eq |
abiotic depletion potential for fossil resources for A1-A3 | 2610 MJ |
abiotic depletion potential for fossil resources for A4 | 83,4 MJ |
abiotic depletion potential for fossil resources for A5 | 0,128 MJ |
abiotic depletion potential for fossil resources for B2 | 1100 MJ |
abiotic depletion potential for fossil resources for B4 | 0 MJ |
abiotic depletion potential for fossil resources for C1 | 0 MJ |
abiotic depletion potential for fossil resources for C2 | 10,8 MJ |
abiotic depletion potential for fossil resources for C3 | 20,8 MJ |
abiotic depletion potential for fossil resources for C4 | 17,7 MJ |
abiotic depletion potential for fossil resources for D | -115 MJ |
water (user) deprivation potential, deprivation-weighted water consumption for A1-A3 | 4270 m3 |
water (user) deprivation potential, deprivation-weighted water consumption for A4 | 66,6 m3 |
water (user) deprivation potential, deprivation-weighted water consumption for A5 | 0,251 m3 |
water (user) deprivation potential, deprivation-weighted water consumption for B2 | 121 m3 |
water (user) deprivation potential, deprivation-weighted water consumption for B4 | 0 m3 |
water (user) deprivation potential, deprivation-weighted water consumption for C1 | 0 m3 |
water (user) deprivation potential, deprivation-weighted water consumption for C2 | 10,3 m3 |
water (user) deprivation potential, deprivation-weighted water consumption for C3 | 79,9 m3 |
water (user) deprivation potential, deprivation-weighted water consumption for C4 | 35 m3 |
water (user) deprivation potential, deprivation-weighted water consumption for D | -3070 m3 |
potential incidence of disease due to PM emissions for A1-A3 | 0,0000192 Disease incidence |
potential incidence of disease due to PM emissions for A4 | 0,000000451 Disease incidence |
potential incidence of disease due to PM emissions for A5 | 0,000000000871 Disease incidence |
potential incidence of disease due to PM emissions for B2 | 0,00000808 Disease incidence |
potential incidence of disease due to PM emissions for B4 | 0 Disease incidence |
potential incidence of disease due to PM emissions for C1 | 0 Disease incidence |
potential incidence of disease due to PM emissions for C2 | 0,0000000644 Disease incidence |
potential incidence of disease due to PM emissions for C3 | 0,000000255 Disease incidence |
potential incidence of disease due to PM emissions for C4 | 0,0000001 Disease incidence |
potential incidence of disease due to PM emissions for D | -0,0000019 Disease incidence |
potential human exposure efficiency relative to U235 for A1-A3 | 9,37 kgBq U235 -eq |
potential human exposure efficiency relative to U235 for A4 | 0,365 kgBq U235 -eq |
potential human exposure efficiency relative to U235 for A5 | 0,000515 kgBq U235 -eq |
potential human exposure efficiency relative to U235 for B2 | 3,05 kgBq U235 -eq |
potential human exposure efficiency relative to U235 for B4 | 0 kgBq U235 -eq |
potential human exposure efficiency relative to U235 for C1 | 0 kgBq U235 -eq |
potential human exposure efficiency relative to U235 for C2 | 0,0474 kgBq U235 -eq |
potential human exposure efficiency relative to U235 for C3 | 0,0747 kgBq U235 -eq |
potential human exposure efficiency relative to U235 for C4 | 0,0712 kgBq U235 -eq |
potential human exposure efficiency relative to U235 for D | -0,511 kgBq U235 -eq |
potential comparative toxic unit for ecosystems for A1-A3 | 6840 CTUe |
potential comparative toxic unit for ecosystems for A4 | 61,1 CTUe |
potential comparative toxic unit for ecosystems for A5 | 0,138 CTUe |
potential comparative toxic unit for ecosystems for B2 | 2890 CTUe |
potential comparative toxic unit for ecosystems for B4 | 0 CTUe |
potential comparative toxic unit for ecosystems for C1 | 0 CTUe |
potential comparative toxic unit for ecosystems for C2 | 8,11 CTUe |
potential comparative toxic unit for ecosystems for C3 | 96,7 CTUe |
potential comparative toxic unit for ecosystems for C4 | 10,5 CTUe |
potential comparative toxic unit for ecosystems for D | -394 CTUe |
potential comparative toxic unit for humans - cancer effects for A1-A3 | 0,000000487 CTUh |
potential comparative toxic unit for humans - cancer effects for A4 | 0 CTUh |
potential comparative toxic unit for humans - cancer effects for A5 | 0,00000000001 CTUh |
potential comparative toxic unit for humans - cancer effects for B2 | 0,000000111 CTUh |
potential comparative toxic unit for humans - cancer effects for B4 | 0 CTUh |
potential comparative toxic unit for humans - cancer effects for C1 | 0 CTUh |
potential comparative toxic unit for humans - cancer effects for C2 | 0 CTUh |
potential comparative toxic unit for humans - cancer effects for C3 | 0,00000000955 CTUh |
potential comparative toxic unit for humans - cancer effects for C4 | 0,000000000373 CTUh |
potential comparative toxic unit for humans - cancer effects for D | -0,0000000246 CTUh |
potential comparative toxic unit for humans - non-cancer effects for A1-A3 | 0,00000537 CTUh |
potential comparative toxic unit for humans - non-cancer effects for A4 | 0,0000000603 CTUh |
potential comparative toxic unit for humans - non-cancer effects for A5 | 0,00000000047 CTUh |
potential comparative toxic unit for humans - non-cancer effects for B2 | 0,00000112 CTUh |
potential comparative toxic unit for humans - non-cancer effects for B4 | 0 CTUh |
potential comparative toxic unit for humans - non-cancer effects for C1 | 0 CTUh |
potential comparative toxic unit for humans - non-cancer effects for C2 | 0,0000000107 CTUh |
potential comparative toxic unit for humans - non-cancer effects for C3 | 0,000000105 CTUh |
potential comparative toxic unit for humans - non-cancer effects for C4 | 0,00000000995 CTUh |
potential comparative toxic unit for humans - non-cancer effects for D | -0,000000159 CTUh |
potential soil quality index for A1-A3 | 12600 dimensionless |
potential soil quality index for A4 | 89,7 dimensionless |
potential soil quality index for A5 | 0,114 dimensionless |
potential soil quality index for B2 | 463 dimensionless |
potential soil quality index for B4 | 0 dimensionless |
potential soil quality index for C1 | 0 dimensionless |
potential soil quality index for C2 | 9,28 dimensionless |
potential soil quality index for C3 | 7,5 dimensionless |
potential soil quality index for C4 | 38,5 dimensionless |
potential soil quality index for D | -275 dimensionless |
renewable primary resources used as an energy carrier (fuel) for A1-A3 | 830 MJ |
renewable primary resources used as an energy carrier (fuel) for A4 | 1,07 MJ |
renewable primary resources used as an energy carrier (fuel) for A5 | 0,00264 MJ |
renewable primary resources used as an energy carrier (fuel) for B2 | 64,4 MJ |
renewable primary resources used as an energy carrier (fuel) for B4 | 0 MJ |
renewable primary resources used as an energy carrier (fuel) for C1 | 0 MJ |
renewable primary resources used as an energy carrier (fuel) for C2 | 0,156 MJ |
renewable primary resources used as an energy carrier (fuel) for C3 | 2,92 MJ |
renewable primary resources used as an energy carrier (fuel) for C4 | 0,329 MJ |
renewable primary resources used as an energy carrier (fuel) for D | -275 MJ |
renewable primary resources with energy content used as material for A1-A3 | 532 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 | -60,2 MJ |
renewable primary resources with energy content used as material for B2 | 0 MJ |
renewable primary resources with energy content used as material for B4 | 0 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 | -471 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 | 2440 MJ |
non-renewable primary resources used as an energy carrier (fuel) for A4 | 83,5 MJ |
non-renewable primary resources used as an energy carrier (fuel) for A5 | 0,128 MJ |
non-renewable primary resources used as an energy carrier (fuel) for B2 | 1020 MJ |
non-renewable primary resources used as an energy carrier (fuel) for B4 | 0 MJ |
non-renewable primary resources used as an energy carrier (fuel) for C1 | 0 MJ |
non-renewable primary resources used as an energy carrier (fuel) for C2 | 10,8 MJ |
non-renewable primary resources used as an energy carrier (fuel) for C3 | 20,8 MJ |
non-renewable primary resources used as an energy carrier (fuel) for C4 | 17,7 MJ |
non-renewable primary resources used as an energy carrier (fuel) for D | -115 MJ |
non-renewable primary resources with energy content used as material for A1-A3 | 139 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 | -4,25 MJ |
non-renewable primary resources with energy content used as material for B2 | 0 MJ |
non-renewable primary resources with energy content used as material for B4 | 0 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 | -134 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 | 0,549 kg |
secondary materials for A4 | 0 kg |
secondary materials for A5 | 0 kg |
secondary materials for B2 | 0,0185 kg |
secondary materials for B4 | 0 kg |
secondary materials for C1 | 0 kg |
secondary materials for C2 | 0 kg |
secondary materials for C3 | 0 kg |
secondary materials for C4 | 0 kg |
secondary materials for D | 0 kg |
renewable secondary fuels for A1-A3 | 1,08 MJ |
renewable secondary fuels for A4 | 0,0377 MJ |
renewable secondary fuels for A5 | 0,0000769 MJ |
renewable secondary fuels for B2 | 0,0467 MJ |
renewable secondary fuels for B4 | 0 MJ |
renewable secondary fuels for C1 | 0 MJ |
renewable secondary fuels for C2 | 0,00554 MJ |
renewable secondary fuels for C3 | 0,0608 MJ |
renewable secondary fuels for C4 | 0,00871 MJ |
renewable secondary fuels for D | 0,0128 MJ |
non-renewable secondary fuels for A1-A3 | 1,55 MJ |
non-renewable secondary fuels for A4 | 0,128 MJ |
non-renewable secondary fuels for A5 | 0,00057 MJ |
non-renewable secondary fuels for B2 | 0,144 MJ |
non-renewable secondary fuels for B4 | 0 MJ |
non-renewable secondary fuels for C1 | 0 MJ |
non-renewable secondary fuels for C2 | 0,0195 MJ |
non-renewable secondary fuels for C3 | 0 MJ |
non-renewable secondary fuels for C4 | 0,377 MJ |
non-renewable secondary fuels for D | -13 MJ |
net use of freshwater for A1-A3 | 6,45 m3 |
net use of freshwater for A4 | 0,0094 m3 |
net use of freshwater for A5 | 0,0000745 m3 |
net use of freshwater for B2 | 0,907 m3 |
net use of freshwater for B4 | 0 m3 |
net use of freshwater for C1 | 0 m3 |
net use of freshwater for C2 | 0,00123 m3 |
net use of freshwater for C3 | 0,0262 m3 |
net use of freshwater for C4 | 0,016 m3 |
net use of freshwater for D | -0,425 m3 |
hazardous waste disposed for A1-A3 | 2,66 kg |
hazardous waste disposed for A4 | 0,00452 kg |
hazardous waste disposed for A5 | 0 kg |
hazardous waste disposed for B2 | 69,4 kg |
hazardous waste disposed for B4 | 0 kg |
hazardous waste disposed for C1 | 0 Kg |
hazardous waste disposed for C2 | 0,000585 kg |
hazardous waste disposed for C3 | 0 Kg |
hazardous waste disposed for C4 | 69,3 kg |
hazardous waste disposed for D | 0,00811 kg |
non-hazardous waste disposed for A1-A3 | 58,8 kg |
non-hazardous waste disposed for A4 | 6,75 kg |
non-hazardous waste disposed for A5 | 0,443 kg |
non-hazardous waste disposed for B2 | 11,4 kg |
non-hazardous waste disposed for B4 | 0 kg |
non-hazardous waste disposed for C1 | 0 Kg |
non-hazardous waste disposed for C2 | 0,672 kg |
non-hazardous waste disposed for C3 | 59,4 kg |
non-hazardous waste disposed for C4 | 0,637 kg |
non-hazardous waste disposed for D | -3,06 kg |
total radioactive waste disposed (mass) for A1-A3 | 0,0105 kg |
total radioactive waste disposed (mass) for A4 | 0,00057 kg |
total radioactive waste disposed (mass) for A5 | 0 kg |
total radioactive waste disposed (mass) for B2 | 0,00376 kg |
total radioactive waste disposed (mass) for B4 | 0 kg |
total radioactive waste disposed (mass) for C1 | 0 Kg |
total radioactive waste disposed (mass) for C2 | 0,0000738 kg |
total radioactive waste disposed (mass) for C3 | 0 Kg |
total radioactive waste disposed (mass) for C4 | 0,000109 kg |
total radioactive waste disposed (mass) for D | -0,00045 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 B2 | 0 kg |
components for re-use for B4 | 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 | 1,98 kg |
materials for recycling for A4 | 0 kg |
materials for recycling for A5 | 0,255 kg |
materials for recycling for B2 | 0,33 kg |
materials for recycling for B4 | 0 kg |
materials for recycling for C1 | 0 kg |
materials for recycling for C2 | 0 kg |
materials for recycling for C3 | 1,95 kg |
materials for recycling for C4 | 0 kg |
materials for recycling for D | 0 kg |
materials for energy recovery for A1-A3 | 0,438 kg |
materials for energy recovery for A4 | 0 kg |
materials for energy recovery for A5 | 0,0049 kg |
materials for energy recovery for B2 | 0,000134 kg |
materials for energy recovery for B4 | 0 kg |
materials for energy recovery for C1 | 0 kg |
materials for energy recovery for C2 | 0 kg |
materials for energy recovery for C3 | 105 kg |
materials for energy recovery for C4 | 0 kg |
materials for energy recovery for D | 0 kg |
exported electrical energy for A1-A3 | 1,74 MJ |
exported electrical energy for A4 | 0 MJ |
exported electrical energy for A5 | 0,095 MJ |
exported electrical energy for B2 | 5,34 MJ |
exported electrical energy for B4 | 0 MJ |
exported electrical energy for C1 | 0 MJ |
exported electrical energy for C2 | 0 MJ |
exported electrical energy for C3 | 27,7 MJ |
exported electrical energy for C4 | 0 MJ |
exported electrical energy for D | 0 MJ |
exported thermal energy for A1-A3 | 25,6 MJ |
exported thermal energy for A4 | 0 MJ |
exported thermal energy for A5 | 1,44 MJ |
exported thermal energy for B2 | 77,7 MJ |
exported thermal energy for B4 | 0 MJ |
exported thermal energy for C1 | 0 MJ |
exported thermal energy for C2 | 0 MJ |
exported thermal energy for C3 | 419 MJ |
exported thermal energy for C4 | 0 MJ |
exported thermal energy for D | 0 MJ |
reference unit type | functional unit; declared unit |
reference quantity (item) | 1 |
reference service life | 60 year |
frame height | 2100 millimeter |
threshold height | 25 millimeter |
depth | 113 millimeter |
net weight | 80 kilogram |
frame width | 1000 millimeter |