Life Cycle Assessment of Energy Systems
Life Cycle Assessment of Energy Systems
English[eng]
life cycle assessment||battery electric vehicle (BEV)||plug-in electric vehicle||energy||greenhouse gas (GHG) emissions||thermodynamic modeling||exergy||e-waste||secondary copper smelting||precious metal recovery||printed circuit board||coalbed methane development||risk assessment||structural entropy weight method||matter-element extension method||LCA||Spain||renewables||electricity||sustainability||carbon footprint||employment||LCOE||CHP||biomass||gasification||SOFC||allocation||multifunctionality||geothermal energy||flash technology||Bagnore power plant||pedigree matrix||carbon dioxide capture||activated carbon||environmental impacts||IGCC||carbon capture economy||stirling cycle-based heat pump||gas/oil-fired boilers||SimaPro||eco-indicator 99||life cycle impact assessment||distance-to-target weighting||ecological scarcity||renewable electricity and heat generation||decentralized energy system
English[eng]
life cycle assessment||battery electric vehicle (BEV)||plug-in electric vehicle||energy||greenhouse gas (GHG) emissions||thermodynamic modeling||exergy||e-waste||secondary copper smelting||precious metal recovery||printed circuit board||coalbed methane development||risk assessment||structural entropy weight method||matter-element extension method||LCA||Spain||renewables||electricity||sustainability||carbon footprint||employment||LCOE||CHP||biomass||gasification||SOFC||allocation||multifunctionality||geothermal energy||flash technology||Bagnore power plant||pedigree matrix||carbon dioxide capture||activated carbon||environmental impacts||IGCC||carbon capture economy||stirling cycle-based heat pump||gas/oil-fired boilers||SimaPro||eco-indicator 99||life cycle impact assessment||distance-to-target weighting||ecological scarcity||renewable electricity and heat generation||decentralized energy system