Sustainable Energy Systems: From Primary to End-Use
Godina, Radu||Matias, João Carlos de Oliveira||Nunes, Leonel
Sustainable Energy Systems: From Primary to End-Use
English[eng]
coal-fired power unit||capacity investment||energy density||sensitivity analysis||fuel||renewable energy source penetration||AHP||torrefaction||Active Disturbance Rejection Control||swell effect disturbance||renewable energy||resource efficiency||choice experiment||pseudo-Huber loss||integrated model||Probabilistic Robustness||sustainable energy||Energy Life-Cycle Assessment||hysteresis switching||areal grey relational analysis||market power||photovoltaic with energy storage system||wind power plants||power system stability||alternative energy||hollow rollers||efficiency||generation system scheduling||energy from biomass||fuelwood value index||manufacturing industry||game theory||energy modelling||peach||grindability||artificial neural networks control||sustainability||large bearings||levelized cost of energy||renewable energies||ash recovery||thermodynamic cycle concepts||modified cycle concepts||HOMER simulation||low-carbon economy||energy systems||fuzzy logic control||basic plan for long-term electricity supply and demand||LCOE comparison||post-harvest||heating value||power supply reliability||Pinus pinaster||doubly fed induction generator||willingness to pay||multilayer perception||robust optimization||forecasting model for electricity demand||transient impact||uncertainty||power electronics||electrostatic devices||flexibility||active power harmonics filter||Monte Carlo||energy storage systems||energy costs||SWOT analysis||tidal stream generator||textile industrial sector||stochastic approach||deficit||uncertainty analysis||rotary reactor||biomass||secondary air regulation||forecasting||photovoltaic||electricity||Internet of Things||dynamic planning||fuzzy rough set||flexible resource||wind resources||op-amp||maximum power point tracking||nexus concept
Sustainable Energy Systems: From Primary to End-Use
English[eng]
coal-fired power unit||capacity investment||energy density||sensitivity analysis||fuel||renewable energy source penetration||AHP||torrefaction||Active Disturbance Rejection Control||swell effect disturbance||renewable energy||resource efficiency||choice experiment||pseudo-Huber loss||integrated model||Probabilistic Robustness||sustainable energy||Energy Life-Cycle Assessment||hysteresis switching||areal grey relational analysis||market power||photovoltaic with energy storage system||wind power plants||power system stability||alternative energy||hollow rollers||efficiency||generation system scheduling||energy from biomass||fuelwood value index||manufacturing industry||game theory||energy modelling||peach||grindability||artificial neural networks control||sustainability||large bearings||levelized cost of energy||renewable energies||ash recovery||thermodynamic cycle concepts||modified cycle concepts||HOMER simulation||low-carbon economy||energy systems||fuzzy logic control||basic plan for long-term electricity supply and demand||LCOE comparison||post-harvest||heating value||power supply reliability||Pinus pinaster||doubly fed induction generator||willingness to pay||multilayer perception||robust optimization||forecasting model for electricity demand||transient impact||uncertainty||power electronics||electrostatic devices||flexibility||active power harmonics filter||Monte Carlo||energy storage systems||energy costs||SWOT analysis||tidal stream generator||textile industrial sector||stochastic approach||deficit||uncertainty analysis||rotary reactor||biomass||secondary air regulation||forecasting||photovoltaic||electricity||Internet of Things||dynamic planning||fuzzy rough set||flexible resource||wind resources||op-amp||maximum power point tracking||nexus concept