Renewable Energy Systems from Biomass
portes grátis
Renewable Energy Systems from Biomass
Efficiency, Innovation and Sustainability
Strezov, Vladimir; Anawar, Hossain Md.
Taylor & Francis Ltd
06/2022
280
Mole
Inglês
9781032338729
15 a 20 dias
460
Descrição não disponível.
Current status of renewable energy systems: Global uses, acceptance and sustainability. Modeling of sustainable energy system from renewable biomass resources in response to technical development, lifecycle assessment, cost and availability. Economic, environmental and uncertainty aspects for production of sustainable energy system with distributed renewable waste resources. Conversion of biomass to liquid energy systems from energy crops grown on contaminated land: Environmental and economic sustainability. Technical and economic assessment of biogas and liquid energy systems from sewage sludge and industrial waste: Lifecycle assessment and sustainability. Insights in scientific development for production of solar energy system: New innovations for increased solar capture, low cost and higher sustainability. Integrating solar photovoltaic cells into utility system operations: Analytical framework. Uncertainty in hydropower system: New approach in design of sustainable hydropower system. Progress and sustainability in design of small scale solar and wind energy systems in rural areas. Efficient integration of hydrogen and microbial fuel cells into renewable energy system focusing on economic benefits and sustainability. Integration of solar, wind and biomass energy into grid system and in agricultural production in rural areas. Design and analyses of energy production for dwellings by using hybrid energy systems. Design of treatment technology for contaminated and saline water by geothermal energy system. Construction of sustainable carbon capture technologies in industrial ecology focusing on environmental and economic benefits.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Energy Sources;Biomass Gasification;Renewable energy systems;Bioenergy Production;Innovation and affordability;Moisture Content;Efficiency and sustainability;Anaerobic Digestion;Systems approach;Sewage Sludge;Lifecycle assessment, cost and availability;Bio-oil Yields;Global energy policy and technology;Energy Recovery;Hossain M. Anawar;Crop Residue;Tao Kan;DCFC;Tim Evans;Renewable Energy;Hannah Hyunah Cho;SRC;Margarita Rosa Albis Salas;Energy Resources;Suraj Adebayo Opatokun;Socio-economic Development;Yani Kendra;Biomass Supply Chain;Haftom Weldekidan;Energy Maize;Graham Town;Bioenergy Crops;Peter Nelson;Hydrogen Production;Xiaofeng Li;Parabolic Trough;Hydrothermal Gasification;biomass energy;Biochar Stability;economic sustainability;Solar Parabolic Dish;sustainable energy production;WtE Technology;waste-to-energy activities;Steam Reforming;Spent Coffee Grounds
Current status of renewable energy systems: Global uses, acceptance and sustainability. Modeling of sustainable energy system from renewable biomass resources in response to technical development, lifecycle assessment, cost and availability. Economic, environmental and uncertainty aspects for production of sustainable energy system with distributed renewable waste resources. Conversion of biomass to liquid energy systems from energy crops grown on contaminated land: Environmental and economic sustainability. Technical and economic assessment of biogas and liquid energy systems from sewage sludge and industrial waste: Lifecycle assessment and sustainability. Insights in scientific development for production of solar energy system: New innovations for increased solar capture, low cost and higher sustainability. Integrating solar photovoltaic cells into utility system operations: Analytical framework. Uncertainty in hydropower system: New approach in design of sustainable hydropower system. Progress and sustainability in design of small scale solar and wind energy systems in rural areas. Efficient integration of hydrogen and microbial fuel cells into renewable energy system focusing on economic benefits and sustainability. Integration of solar, wind and biomass energy into grid system and in agricultural production in rural areas. Design and analyses of energy production for dwellings by using hybrid energy systems. Design of treatment technology for contaminated and saline water by geothermal energy system. Construction of sustainable carbon capture technologies in industrial ecology focusing on environmental and economic benefits.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Energy Sources;Biomass Gasification;Renewable energy systems;Bioenergy Production;Innovation and affordability;Moisture Content;Efficiency and sustainability;Anaerobic Digestion;Systems approach;Sewage Sludge;Lifecycle assessment, cost and availability;Bio-oil Yields;Global energy policy and technology;Energy Recovery;Hossain M. Anawar;Crop Residue;Tao Kan;DCFC;Tim Evans;Renewable Energy;Hannah Hyunah Cho;SRC;Margarita Rosa Albis Salas;Energy Resources;Suraj Adebayo Opatokun;Socio-economic Development;Yani Kendra;Biomass Supply Chain;Haftom Weldekidan;Energy Maize;Graham Town;Bioenergy Crops;Peter Nelson;Hydrogen Production;Xiaofeng Li;Parabolic Trough;Hydrothermal Gasification;biomass energy;Biochar Stability;economic sustainability;Solar Parabolic Dish;sustainable energy production;WtE Technology;waste-to-energy activities;Steam Reforming;Spent Coffee Grounds