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The increasing share of renewable energy sources is drawing attention to a critical challenge. The availability of wind turbines and photovoltaic solar cells is limited and difficult to predict. They usually provide a fluctuating feed-in to the grid, so energy reserves, e.g., conventional thermal power plants or energy storage systems, are necessary to establish a balance between electricity supply and demand. Various solutions can be adopted to maintain the security of supply and improve the flexibility of the future power system, such as improving the efficiency of technical processes in areas such as thermal power plants, cement and metallurgy industries, the use of advanced thermochemical conversion technologies such as gasification, the expansion of high-voltage transmission infrastructure, the promoting of renewable energy sources, the employment of large-scale energy storage systems, and the use of highly flexible power generation units with carbon capture and utilisation, such as combined-cycle power plants. Given this background, this Special Issue contains fundamental scientific studies on the latest research progress in the development and optimisation of gasification processes, renewable energy source “solar energy”, synthesis of new hybrid nanocomposites and nanofluids, carbon capture, and energy storage systems. Special Issue Editors Falah Alobaid Jochen Ströhle

Technology: general issues --- History of engineering & technology --- gasification --- sewage sludge --- syngas --- sulfur --- tar --- ammonia --- biofuel --- synthesis stoichiometry --- operation parameters --- nutrient recovery --- circular economy --- plastics --- waste blends --- thermogravimetric analysis --- pyrolysis --- thermo-economic --- aqua-ammonia --- lithium bromide-water --- absorption systems --- design --- solar collectors --- steam gasification --- biomass --- bubbling fluidized bed --- Aspen Plus simulation --- hydrogen production --- devolatilization --- biomass pretreatments --- wheat straw pellets --- gas yield --- carbon conversion --- fluidized bed --- dynamic simulation --- parabolic trough power plant --- control circuit --- solar field --- thermal storage system --- chemical looping gasification --- carbon dioxide capture --- oxygen carriers --- APROS --- operation strategy --- comparative study --- CO2 capture --- CO2 absorption --- liquid holdup --- pressure drop --- clear liquid height --- froth height --- experimental study --- stand-alone system --- molten salt --- combined cycle plants --- MgO-DW nanofluid --- two-step technique --- co-precipitation --- XRD and SEM --- thermal conductivity --- dynamic viscosity --- nanofluid --- absorption --- improvement --- solvent --- shape memory alloys --- Ni-Ti-Ag --- casting --- VAR furnace --- microstructure --- XRD --- mechanical properties --- hybrid nano-composites --- powder metallurgy --- Fe2O3 --- Ag --- wear --- heat transfer enhancement --- binary basket-twisted strip inserts --- friction characteristics --- thermal performance characteristics --- turbulent flow --- gasification --- sewage sludge --- syngas --- sulfur --- tar --- ammonia --- biofuel --- synthesis stoichiometry --- operation parameters --- nutrient recovery --- circular economy --- plastics --- waste blends --- thermogravimetric analysis --- pyrolysis --- thermo-economic --- aqua-ammonia --- lithium bromide-water --- absorption systems --- design --- solar collectors --- steam gasification --- biomass --- bubbling fluidized bed --- Aspen Plus simulation --- hydrogen production --- devolatilization --- biomass pretreatments --- wheat straw pellets --- gas yield --- carbon conversion --- fluidized bed --- dynamic simulation --- parabolic trough power plant --- control circuit --- solar field --- thermal storage system --- chemical looping gasification --- carbon dioxide capture --- oxygen carriers --- APROS --- operation strategy --- comparative study --- CO2 capture --- CO2 absorption --- liquid holdup --- pressure drop --- clear liquid height --- froth height --- experimental study --- stand-alone system --- molten salt --- combined cycle plants --- MgO-DW nanofluid --- two-step technique --- co-precipitation --- XRD and SEM --- thermal conductivity --- dynamic viscosity --- nanofluid --- absorption --- improvement --- solvent --- shape memory alloys --- Ni-Ti-Ag --- casting --- VAR furnace --- microstructure --- XRD --- mechanical properties --- hybrid nano-composites --- powder metallurgy --- Fe2O3 --- Ag --- wear --- heat transfer enhancement --- binary basket-twisted strip inserts --- friction characteristics --- thermal performance characteristics --- turbulent flow

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

The increasing share of renewable energy sources is drawing attention to a critical challenge. The availability of wind turbines and photovoltaic solar cells is limited and difficult to predict. They usually provide a fluctuating feed-in to the grid, so energy reserves, e.g., conventional thermal power plants or energy storage systems, are necessary to establish a balance between electricity supply and demand. Various solutions can be adopted to maintain the security of supply and improve the flexibility of the future power system, such as improving the efficiency of technical processes in areas such as thermal power plants, cement and metallurgy industries, the use of advanced thermochemical conversion technologies such as gasification, the expansion of high-voltage transmission infrastructure, the promoting of renewable energy sources, the employment of large-scale energy storage systems, and the use of highly flexible power generation units with carbon capture and utilisation, such as combined-cycle power plants. Given this background, this Special Issue contains fundamental scientific studies on the latest research progress in the development and optimisation of gasification processes, renewable energy source “solar energy”, synthesis of new hybrid nanocomposites and nanofluids, carbon capture, and energy storage systems. Special Issue Editors Falah Alobaid Jochen Ströhle

gasification --- sewage sludge --- syngas --- sulfur --- tar --- ammonia --- biofuel --- synthesis stoichiometry --- operation parameters --- nutrient recovery --- circular economy --- plastics --- waste blends --- thermogravimetric analysis --- pyrolysis --- thermo-economic --- aqua-ammonia --- lithium bromide-water --- absorption systems --- design --- solar collectors --- steam gasification --- biomass --- bubbling fluidized bed --- Aspen Plus simulation --- hydrogen production --- devolatilization --- biomass pretreatments --- wheat straw pellets --- gas yield --- carbon conversion --- fluidized bed --- dynamic simulation --- parabolic trough power plant --- control circuit --- solar field --- thermal storage system --- chemical looping gasification --- carbon dioxide capture --- oxygen carriers --- APROS --- operation strategy --- comparative study --- CO2 capture --- CO2 absorption --- liquid holdup --- pressure drop --- clear liquid height --- froth height --- experimental study --- stand-alone system --- molten salt --- combined cycle plants --- MgO-DW nanofluid --- two-step technique --- co-precipitation --- XRD and SEM --- thermal conductivity --- dynamic viscosity --- nanofluid --- absorption --- improvement --- solvent --- shape memory alloys --- Ni-Ti-Ag --- casting --- VAR furnace --- microstructure --- XRD --- mechanical properties --- hybrid nano-composites --- powder metallurgy --- Fe2O3 --- Ag --- wear --- heat transfer enhancement --- binary basket–twisted strip inserts --- friction characteristics --- thermal performance characteristics --- turbulent flow --- n/a --- binary basket-twisted strip inserts