Performance analyses of a waste-to-energy multigeneration system incorporated with thermoelectric generators

“…The resultant gas mixture (gaseous products) transformation is named synthesis gas (syngas) or producer gas, and the syngas itself can be used as a fuel because flammable contents, e.g., H2 and CO. Notably, the gasification of lignocellulosic biomass has a high potential to enhance the exergy efficiency of a combined heat and power (CHP) system [32]. Furthermore, the lignocellulosic biomass gasification-based heat and power generation can be eco-friendlier than that based on direct combustion of the biomass.…”

Bioenergy generation from thermochemical conversion of lignocellulosic biomass-based integrated renewable energy systems

“…The resultant gas mixture (gaseous products) transformation is named synthesis gas (syngas) or producer gas, and the syngas itself can be used as a fuel because flammable contents, e.g., H2 and CO. Notably, the gasification of lignocellulosic biomass has a high potential to enhance the exergy efficiency of a combined heat and power (CHP) system [32]. Furthermore, the lignocellulosic biomass gasification-based heat and power generation can be eco-friendlier than that based on direct combustion of the biomass.…”

Bioenergy generation from thermochemical conversion of lignocellulosic biomass-based integrated renewable energy systems

“…Among the researches conducted in the field of the absorption refrigeration cycle (ARC), Georgousis et al [ 31 ] have performed energy and exergy analysis for a single stage LiBr–H 2 O absorption chiller considering the temperatures of hot water, cool water, and cold water entering the absorption chiller. Sotoodeh et al [ 32 ] have done energy and exergy analysis for single stage and two-stage LiBr–H 2 O absorption chillers and calculated exergy destruction in each component of the absorption chiller. The highest amount of exergy destruction occurred in the absorber of the absorption chiller and then in the condenser, evaporator, generator, and HX, respectively.…”

Exergy-economic assessment of a hybrid power, cooling and heating generation system based on SOFC

“…19] -to-energy Biomass gasification-based multigeneration system that produces power, heating, cooling, and hydrogen. They have improved power generation in the cycle by 12%.…”

Energy, exergy, exergoeconomic, and exergoenvironmental (4E) analysis of a new bio-waste driven multigeneration system for power, heating, hydrogen, and freshwater production: Modeling and a case study in Izmir