Optimum performance of a heat engine-driven combined vapour compression-absorption-ejector heat pump

11 Process heating, power and incineration (energy applications in industry) engine can also be used. As primary fuels to drive the Stirling engines biomass, disposal gas, biogas, and solar energy are presented. A discussion is also included on the possible utilization of Sterling engines in vehicl

Optimum performance of an endoreversible heat engine-driven heat pump cycle, based on a combination of an absorption cycle with a vapour and ejector compression cycles is investigated. This combination increases the performance of the conventional ejector and absorption cycles and provides high perf

Scope for energy recovery in this industry is substantial, particularly from the latent heat of the exhaust moist air. Using real operating data from a major Swedish mill, optimal energy conservation strategies were investigated using different heat pump systems in paper drying, Simulation results a