Design of Heat Exchangers for Heat Pump Applications
Design of Heat Exchangers for Heat Pump Applications
English[eng]
adsorption||cooling technology||chiller||heat exchanger||waste heat utilization||CFD||heat pumps||EnergyPlus||buildings||exergy transfer performance||nanofluids||marine seawater source||heat pump||graphene nanoparticles||ground-to-air heat exchangers||GAHE||experimental results||preheating and precooling for HVAC||energy saving for HVAC||models for calculating the thermal efficiency of ground-to-air heat exchangers||shallow geothermal system||dual source heat pump||phase change materials||numerical simulations||tube heat exchanger with plate-fins||air-side Nusselt number||various heat transfer equations in each tube row||CFD modelling||empirical heat transfer equation||ground coupled heat pumps||borehole heat exchangers||distributed temperature response test||grouting material||hydration heat release||ground heat exchanger||whole-building energy simulation||ground source heat pump||g-Function
English[eng]
adsorption||cooling technology||chiller||heat exchanger||waste heat utilization||CFD||heat pumps||EnergyPlus||buildings||exergy transfer performance||nanofluids||marine seawater source||heat pump||graphene nanoparticles||ground-to-air heat exchangers||GAHE||experimental results||preheating and precooling for HVAC||energy saving for HVAC||models for calculating the thermal efficiency of ground-to-air heat exchangers||shallow geothermal system||dual source heat pump||phase change materials||numerical simulations||tube heat exchanger with plate-fins||air-side Nusselt number||various heat transfer equations in each tube row||CFD modelling||empirical heat transfer equation||ground coupled heat pumps||borehole heat exchangers||distributed temperature response test||grouting material||hydration heat release||ground heat exchanger||whole-building energy simulation||ground source heat pump||g-Function