Add to ORKGA thermal wave cycle is one method to achieve thermal regeneration in an adsorption cooling cycle. A thermodynamic model is developed to define the performance limits to this cycle. A zeolite-water adsorbent-refrigerant pair with maximum bed temperatures ranging from 110 to 200oC is predicted to have a limiting COP of 1.7 to 3.6. Relative to an ideal simple adsorption cycle with no thermal regeneration, these results translate into the potential to reduce the driving heat transfer by ~ 70%. These reductions in the driving heat transfer are similar to those for a system with an infinite number of beds following the simple cycle with maximum thermal regeneration. 1
The heat capacity of the adsorbate adsorbent system is a crucial physical property required for mode...
Global trends in cooling demands grew rapidly during the past decades due to the higher quality of l...
Models of solar-thermal powered adsorption cooling systems with and without heat recovery developed ...
A thermodynamic model is developed to predict trends in limiting COP of an adsorption cooling cycle ...
Models are presented for ideal thermal wave adsorption cooling cycles without mass recovery, with ad...
The convective thermal wave is part of a patented cycle which uses heat transfer intensification to ...
The convective thermal wave is part of a patented cycle which uses heat transfer intensification to ...
Adsorption chillers can provide energy efficient cooling and have large potential for performance incr...
The convective thermal wave adsorption cycle is described and a thermodynamic model which takes acco...
Purely heat-driven refrigeration has the potential for high primary-energy efficiency, especially wh...
With increasing widespread usage of refrigeration systems, the global warming issue has never been m...
Poor heat and mass transfer inside the adsorbent bed of adsorption cooling cycles can cause low syst...
This thesis presents several numerical models including thermodynamic model, lumped model and heat a...
Adsorption heat pumps (or refrigerators) and heat transformers are possible application modes for he...
In this paper, a two modular zeolite water adsorption heat pump (AHP) based on the thermal...
The heat capacity of the adsorbate adsorbent system is a crucial physical property required for mode...
Global trends in cooling demands grew rapidly during the past decades due to the higher quality of l...
Models of solar-thermal powered adsorption cooling systems with and without heat recovery developed ...
A thermodynamic model is developed to predict trends in limiting COP of an adsorption cooling cycle ...
Models are presented for ideal thermal wave adsorption cooling cycles without mass recovery, with ad...
The convective thermal wave is part of a patented cycle which uses heat transfer intensification to ...
The convective thermal wave is part of a patented cycle which uses heat transfer intensification to ...
Adsorption chillers can provide energy efficient cooling and have large potential for performance incr...
The convective thermal wave adsorption cycle is described and a thermodynamic model which takes acco...
Purely heat-driven refrigeration has the potential for high primary-energy efficiency, especially wh...
With increasing widespread usage of refrigeration systems, the global warming issue has never been m...
Poor heat and mass transfer inside the adsorbent bed of adsorption cooling cycles can cause low syst...
This thesis presents several numerical models including thermodynamic model, lumped model and heat a...
Adsorption heat pumps (or refrigerators) and heat transformers are possible application modes for he...
In this paper, a two modular zeolite water adsorption heat pump (AHP) based on the thermal...
The heat capacity of the adsorbate adsorbent system is a crucial physical property required for mode...
Global trends in cooling demands grew rapidly during the past decades due to the higher quality of l...
Models of solar-thermal powered adsorption cooling systems with and without heat recovery developed ...