Add to ORKGThe convective thermal wave adsorption cycle is described and a thermodynamic model which takes account of the variations in temperature and concentration in the bed is proposed. The results of using the model with a particular carbon adsorbent and ammonia adsorbate are presented for a range of cycle temperatures and system heat transfer effectiveness values
A thermodynamic model is developed to predict trends in limiting COP of an adsorption cooling cycle ...
A comparison among three adsorption pairs (activated carbon-methanol, silica gel-water and 13X molec...
A novel cycle in which adsorbent heat transfer is enhanced by forced convection is described. The cy...
Models are presented for ideal thermal wave adsorption cooling cycles without mass recovery, with ad...
A thermal wave cycle is one method to achieve thermal regeneration in an adsorption cooling cycle. A...
Poor heat and mass transfer inside the adsorbent bed of adsorption cooling cycles can cause low syst...
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 study deals with the complete dynamic analysis (numerical and practical) of an existing adsorpti...
A transient two dimensional local thermal non-equilibrium model is developed to investigate the infl...
The aim of the study was to examine the efficiency of the thermal wave type adsorption refrigerating...
In this study a methodology is developed for the design of a packed bed reactor to be used in a Chem...
In this study, the influence of the adsorbent bed dimensions, convective heat transfer coefficient b...
This work describes a novel method that enables the calculation of a series of adsorption isotherms ...
A thermodynamic model is developed to predict trends in limiting COP of an adsorption cooling cycle ...
A comparison among three adsorption pairs (activated carbon-methanol, silica gel-water and 13X molec...
A novel cycle in which adsorbent heat transfer is enhanced by forced convection is described. The cy...
Models are presented for ideal thermal wave adsorption cooling cycles without mass recovery, with ad...
A thermal wave cycle is one method to achieve thermal regeneration in an adsorption cooling cycle. A...
Poor heat and mass transfer inside the adsorbent bed of adsorption cooling cycles can cause low syst...
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 study deals with the complete dynamic analysis (numerical and practical) of an existing adsorpti...
A transient two dimensional local thermal non-equilibrium model is developed to investigate the infl...
The aim of the study was to examine the efficiency of the thermal wave type adsorption refrigerating...
In this study a methodology is developed for the design of a packed bed reactor to be used in a Chem...
In this study, the influence of the adsorbent bed dimensions, convective heat transfer coefficient b...
This work describes a novel method that enables the calculation of a series of adsorption isotherms ...
A thermodynamic model is developed to predict trends in limiting COP of an adsorption cooling cycle ...
A comparison among three adsorption pairs (activated carbon-methanol, silica gel-water and 13X molec...
A novel cycle in which adsorbent heat transfer is enhanced by forced convection is described. The cy...