Performance Analysis of a Cascading Adsorption Cycle Powered by High-Temperature Heat Sources for Low-Temperature Cooling in Hot Climates - imarina:8786606
Abbaz, Dalila; Chaker, Abla; Bourouis, Mahmoud; (2020). Performance Analysis of a Cascading Adsorption Cycle Powered by High-Temperature Heat Sources for Low-Temperature Cooling in Hot Climates. Journal Of Thermal Science And Engineering Applications, 12(5), -. DOI: 10.1115/1.4046606
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Journal Of Thermal Science And Engineering Applications. 12 (5):
Abstract:
Cascade adsorption refrigeration technology using high-temperature driving heat is a very promising option for low-temperature cooling applications due to the large temperature difference between the heat source and the cold distributed. The present work carried out a feasibility and parametric study in order to analyze the functioning of a cascading adsorption cycle using the working pair zeolite/ammonia in beds operating at high temperatures and activated carbon/ammonia in those operating at low temperatures. At the nominal thermal conditions, namely, heating, condensing, and evaporating temperatures of 280 degrees C, 35 degrees C, and (-5) degrees C, respectively, the coefficient of performance (COP) and the specific refrigerating capacity (SCP) of the cycle were 0.53 and 67.1 W/kg. When the driving temperature is varied from 260 degrees C to 320 degrees C, the COP increases by 57% and the SCP by 36%. The performance of the cascading adsorption cycle at negative evaporating temperatures is very satisfactory.
Cascade adsorption refrigeration technology using high-temperature driving heat is a very promising option for low-temperature cooling applications due to the large temperature difference between the heat source and the cold distributed. The present work carried out a feasibility and parametric study in order to analyze the functioning of a cascading adsorption cycle using the working pair zeolite/ammonia in beds operating at high temperatures and activated carbon/ammonia in those operating at low temperatures. At the nominal thermal conditions, namely, heating, condensing, and evaporating temperatures of 280 degrees C, 35 degrees C, and (-5) degrees C, respectively, the coefficient of performance (COP) and the specific refrigerating capacity (SCP) of the cycle were 0.53 and 67.1 W/kg. When the driving temperature is varied from 260 degrees C to 320 degrees C, the COP increases by 57% and the SCP by 36%. The performance of the cascading adsorption cycle at negative evaporating temperatures is very satisfactory.
Condensed Matter Physics,Engineering (Miscellaneous),Engineering, Mechanical,Fluid Flow and Transfer Processes,Materials Science (Miscellaneous),Thermodynamics Zeolite Working pairs Water Thermal systems Systems Refrigeration Low-temperature cooling Ice Heat exchangers Heat and mass transfer Cascading cycle Ammonia Adsorption refrigeration Adsorbent Activated carbon Thermodynamics Materials science (miscellaneous) Materials science (all) General materials science General engineering Fluid flow and transfer processes Engineering, mechanical Engineering (miscellaneous) Engineering (all) Engenharias iii Condensed matter physics