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DYNAMIC SIMULATION OF AN AMMONIA-WATER ABSORPTION CYCLE SOLAR HEAT PUMP WITH INTEGRAL REFRIGERANT STORAGE.

Author(s) : KAUSHIK S.

Type of article: Article

Summary

A SIMULATION MODEL OF AN AMMONIA-WATER ABSORPTION CYCLE SOLAR HEAT PUMP WITH INTEGRAL REFRIGERANT STORAGE IS REPORTED. INCIDENT SOLAR RADIATION, AMBIENT AND ROOM TEMPERATURES AND THE CONSTANT FLOW RATE OF THE PUMP ARE THE INPUT TO THE MODEL BASED ON THE HEAT AND MASS BALANCES. FIRST THE SYSTEM IS OPTIMIZED BY RUNNING THE MODEL AT AVERAGE CONDITIONS AND SELECTING THE BEST VALUES OF THE DESIGN PARAMETERS (SYSTEM COMPONENT TEMPERATURES, ENERGY FLOWS AND COP). THE DYNAMIC MODEL IS DEVELOPED TO PREDICT THE FEASIBILITY OF THE REFRIGERANT STORAGE FOR MATCHING THE HEATING LOAD DURING THE OFF-GENERATION PERIOD BY CAREFUL CONTROL OF THE REFRIGERANT FLOW FROM THE STORE.

Details

Original title: DYNAMIC SIMULATION OF AN AMMONIA-WATER ABSORPTION CYCLE SOLAR HEAT PUMP WITH INTEGRAL REFRIGERANT STORAGE.
Record ID : 1986-0347
Languages: English
Source: J. Heat Recov. Syst. - vol. 5 - n. 2
Publication date: 1985
Document available for consultation in the library of the IIR headquarters only.

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Indexing

Themes: Small-scale cryogenic applications, cryocoolers
Keywords: Computer; Calculation; Design; Ammonia-water; Absorption system; Simulation; Heat pump; Performance; Solar energy; Thermal energy storage