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THERMODYNAMIC FEASIBILITY OF DOUBLE EFFECT GENERATION ABSORPTION SYSTEM USING WATER-SALT AND ALCOHOL-SALT MIXTURES AS WORKING FLUIDS.

Author(s) : KAUSHIK S. C., CHANDRA S., GADHI S. M. B.

Type of article: Article

Summary

THIS COMMUNICATION PRESENTS A COMPARATIVE THERMODYNAMIC ASSESSMENT OF A DOUBLE EFFECT GENERATION ABSORPTION COOLING CYCLE USING WATER-LITHIUM BROMIDE AND METHANOL-LITHIUM BROMIDE-ZINC BROMIDE AS WORKING FLUIDS. THE PROPOSED SYSTEM CONSISTS OF A SECOND EFFECT GENERATOR BETWEEN THE FIRST EFFECT GENERATOR AND THE CONDENSER ALONG WITH TWO HEAT RECUPERATORS BETWEEN THESE GENERATORS AND THE ABSORBER. A NUMERICAL COMPUTER MODEL BASED ON THE SIMULTANEOUS SOLUTION OF HEAT, MASS AND MATERIAL BALANCE EQUATIONS HAS BEEN CARRIED OUT. THE INFLUENCE OF COMPONENT TEMPERATURE ON THE COOLING CAPACITY AND COP OF THE SYSTEM HAS BEEN INVESTIGATED TO OBTAIN THE OPTIMUM OPERATING CONDITIONS.

Details

Original title: THERMODYNAMIC FEASIBILITY OF DOUBLE EFFECT GENERATION ABSORPTION SYSTEM USING WATER-SALT AND ALCOHOL-SALT MIXTURES AS WORKING FLUIDS.
Record ID : 1985-1925
Languages: English
Source: J. Heat Recov. Syst. - vol. 5 - n. 1
Publication date: 1985
Document available for consultation in the library of the IIR headquarters only.

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Indexing

Themes: Absorption and adsorption systems
Keywords: Computer; Calculation; Bromide; Methanol; Lithium bromide; Absorption system; Zinc; Two-stage system; Optimization; Cascade system; COP; Water-lithium bromide