THERMODYNAMIC FEASIBILITY OF AN ABSORBER HEAT RECOVERY CYCLE FOR SOLAR AIR CONDITIONING.

Type of article: Article

Summary

A FEASIBILITY ANALYSIS OF A WATER-LITHIUM BROMIDE ABSORBER HEAT RECOVERY ABSORPTION COOLING SYSTEM, SUITABLE FOR SOLAR AIR CONDITIONING IS PRESENTED. THE ABSORBER HEAT COULD BE UTILIZED TO SOME EXTENT FOR REDUCING THE HEAT INPUT REQUIREMENT AT THE GENERATOR AND HENCE IMPROVING THE COP. THE ANALYSIS WAS CARRIED OUT FOR THE PRODUCTION OF 278 AND 283 K EVAPORATOR TEMPERATURES AND CONDENSER AND ABSORBER TEMPERATURES OF 303 K. IT IS CONCLUDED THAT AN ABSORBER HEAT RECOVERY CYCLE YIELDS A HIGHER COP AS COMPARED TO THE BASIC CYCLE AT HIGHER GENERATOR TEMPERATURES, UNLIKE AMMONIA-AQUA ABSORPTION SYSTEMS.

Details

Original title: THERMODYNAMIC FEASIBILITY OF AN ABSORBER HEAT RECOVERY CYCLE FOR SOLAR AIR CONDITIONING.
Record ID : 1986-0327
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: Other air-conditioning equipment
Keywords: Calculation; Heat recovery; Absorption system; Performance; Solar energy; COP; Air conditioning; Water-lithium bromide