Dissertation/Thesis Abstract

Economic analysis of solar assisted absorption chiller for a commercial building
by Antonyraj, Gnananesan, M.S.E., The University of Tennessee at Chattanooga, 2012, 84; 1531888
Abstract (Summary)

Dwindling fossil fuels coupled with changes in global climate intensified the drive to make use of renewable energy resources that have negligible impact on the environment. In this attempt, the industrial community produced various devices and systems to make use of solar energy for heating and cooling of building space as well as generate electric power. The most common components employed for collection of solar energy are the flat plate and evacuated tube collectors that produce hot water that can be employed for heating the building space.

In order to cool the building, the absorption chiller is commonly employed that requires hot water at high temperatures for its operation. This thesis deals with economic analysis of solar collector and absorption cooling system to meet the building loads of a commercial building located in Chattanooga, Tennessee. Computer simulations are employed to predict the hourly building loads and performance of the flat plate and evacuated tube solar collectors using the hourly weather data. The key variables affecting the economic evaluation of such system are identified and the influence of these parameters is presented. The results of this investigation show that the flat plate solar collectors yield lower payback period compared to the evacuated tube collectors and economic incentives offered by the local and federal agencies play a major role in lowering the payback period.

Indexing (document details)
Advisor: Dhamshala, Prakash
Commitee: Jones, Michael, McDonald, Gary
School: The University of Tennessee at Chattanooga
Department: Engineering
School Location: United States -- Tennessee
Source: MAI 51/04M(E), Masters Abstracts International
Source Type: DISSERTATION
Subjects: Mechanical engineering, Energy
Keywords: Absorption chillers, Commercial building, Solar cooling, Solar heating
Publication Number: 1531888
ISBN: 978-1-267-85625-8
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