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Second law based optimization of falling film single tube absorption generator
Jani, S ; Sharif University of Technology | 2004
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- Type of Document: Article
- DOI: 10.1115/1.1795791
- Publisher: 2004
- Abstract:
- The objective of this paper is to provide optimization of falling film LiBr solution on a horizontal single tube based on minimization of entropy generation. Flow regime is considered to be laminar. The effect of boiling has been ignored and wall temperature is constant. Velocity, temperature and concentration distributions are numerically determined and dimensionless correlations are obtained to predict the average heat transfer coefficient and average evaporation factor on the horizontal tube. Thermodynamic imperfection due to passing lithium bromide solution is attributed to nonisothermal heat transfer; fluid flow friction and mass transfer irreversibility. Scale analysis shows that the momentum and mass transfer irreversibilities can be ignored at the expense of heat transfer irreversibility. In the process of optimization, for a specified evaporation heat flux, the entropy generation accompanying the developed dimensionless heat and mass transfer correlations has been minimized and the optimal geometry and the optimum thermal hydraulic parameters are revealed. The investigation cited here indicates the promise of entropy generation minimization as an efficient design and optimization tool. Copyright © 2004 by ASME
- Keywords:
- Absorption ; Desorption ; Film ; Heat transfer ; Optimization ; Second law
- Source: Journal of Heat Transfer ; Volume 126, Issue 5 , 2004 , Pages 708-712 ; 00221481 (ISSN)
- URL: https://asmedigitalcollection.asme.org/heattransfer/article-abstract/126/5/708/476022/Second-Law-Based-Optimization-of-Falling-Film?redirectedFrom=fulltext