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contributor authorA. McMahan
contributor authorS. A. Klein
contributor authorD. T. Reindl
date accessioned2017-05-09T00:25:37Z
date available2017-05-09T00:25:37Z
date copyrightNovember, 2007
date issued2007
identifier issn0199-6231
identifier otherJSEEDO-28408#355_1.pdf
identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/136761
description abstractFundamental differences between the optimization strategies for power cycles used in “traditional” and solar-thermal power plants are identified using principles of finite-time thermodynamics. Optimal operating efficiencies for the power cycles in traditional and solar-thermal power plants are derived. In solar-thermal power plants, the added capital cost of a collector field shifts the optimum power cycle operating point to a higher-cycle efficiency when compared to a traditional plant. A model and method for optimizing the thermoeconomic performance of solar-thermal power plants based on the finite-time analysis is presented. The method is demonstrated by optimizing an existing organic Rankine cycle design for use with solar-thermal input. The net investment ratio (capital cost to net power) is improved by 17%, indicating the presence of opportunities for further optimization in some current solar-thermal designs.
publisherThe American Society of Mechanical Engineers (ASME)
titleA Finite-Time Thermodynamic Framework for Optimizing Solar-Thermal Power Plants
typeJournal Paper
journal volume129
journal issue4
journal titleJournal of Solar Energy Engineering
identifier doi10.1115/1.2769689
journal fristpage355
journal lastpage362
identifier eissn1528-8986
keywordsOptimization
keywordsPower stations
keywordsSolar energy
keywordsSolar thermal power
keywordsCycles
keywordsIndustrial plants
keywordsHeat exchangers
keywordsThermodynamics
keywordsRankine cycle AND Design
treeJournal of Solar Energy Engineering:;2007:;volume( 129 ):;issue: 004
contenttypeFulltext


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