Special Issue: Thermodynamic Optimization, Exergy Analysis, and Constructal Design

A. Z. Sahin; E. M. Mokheimer; H. M. Bahaidarah; M. A. Antar; P. Gandhidasan; R. Ben-Mansour; S. Al-Dini; S. Rchman; A. Bejan; M. A. AI-Nimr; H. F. Oztop; L. Chen; A. Midilli; J. Lawrence

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Special Issue: Thermodynamic Optimization, Exergy Analysis, and Constructal Design

机译：特刊：热力学优化，火用分析和结构设计

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Thermodynamic optimization is carried out to bring the design of a thermal system as closely as possible to the theoretical limit of performance. The theoretical limit of performance is determined by exergy analysis. In practice, the design and performance of a thermal system will not reach to their perfect theoretical limits because of the constraints related to size, time, cost and etc. Thermodynamic optimization aims at identifying the mechanisms and system components that are responsible for thermodynamic losses. In thermodynamic optimization the sizes of these thermodynamic losses are determined, and design of system components is carried out within the global constraints to minimize the losses. Further consideration is made to minimize the costs due to construction and operation of the energy system in the global thermodynamic optimization and the development of system architecture.

机译：进行热力学优化可以使热系统的设计尽可能接近理论性能极限。性能的理论极限由火用分析确定。在实践中，由于尺寸，时间，成本等方面的限制，热系统的设计和性能不会达到其理想的理论极限。热力学优化旨在确定造成热力学损失的机理和系统组件。在热力学优化中，确定这些热力学损失的大小，并在全局约束内进行系统组件的设计，以使损失最小化。在全局热力学优化和系统体系结构开发中，需要进一步考虑以使由于能源系统的构建和运行而导致的成本最小化。

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《Arabian Journal for Science and Engineering》 |2013年第2期|219-219|共1页
作者
A. Z. Sahin; E. M. Mokheimer; H. M. Bahaidarah; M. A. Antar; P. Gandhidasan; R. Ben-Mansour; S. Al-Dini; S. Rchman; A. Bejan; M. A. AI-Nimr; H. F. Oztop; L. Chen; A. Midilli; J. Lawrence;
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收录信息美国《科学引文索引》(SCI);
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正文语种 eng
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Special Issue: Thermodynamic Optimization, Exergy Analysis, and Constructal Design

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