Quantifying and minimizing entropy generation in AMTEC cells

IECEC-97 Proceedings of the Thirty-Second Intersociety Energy Conversion Engineering Conference (Cat. No.97CH6203) Pub Date : 1997-12-31 DOI:10.1109/IECEC.1997.661933

T.J. Hendricks, Chendong Huang

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引用次数: 3

Abstract

Entropy generation in an AMTEC cell represents inherent power loss to the AMTEC cell. Minimizing cell entropy generation directly maximizes cell power generation and efficiency. An internal project is on-going at AMPS to identify, quantify and minimize entropy generation mechanisms within an AMTEC cell, with the goal of determining cost-effective design approaches for maximizing AMTEC cell power generation. Various entropy generation mechanisms have been identified and quantified. The project has investigated several cell design techniques in a solar-driven AMTEC system to minimize cell entropy generation and produce maximum power cell designs. In many cases, various sources of entropy generation are interrelated such that minimizing entropy generation requires cell and system design optimization. Some of the tradeoffs between various entropy generation mechanisms are quantified and explained and their implications on cell design are discussed. The relationship between AMTEC cell power and efficiency and entropy generation is presented and discussed.

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定量和最小化熵产生在AMTEC细胞

AMTEC电池中的熵产生表示AMTEC电池固有的功率损失。最小化细胞熵产生直接最大化细胞发电量和效率。AMPS正在进行一个内部项目，以确定、量化和最小化AMTEC电池内的熵产机制，目标是确定成本效益高的设计方法，以最大限度地提高AMTEC电池的发电量。各种熵产生机制已经被确定和量化。该项目在太阳能驱动的AMTEC系统中研究了几种电池设计技术，以最大限度地减少电池熵的产生，并产生最大的能量电池设计。在许多情况下，熵产生的各种来源是相互关联的，因此最小化熵产生需要优化单元和系统设计。各种熵产生机制之间的一些权衡被量化和解释，并讨论了它们对细胞设计的影响。提出并讨论了AMTEC电池功率与效率及熵产之间的关系。

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IECEC-97 Proceedings of the Thirty-Second Intersociety Energy Conversion Engineering Conference (Cat. No.97CH6203)

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