High-Performance Radial AMTEC Cell Design for Ultra-High-Power Solar AMTEC Systems-Reference-Cited by-同舟云学术

High-Performance Radial AMTEC Cell Design for Ultra-High-Power Solar AMTEC Systems

Published:2000-03-12 Issue:2 Volume:122 Page:49-55
ISSN:0199-6231
Container-title:Journal of Solar Energy Engineering
language:en
Short-container-title:

Author:

Hendricks Terry J.¹,Huang Chendong¹

Affiliation:

1. Advanced Modular Power Systems, Inc., 4370 Varsity Drive, Ann Arbor, MI 48108

Abstract

Solar thermal Alkali-Metal-Thermal-to-Electric-Conversion (AMTEC) power systems potentially have several important advantages over current solar photovoltaic power systems in ultra-high-power spacecraft applications for medium-earth orbit (MEO) and geosynchronous orbit (GEO) missions. This work presents key aspects of radial AMTEC cell design to achieve high cell performance in solar AMTEC systems delivering larger than 50 kW(e) with AMTEC cell conversion efficiency larger than 22 percent. A new design parameter methodology is demonstrated establishing optimum design parameters in radial cell design to satisfy high-power mission requirements. Specific temperature- and pressure-dependent relationships define critical dependencies between key cell design parameters, particularly the impact of parasitic thermal losses on Beta Alumina Solid Electrolyte (BASE) area requirements, voltage, BASE tube number, and system power production for maximum power-per-BASE-area and optimum efficiency conditions. High-level system tradeoffs are demonstrated using the design parameter methodology to establish high-power radial cell design requirements and determine optimum radial AMTEC designs. [S0199-6231(00)00102-7]

Publisher

ASME International

Subject

Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment

Link

http://asmedigitalcollection.asme.org/solarenergyengineering/article-pdf/122/2/49/5557233/49_1.pdf

Reference10 articles.

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3. Sievers, R. K., Rasmussen, J. R., and Giglio, J. C., 1998, “Series II AMTEC Cell Development Issues,” Proceedings of 33rd Intersociety Energy Conversion Engineering Conference, Colorado Springs, CO, AMTEC I Session, Paper #98-359.

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5. Hendricks, T. J., Borkowski, C. A., and Huang, C., 1998, “Development and Experimental Validation of a SINDA/FLUINT Thermal/Fluid/Electrical Model of a Multi-Tube AMTEC Cell,” Proceedings of the 1998 Space Technology and Applications International Forum, STAIF-98, American Institute of Physics, Woodbury, New York, AIP Conference Proceedings #420, Part 3, pp. 1491–1501.

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