A Study on the Feasibility of Heat Transfer and Transport from Generator/Transmitter Combined Units of Assumed 10MW Space Solar Power System

Details A Study on the Feasibility of Heat Transfer and Transport from Generator/Transmitter Combined Units of Assumed 10MW Space Solar Power System A Study on the Feasibility of Heat Transfer and Transport from Generator/Transmitter Combined Units of Assumed 10MW Space Solar Power System

Dec 2004

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004esasp.567..257o&link_type=abstract

Proceedings of The 4th International Conference on Solar Power from Space - SPS '04, together with The 5th International Confere

Computer Science

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Scientific paper

Feasibility of heat transfer and transport is analyzed for the Space Solar Power System (SSPS) of an assumed 10MW power generation with an idealized generator/ transmitter combined structures. Diameter of the power satellite is 200m, where sunlight is condensed at a magnification of three to reduce the satellite size. Application of boiling and two-phase flow system is a promising method to transport a large amount of thermal energy because it accompanies the transportation of latent heat. The feasibility of thermal energy management was confirmed using boiling and two-phase flow for the 10MW class model, while the enlargement of the power up to 1GW is accompanied by the difficulty of heat removal with high heat generation density from a large area where no technology was developed yet including those for the terrestrial application. In the present research, performance of an example of thin cold plate was tested as a reference to evaluate the performance of cold plates to be developed for boiling and two-phase flow. In addition, a technique to increase the critical heat flux, which gives a limitation of heat removal, was tested and discussed on the basis of experimental results.

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