Shape Optimized Heliostats for Kinematic Sun Tracking
Author:
Publisher
Springer International Publishing
Link
http://link.springer.com/content/pdf/10.1007/978-3-319-06698-1_45
Reference13 articles.
1. Bonanos, A., Noone, C., Mitsos, A.: Reduction in spot size via off-axis static and dynamic heliostat canting. In: Proceeding of ASME 6th International Conference on Energy Sustainability and 10th Fuel Cell Science Engineering and Technology Conference, San Diego, CA (2012)
2. Buie, D., Monger, A.G., Dey, C.J.: Sunshape distributions for terrestrial solar simulations. Solar Energy 74(2), 113–122 (2003)
3. Chen, Y.T., Chong, K.K., Bligh, T.P., et al.: Non-imaging focusing heliostat. Solar Energy 71(3), 155–164 (2001)
4. Igel, E., Hughes, R.: Optical analysis of solar facility heliostats. Solar Energy 22(3), 283–295 (1979)
5. Kalogirou, S.A.: Solar thermal collectors and applications. Progressin. Energy and Combust. Sci. 30(3), 231–295 (2004)
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