To select a component for solar power plantwith Stirling engines
Keywords:
Electric plant, Stirling engine, solar concentrator, trackerAbstract
This article discusses the creation of solar power(SES) based on Stirling engine with regard to economic and climatic features of Kazakhstan. Creating solar power plants based on Stirling engines is a new and promising area of research in Kazakhstan, as such systems in the world are just beginning to develop. The Stirling engine is more efficient in converting solar radiation into electrical energy (efficiency 18 to 32%) than most modern photovoltaic cells and solar power concentration type. The paper proposes the creation of an experimental SEP low power 1-3 kW, whic hwill be a prototype commercial stations for the needs of the population and for use in remote areas of electrical networks. The selection of the engineare discusses, a solar concentrator and automated tracking system for the sun. Developed for the engine design proposed concentrator and tracker based on its own innovation. Reflectoris proposed to usea light and durablealuminum construction precast, coated by micro-arc oxidation.
References
2. United Sun Systems International Ltd, Generic Presentation, version 2014.4
3. WalkerG. Stirling engine, 1980. Oxford: Oxford University Press.
4. Hirata K. History of Stirling engines.
Web: http://www.bekkoame.ne.jp/~khirata/english/history3.htm, 2011.
5. Lundholm G. The experimental V4X Stirling engine – a pioneering development, Proceedings of the 11th International Stirling engine conference, 19-21. November 2003. Roma: Department of Mechanical and Aeronautical Engineering University of Rome “La Sapienza”.
6. Brignoli V. One year of operation of a SOLO 161 Stirling solar unit in Italy, Proceedings of the 11th International Stirling engine conference, 19-21. November 2003. Roma: Department of Mechanical and Aeronautical Engineering University of Rome “La Sapienza”.
7. Oko-EnergiemaschinenVertriebs GmbH, VyrobceStirlingovychmotoru. Web: http://www.sunmachine.at/, 2012.
8. Oleson, S., Mcguire M., COMPASS Final Report: Radioisotope Electric Propulsion (REP) Centaur Orbiter, New Frontiers Mission, 2011.
9. Geng S., Briggs, M., Penswick B. Test Results From a Pair of 1-kWe Dual-Opposed Free-Piston Stirling Power Convertors Integrated With a Pumped NaK Loop, 2011.
10. Stirling energy. Obchodnizastoupenispolecnosti Cleanergy// Efficient Home Energy. - Brno, 2013.
11. КирилловН.Г. Производстводвигателей Стирлинга – новая отрасль в машиностроении 21 века // Турбины и дизели,2010. - № 8. -С. 2-5.
12. Zhukeshov A.M., Gabdullina A.T., Amrenova A.U., S.P. Pak. Structure and microhardness of steel sumples after pulse plasma flows processing //Materials Sciences and Applications: Scientific Research Publishing, 2013. – №4. – P.35-41.
13. Жукешов А.М., Габдуллина А.Т., Пак С.П., Амренова А.У., Кайбар А., Кульжанова С.К. Принципы разработки вакуумных систем для плазменных приложений /Вестник КазНУ, № 1(40), 2012. - С. 28-32.
14. Жукешов А.М., Габдуллина А.Т., Амренова А.У., Пак С.П. Молдабеков Ж., Мухамедрыскызы М. К воздействию импульсной плазмы на поверхность нержавеющей стали // Известия НАН РК, серия физико-математическая. – 2013. – №2. – С. 71-74.
15. Zhukeshov A. M., Amrenova A. U., Gabdullina A. T. The improvement of stainless steel properties after pulse plasma processing //International Journal of Materials Science and Applications. - Vol. 3, No. 2. – 2013. - Р. 115-119.
