PARAMETERS ANALYSIS OF A THERMAL INSTALLATION WITH HEAT PIPE VACUUM TUBE SOLAR COLLECTOR
Keywords:
Energy conversion, solar heating, renewable energy sources, thermal variables measurement, thermal variable control
Abstract
This paper deals with a major technical problem, namely the use of solar energy to produce thermal energy. In this sence has been studied the behaviour of a thermal installations with heat pipe vacuum tube solar collector, being analyzed the behaviour of the system depending on climatic parameters, thus determining the operating parameters of the centralized system.
References
1. Mircea I. Gordan, Cornelia E. Gordan, & P.A. Pop, Modern Method used for Measuring the Intensity of Solar Radiations, Annals of DAAAM for 2012 & Proceedings of the 23rd International DAAAM Symposium, ISBN 978-3-901509-91-9, ISSN 2304-1382, Editor B[ranko] Katalinic, Published by DAAAM International, Vienna, Austria, pp. 0459 – 0464, 2012.
2. Mircea I. Gordan, Cornelia E. Gordan, Dorina M. Purcaru, Modern method used for solar radiation intensity measurement and data processing, Nonconventional Technologies Review, Romania, pp. 39 – 44, April, 2013.
3. Saffa Riffa, Xiaoli Ma, Recent Developments in the Heat Pipe Technology and Application, a Review, International Journal of Low-Carbon Technologies, pp. 162-177, Apr 2007.
4. Moldovan Vasile, Cîmpan Mihnea, Aspects Regarding To Electrical Power Production From Solar Energy In Bihor County, Nonconventional Technologies Review, vol. XVIII, no. 1/2014, pp. 24-28, March 2014.
5. Codruta Bendea, Marcel Rosca, Gabriel Bendea, Costas Karytsas, Solar Energy Used For Heating And Cooling Systems, Nonconventional Technologies Review, vol. XVII, no. 1/2013, pp. 10-15, April 2013.
6. P. Bourdoukan, E. Wurtz, P. Joubert, M. Spérandio, Potential of solar heat pipe vacuum collectors in the desiccant cooling process: Modelling and experimental results, Solar Energy, Elsevier, ISSN 0038-092X, Volume 82, Issue 12, pp. 1209–1219, December 2008.
7. E. Zambolin, D. Del Col, Experimental analysis of thermal performance of flat plate and evacuated tube solar collectors in stationary standard and daily conditions, Solar Energy, Elsevier, ISSN 0038-092X, Volume 84, Issue 8, pp. 1382–1396, August 2010.
2. Mircea I. Gordan, Cornelia E. Gordan, Dorina M. Purcaru, Modern method used for solar radiation intensity measurement and data processing, Nonconventional Technologies Review, Romania, pp. 39 – 44, April, 2013.
3. Saffa Riffa, Xiaoli Ma, Recent Developments in the Heat Pipe Technology and Application, a Review, International Journal of Low-Carbon Technologies, pp. 162-177, Apr 2007.
4. Moldovan Vasile, Cîmpan Mihnea, Aspects Regarding To Electrical Power Production From Solar Energy In Bihor County, Nonconventional Technologies Review, vol. XVIII, no. 1/2014, pp. 24-28, March 2014.
5. Codruta Bendea, Marcel Rosca, Gabriel Bendea, Costas Karytsas, Solar Energy Used For Heating And Cooling Systems, Nonconventional Technologies Review, vol. XVII, no. 1/2013, pp. 10-15, April 2013.
6. P. Bourdoukan, E. Wurtz, P. Joubert, M. Spérandio, Potential of solar heat pipe vacuum collectors in the desiccant cooling process: Modelling and experimental results, Solar Energy, Elsevier, ISSN 0038-092X, Volume 82, Issue 12, pp. 1209–1219, December 2008.
7. E. Zambolin, D. Del Col, Experimental analysis of thermal performance of flat plate and evacuated tube solar collectors in stationary standard and daily conditions, Solar Energy, Elsevier, ISSN 0038-092X, Volume 84, Issue 8, pp. 1382–1396, August 2010.
Published
2015-09-30
How to Cite
Soproni, D., Molnar, C., Arion, M., & Hathazi, F. (2015). PARAMETERS ANALYSIS OF A THERMAL INSTALLATION WITH HEAT PIPE VACUUM TUBE SOLAR COLLECTOR. Nonconventional Technologies Review, 19(3). Retrieved from http://revtn.ro/index.php/revtn/article/view/152
Section
Articles