1. حاج سقطی، اصغر، "اصول و کاربرد انرژی خورشیدی"، چاپ دوم، تهران: مرکز انتشارات دانشگاه علم و صنعت ایران، (1380).
2. Ali, I., Saleh, M., et al. "An optical analysis of a static 3-D solar concntrator", Solar Energy, Vol. 88, pp. 57-70, (2013).
3. Kaushika, N. D., and Reddy, K. S., "Performance of a low cost solar paraboloidal dish steam generating system", Energy Conversion and Management, Vol. 41.7, pp. 713-726, (2000).
4. El Ouederni, A. R., et al. "Experimental study of a parabolic solar concentrator", Revue des Energies Renouvelables, Vol. 12.3, pp. 395-404, (2009).
5. Rafeeu, Y., and Ab Kadir, M. Z. A., "Thermal performance of parabolic concentrators under Malaysian environment: A case study", Renewable and Sustainable Energy Reviews, Vol. 16.6, pp. 3826-3835, (2012).
6. Liu, Z., Justin, L., and Wojciech, L., "Optical design of a flat-facet solar concentrator", Solar Energy Vol. 86.6, pp. 1962-1966, (2012).
7. Qianjun, M., et al. "Study on solar photo‐thermal conversion efficiency of a solar parabolic dish system", Environmental progress & Sustainable energy, Vol. 33.4, pp. 1438-1444, (2014).
8. Eswaramoorthy, M., and Shanmugam, S., "The thermal performance of a low cost solar parabolic dish collector for process heat", Energy Sources, Part A: Recovery, Utilization, and Environmental Effects Vol. 34.18, pp. 1731-1736, (2012).
9. Reddy, K. S., Sendhil, K. Natarajan., and Veershetty, G., "Experimental performance investigation of modified cavity receiver with fuzzy focal solar dish concentrator", Renewable Energy, Vol. 74, pp. 148-157, (2015).
10. Jones, Peter D., and Wang, L., "Concentration distributions in cylindrical receiver/paraboloidal dish concentrator systems", Solar Energy, Vol. 54.2, pp. 115-123, (1995).
11. Thakkar, Vanita, Ankush Doshi, and Akshaykumar Rana, "Performance analysis methodology for parabolic dish solar concentrators for process heating using thermic fluid", IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE), Vol. 12.1, pp. 101-114, (2015).
12. Blázquez, R., et al. "Optical test of the DS1 prototype concentrating surface", Energy Procedia, Vol. 69, pp. 41-49, (2015).
13. Li, Zhigang, et al. "Study on the radiation flux and temperature distributions of the concentrator–receiver system in a solar dish/Stirling power facility", Applied Thermal Engineering, Vol. 31.10, pp. 1780-1789, (2011).
14. Shuai, Yong, Xin-Lin Xia, and He-Ping Tan, "Radiation performance of dish solar concentrator/cavity receiver systems", Solar Energy, Vol. 82.1, pp. 13-21, (2008).
15. Pavlovic, S., et al. "Design and Simulation of a Solar Dish Concentrator with Spiral-Coil Smooth Thermal Absorber", International Review of Applied Sciences and Engineering, Vol. 8.1, pp. 45-50, (2017).
16. Jeter, S. M., "The distribution of concentrated solar radiation in paraboloidal collectors", Journal of Solar Energy Engineering, Vol. 108.3, pp. 219-225, (1986).
17. Schubnell, M., "Sunshape and its influence on the flux distribution in imaging solar concentrators", Journal of solar energy engineering, Vol. 114.4, pp. 260-266, (1992).
18. Affandi, Rosnani, et al. "The impact of the solar irradiation, collector and the receiver to the receiver losses in parabolic dish system", Procedia-Social and Behavioral Sciences, Vol. 195, pp. 2382-2390, (2015).
19. Sakhare, Vinayak, and Kapatkar, V. N., "Experimental analysis of parabolic solar dish with copper helical coil receiver", Int J Innov Res Adv Eng (IJIRAE), Vol. 1.8, pp. 199-204, (2014).
20. Li, L., and Steven, D., " A New Design Approach for Solar Concentrating Parabolic Dish Based on Optimized Flexible Petals", Journal Mechanism and Machine Theory, Vol. 46.10, pp. 1536-1548, (2011).
21. Mon, Mya Mya, Myat Myat Soe, and Maw Maw Htay. "3D Modeling of Temperature Distribution for Absorber Tube of Parabolic Trough Collector", International Journal of Engineering and Applied Sciences, Vol. 2.6, pp. 99-103, (2015).
22. Hafez, A. Z., et al., "Solar parabolic dish Stirling engine system design, simulation, and thermal analysis." Energy Conversion and Management, Vol. 126, pp. 60-75, (2016).
23. Reddy, K. S., and N. Sendhil Kumar. "Combined laminar natural convection and surface radiation heat transfer in a modified cavity receiver of solar parabolic dish", International Journal of Thermal Sciences, Vol. 47.12, pp. 1647-1657, (2008).
24. Rojas-Morín, A., Flores-Salgado, Y., Barba-Pingarrón, A., Valdez-Navarro, R., Méndez, F., Alvarez, O., and Salgado-Baltazar, M., "Thermal analysis for the solar concentrating energy and induction heating for metals", in: Proceedings of the 2013 COMSOL Conference, Rotterdam, Holland, Vol. 1, pp. 1-16, (2013).
25. Thirunavukkarasu, V., and Cheralathan, M., "An experimental study on energy and exergy performance of a spiral tube receiver for solar parabolic dish concentrator", Energy, Vol. 192, pp. 116635, (2020).
26. Venkatachalam, T., and Cheralathan, M., "Effect of aspect ratio on thermal performance of cavity receiver for solar parabolic dish concentrator: An experimental study", Renewable energy, Vol. 139, pp. 573-581, (2019).
27. Avargani, V. M., Karimi, R., and Gheinani, T. T., "Mathematical modeling of an integrated system for regeneration of solid desiccants using a solar parabolic dish concentrator", International Journal of Heat and Mass Transfer, Vol. 142, pp. 118479, (2019).
28. Cherif, H., Ghomrassi, A., Sghaier, J., Mhiri, H., & Bournot, P., "A receiver geometrical details effect on a solar parabolic dish collector performance", Energy Reports, Vol. 5, pp. 882-897, (2019).
29. Wang, L., Yuan, Z., Zhao, Y., & Guo, Z., "Review on development of small point-focusing solar concentrators", Journal of Thermal Science, Vol. 28(5), pp. 929-947, (2019).
30. Baydyk, T., Kussul, E., and Wunsch II, D. C., "Solar Concentrators with Flat Mirrors", In Intelligent Automation in Renewable Energy, part of Computational Intelligence Methods and Applications book series, Springer, Cham, pp. 23-43, (2019).
31. Pavlović, S. R., Bellos, E. A., Stefanović, V. P., Tzivanidis, C., and Stamenković, Z. M., "Design, simulation and optimization of a solar dish collector with spiral-coil thermal absorber", Thermal science, Vol. 20(4), pp. 387-1397, (2016).
32. Pavlović, S. R., Bellos, E. A., Stefanović, V. P., Tzivanidis, C., and Stamenković, Z. M., "Design, simulation and optimization of a solar dish collector with spiral-coil thermal absorber", Thermal science, Vol. 20(4), pp. 1387-1397, (2016).
33. Álvarez-Brito and Salgado-Baltazar, M., "Thermal Analysis for the Solar Concentrating Energy and Induction Heating for Metals", In: Proceedings of the 2013 COMSOL Conference, Rotterdam, Holland, Vol. 1, pp. 1-16, (2013).
34. Comsol, A. B. Heat Transfer Module, User´s Guide, COMSOL. COMSOL Multiphysics R, Stockholm, Sweden, Version 5, (2018).
35. Dehaj, M. S., and Mohiabadi, M. Z., "Experimental investigation of heat pipe solar collector using MgO nanofluids", Solar Energy Materials and Solar Cells, Vol. 191, pp. 91-99, (2019).
ارسال نظر در مورد این مقاله