A trend of research on solar thermal system on industrial energy
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Published:
Apr 12, 2017
Keywords:
solar energy fuel thermal
Main Article Content
Abstract
This academic review article presents the application of solar radiation in forms of solar thermal as a primary thermal source or alternative energy source for another kind of energy in fields of industry, alternative energy production, energy production fields, hydrogen fuel production, which are important energy sources in the future. The result indicated that the utilization of solar radiation by means of the solar thermal production using solar radiation with different kinds of solar radiant collectors integrated with other kinds of energy sources could increase system stability. It was also an appropriate and potential way in promoting energy preservation and alternative energy production. Moreover; this application can be used to transform solar energy of solar radiation into other forms of energy: chemical reaction energy, electric energy, fuel, thermal). Therefore, the transformation of solar radiation can be widely used for direct and indirect benefits at present and in the future.
Article Details
How to Cite
Jareanjit, J., & Srisuwan, K. (2017). A trend of research on solar thermal system on industrial energy. Asia-Pacific Journal of Science and Technology, 18(1), 80–99. Retrieved from https://so01.tci-thaijo.org/index.php/APST/article/view/82818
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Research Articles
References
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[2] Pagnarith K. Limmeechokchai B. Songklanakarin J. Sci. Technol. 2011; 33(3): 305-313.
[3] Jareanjit J. A Solar Dryer Technology and Its Development KKU Res. J. 2012; 17(1): 110-124. Thai.
[4] Jareanjit J, Dusamoh Y, Detsopha S, Chuyin S. A Solar Dryer & Moisture Condensing Cabinet with Thermosyphon Heat Flow. KKU Engineering Journal. 2011; 38(1): 35-42. Thai.
[5] Fudholi A, Sopian K, Ruslan HM, Alghoul MA, Sulaiman MY. Review of solar dryers for agricultural and marine products. Renewable and Sustainable Energy Reviews. 2010; 14: 1-30.
[6] Sharma A, Chen CR, Vu Lan N. Solar-energy drying systems: A review. Renewable and Sustainable Energy Reviews. 2009; 13: 1185-210.
[7] Jareanjit J, Niyomvas B. An Experimental Study on Performance Desalination of Solar Still with Sunray-Refl ecting. KKU Engineering Journal. 2011; 38 (3): 265 -274. Thai.
[8] Zurigat YH, Abu-Arabi MK. Modeling and performance analysis of a regenerative solar desalination unit. Applied Thermal Engineering. 2004; 24: 1061-1072.
[9] Tiwari GN, Singh HN, Tripathi R. Present status of solar distillation. Solar Energy. 2003; 75: 367-363.
[10] Norton B. Solar Energy. [Internet]. 2012 [cited 2012 Feb 16].Available from: http://www.thermopedia.com/content/1136
[11] Pinel P, Cynthia A, Cruickshank, Morrison IB, Wills A. A review of available methods for seasonal storage of solar thermal energy in residential applications. Renewable and Sustainable Energy Reviews. 2011; 15: 3341- 3359.
[12] Kalogirou SA. Solar thermal collectors and applications. Progress in Energy and Combustion Science. 2004; 30:231-295.
[13] Gil A, Medrano M, Martorell I, La.zaro A, Dolado P, Zalba B, Cabeza LF. State of the art on high temperature thermal energy storage for power generation.Part1-concepts, materials and modellization. Renewable and Sustainable Energy Reviews. 2010; 14(1): 31-55.
[14] Barlev D, Vidu R, Stroeve P. Review Innovation in concentrated solar power. Solar Energy Materials & Solar Cells. 2011; 95: 2703-25.
[15] Kalogirou SA. The potential of solar industrial process heat applications. Apply Energy. 2003; 76:337-61.
[16] Vorayos N, Wongsuwan W, Kiatsiriroat T. Development of Solar Hot Water Systems in Thailand. Engng.J.CMU. 2009; 16 (2): 55-69. Thai
[17] Pimentel D, Patzek TW. Ethanol Production Using Corn, Switchgrass, and Wood; Biodiesel Production Using Soybean and Sunflower. Natural Resources Research. 2005; 14(1): 65-76.
[18] Pleanjai S, Gheewala SH. Full chain energy analysis of biodiesel production from palm oil in Thailand. Applied Energy. 2009; 86: S209-S214. (19) Siangsukone P, Jareanjit J, Therdyothin A, Tia W, Wongwailikit K, Tiansuwan J. The Development of Solar Ethanol Distillation for Thai Local Community. Proceedings of The 8th Asean Science and Technology Week Scientifi c and Technical Conferences; 2008 July 3-4; Hotel Sofi tel, Pasay City. Philippines.
[20] Jareanjit J, Siangsukone P, Therdyothin A, Tia W, Wongwailikit K, Tiansuwan J. Modifi cation of Thai Local Brewery Tank for a Large Scale Solar Ethanol Distillation Plant. Proceedings of the International Workshop on Advanced Material for New and Renewable Energy 2009; 2009 June 9-11; Putri Duyung Cottage Ancol, Jakarta. Indonesia.
[21] Buapoom W, Thepa S, Sudaprasert K. Solar Energy Assisted in Biodiesel Production. In: Proceedings of the 1st Energy, Environment and Materials; 2007 Aug 31; Twin Tower Hotel Bangkok, Thailand; 2007. p. 1-9. (In Thai).
[22] Hou Z, Zheng D. Solar utility and renewability evaluation for biodiesel production process. Applied Thermal Engineering. 2009; 29:3169-3174.
[23] Kreith FJ, Goswami DY. Handbook of Energy Effi ciency and Renewable Energy, Boca Raton, Fla.: CRC Press. 2007.
[24] Quaschning V. Solar Power Plant, Renewable energy and climate change, English; 2010. p.144-164.
[25] Klaiß H, Köhne R, Nitsch J, Sprengel U. Solar thermal power plants for solar countries -Technology economics and market potential. Applied Energy. 1995; 52(2-3):165-183.
[26] Martin Kaltschmitt, Wolfgang Streicher, Andreas Wiese, 2007, Renewable Energy Technology and Environment, Springer-Verlag Berlin Heidelberg.
[27] Saleh B, Koglbauer G, Wendland M, Fischer J. Working fluids for low-temperature organic Rankine cycles. Energy. 2007; 32: 1210-1221.
[28] Ball M, Wietschel M. The future of hydrogen opportunities and challenges. International Journal of Hydrogen Energy. 2009; 34: 615-627.
[29] Edwards PP, Kuznetsov VL, David WIF, Brandon NP. Hydrogen and Fuel Cell: Towards a sustainable energy future. Energy Policy. 2008; 36: 4356 -4362.
[30] Yilanci A, Dincer I, Ozturk HK. A review on solar-hydrogen/fuel cell hybrid energy systems for stationary applications. Progress in Energy and Combustion Science 35 (2009) 231-244.
[31] Wanchanthuek R. Hydrogen Gas: The Expectation to Be a Promising Sustainable Energy Source. Burapha Sci. J. 2011; 16(1): 131-140. Thai.
[32] High-temperature Water Splitting. [Internet]. 2008 [updated 2008 Dec 12; cited 2012 Feb 16]. Available from: http://www1.eere.energy.gov/hydrogenandfuelcells/production/water_splitting.html
[33] Zedtwitz PV, Petrasch J, Trommer D, Steinfeld A. Hydrogen production via the solar thermal decarbonization of fossil fuels. Solar Energy. 2006; 80: 1333-1337.
[34] Ozalp N, Kogan A, Epstein M. Review Solar decomposition of fossil fuels as an option for sustainability. international journal of hydrogen energy. 2009:710-720.