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International Journal of Green Energy Volume 12, 2015 - Issue 9
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Original Articles

Efficiency Analysis of an Air Solar Flat Plate Collector in Different Convection Modes

Amir HematianDepartment of Agricultural Machinery Engineering, Faculty of Agriculture, University of Tabriz, Iran
&
Amir Abbas BakhtiariDepartment of Biosystems Engineering, Faculty of Agriculture, University of Tabriz, IranCorrespondence[email protected]
Pages 881-887 | Published online: 09 Apr 2015

References

  • Aboltins, A., J. Palabinskis, A. Lauva, and G. Ruškis. 2009. Investigation of air solar collector efficiency. Proceedings of the 8th International Scientific Conference on Engineering for Rural Development Engineering for Rural Development 1:176–81.
  • Al-Nimr, M.A., B. Khuwaileh, and M. Alata. 2011. A novel integrated direct absorption self-storage solar collector. International Journal of Green Energy 8(6):618–30.
  • Asaad, M., S.B. Abu-Zour, R. Riffat, and R. Wilson. 2005. Comparison between heat pipe and direct heat exchange solar louvre collectors. International Journal of Green Energy 2(4):353–64.
  • Assari, M.R., H. Basirat Tabrizi, I. Jafari, and E. Najafpour. 2014. An energy and exergy analysis of water and air with different passage in a solar collector. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 36(7):747–54.
  • Berzinš, E., E. Immermanis, and E. Lukevics. 1998. The results of investigations of model of air solar collector. Proceedings of the Latvia University of Agriculture 16(293):54–7. (in Latvian)
  • Chen, Z., M. Gu, D. Peng, C. Peng, and Z. Wu. 2010. A numerical study on heat transfer of high efficient solar flat-plate collectors with energy storage. International Journal of Green Energy 7(3):326–36.
  • Chena, L., and X. Zhang. 2014. Experimental analysis on a novel solar collector system achieved by supercritical CO2 natural convection. Energy Conversion and Management 77:173–82.
  • El-Sawi, A.M., A.S. Wifi, M.Y. Younan, E.A. Elsayed, and B.B. Basily. 2010. Application of folded sheet metal in flat bed solar air collectors. Applied Thermal Engineering 30:864–71.
  • Forson, F.K., M.A.A. Nazha, and H. Rajakaruna. 2003. Experimental and simulation studies on a single pass, double duct solar heater. Energy Conversion and Management 44:1209–27.
  • Ghali, K., N. Ghaddar, and A. Alsaidi. 2011. Experimental and theoretical study of an optimized integrated solar desalination and air conditioning unit. International Journal of Green Energy 8(1):81–99.
  • Grena R. 2011. Efficiency gain of a solar trough collector due to an ir-reflective film on the non-irradiated part of the receiver. International Journal of Green Energy 8(7):715–33.
  • Hematian, A., Y. Ajabshirchi, H. Behfar, and H. Ghahramani. 2012. Designing, construction and analysis of speed control system of the fan with PV feeding source in an air solar collector. Modern Applied Science 6(1):136–44.
  • Karim, M.A., and M.N.A. Hawlader. 2006. Performance evaluation of a v-groove solar air collector for drying applications. Applied Thermal Engineering 26:21–130.
  • Kurtbash, I., and A. Durmush. 2004. Efficiency and exergy analysis of a new solar air heater. Renewable Energy 29(9):1489–501.
  • Lauva, A., A. Aboltins, J. Palabinskis, and N. Karpova-Sadigova. 2009. Comparative studies of the solar material collector. Proceedings of the 5th International Scientific Conference on Engineering for Rural Development, Jelgava, Latvia, pp. 90–94.
  • Liu, T., W. Lin, W. Gao, C. Luo, M. Li, Q. Zheng, and C. Xia. 2007a. A parametric study on the thermal performance of a solar air collector with a v-groove absorber. International Journal of Green Energy 4(6):601–22.
  • Liu, T., W. Lin, W. Gao, and C. Xia. 2007b. A comparative study of the thermal performances of cross-corrugated and v-groove solar air collectors. International Journal of Green Energy 4(4):427–51.
  • Luo, H., R.Z. Wang, and Y.J. Dai. 2010. Optimum matching of heat source temperature to a solar adsorption air-conditioning system for maximum solar cooling coefficient of performance. International Journal of Green Energy 7(1):91–102.
  • Malekzadeh, Gh., and M.H. KashaniHesar. 2004. Fundamental of thermodynamic (translation in Persian). Iran: Nima Publications.
  • Mohanraj, M., S. Jayaraj, and C. Muraleedharan. 2008. Modeling of a direct expansion solar-assisted heat pump using artificial neural networks. International Journal of Green Energy 5(6):520–32.
  • Mohanraj, M., S. Jayaraj, and C. Muraleedharan. 2010. Exergy assessment of a direct expansion solar-assisted heat pump working with r22 and r407c/lpg mixture. International Journal of Green Energy 7(1):65–83.
  • Mohseni Languri, E., H. Taherian, K. Hooman, and J. Reisel. 2011. Enhanced double-pass solar air heater with and without porous medium. International Journal of Green Energy 8(6):643–54.
  • Palabinskis, J., A. Lauva, A. Aboltinš, and N. Karpova-Sadigova. 2008. Movable air solar collector and its efficiency. Proceedings of the 7th International Scientific Conference on Engineering for Rural Development, Jelgava, Latvia, pp. 51–6.
  • Prakasha O., and A. Kumar. 2013. Historical review and recent trends in solar drying systems. International Journal of Green Energy 10(7):690–738.
  • Rhushi Prasad, P., H.V. Byregowda, and P.B. Gangavati. 2010. Experiment analysis of flat plate collector and comparison of performance with tracking collector. European Journal of Scientific Research 40(1):144–55.
  • Riffat, S.B., X. Zhao, R. Boukhanouf, and P.S. Doherty. 2005. Theoretical and experimental investigation of a novel hybrid heat-pipe solar collector. International Journal of Green Energy 1(4):515–42.
  • Struckmann, F. 2008. Analysis of a flat-plate solar collector. Project Report (Heat and Mass Transport), Lund University, Lund, Sweden.
  • Yang, Y., H. Xian, D. Liu, C. Chen, and X. Du. 2009. Investigation on the feasibility of oscillating-flow heat pipe applied in the solar collector. International Journal of Green Energy 6(5):426–36.
  • Yeh, H.M., and T.T. Lin. 1996. Efficiency improvement of flat-plate solar air heaters. Energy 21(7):435–43.
  • Yutong, L., and H. Yang. 2010. Experimental study of an open-cycle solar collector/regenerator using liquid desiccant for air conditioning. International Journal of Green Energy 7(3):273–88.

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