COMPUTATIONAL ANALYSIS OF TRANSIENT TURBULENT FLOW AND CONJUGATE HEAT TRANSFER CHARACTERISTICS IN A SOLAR COLLECTOR PANEL WITH INTERNAL, RECTANGULAR FINS AND BAFFLES

Abstract

The poor thermal exchange between the absorber and the fluid in the solar air flat plate collector, gives the bad performance and the mediocre thermal efficiency. The introduction of obstacles in the dynamic air vein of the solar collector in order to obtain a turbulent flow is a technique that improves the thermal exchange by convection between the air and the absorber. This article present a computational analysis on the turbulent flow and heat transfer in solar air collector with rectangular plate fins absorber and baffles which are arranged on the bottom and top channel walls in a periodically staggered way. To this end we solved numerically, by the finite volumes method, the conservation equations of mass, momentum and energy. The low Reynolds number k-e model was adopted for the taking into account of turbulence. The velocity and pressure terms of momentum equations are solved by the SIMPLE algorithm. The parameters studied include the entrance mass flow rate of air. The influence of the mass flow rate of air on the axial velocity and the efficiency of upward type baffled solar air heaters have been investigated numerically. The results show that the flow and the heat transfer characteristics are strongly dependent on mass-flow rate of air and the presence and/or the absence of the baffles and fins in the solar collector. It was observed that increasing the Reynolds number will increase the efficiency of the solar panel, as expected.

Dates

  • Submission Date2009-02-07
  • Revision Date2009-02-28
  • Acceptance Date2009-03-26

DOI Reference

10.2298/TSCI1001221S

References

  1. Yang, Y., Hwang, C. Z., Calculation of Turbulent Flow and Heat Transfer in a Porous-Baffled Channel, International Journal of Heat and Mass Transfer, 46 (2003), 5, pp. 771-780
  2. Patankar, S. V., Liu, C. H., Sparrow, E. M., Fully Developed Flow and Heat Transfer in Ducts Having Streamwise-Periodic Variation of Cross-Sectional Area, J. of Heat Transfer, 99 (1977), 2, pp. 180-186
  3. Kelkar, K. M., Patankar, S. V., Numerical Prediction of Flow and Heat Transfer in Parallel Plate Channel with Staggered Fins, Journal of Heat Transfer, 109 (1987), 1, pp. 25-30
  4. Berner, C., Durst, F., McEligot, E. M., Numerical Study of Fluid Flow and Heat Transfer in a Parallel Plate Channel with Baffles, Journal of Heat Transfer, 106 (1984), 4, pp. 743-754
  5. Webb, B.W., Ramadhyani, S., Conjugate Heat Transfer in a Channel with Staggered Ribs, International Journal of Heat and Mass Transfer, 28 (1985), 9, pp. 1679-1687
  6. Lopez, J. R., Anand, N. K., Fletcher, L. S., Heat Transfer in a Three-Dimensional Channel with Baffles, Numerical Heat Transfer, 30 (1996), 2, pp. 189-205
  7. Cheng, C. H. , Huang, W. H. , Numerical Prediction for Laminar Forced Convection in Parallel-Plate Channels with Transverse Fin Arrays, International Journal of Heat and Mass Transfer, 34 (1991), 11, pp. 2739-2749
  8. Founti, M. A. , Whitelaw, J. H., Shell Side Flow in a Model Disc and Doughnut Heat Exchanger, Tech. Report FS/81/37, Mech. Eng. Dept., Imperial College, London, UK, 1981
  9. Berner, C., Durst,F., McEligot, D. M. , Flow Around Baffles, Trans. ASME J. Heat Transfer, 106 (1984), 4, pp. 743-749
  10. Berner, C., Durst,F., McEligot, D. M., Streamwise-Periodic Flow Around Baffles, Proceedings, 2nd International Conference on Applications of Laser Anemometry to Fluid Mechanics, Lisbon, 1984, pp. I4-I5
  11. Habib, M. A., et al., Experimental Investigation of Heat Transfer and Flow over Baffles of Different Heights, Trans. ASME Journal of Heat Transfer, 116 (1994), 2, pp. 363-368
  12. Bazdid-Tehrani, F., Naderi-Abadi, M., Heat and Fluid Flow in Entrance Region of a Channel with Staggered Baffles, International Communication on Heat Mass Transfer, 31 (2004), 15-16, pp. 2011-2019
  13. Ackermann, J. A., Ong, L-E., Lau, S. C., Conjugate Heat Transfer in Solar Collector Panels with Internal Longitudinal Corrugated Fins - Part I: Overall Results, Forschung in Ingenieurwesen, 61 (1995), 4, pp. 84-92
  14. Bhargava, A. K., Garg, H. P., Sharma, V. K., Evaluation of the Performance of Air Heaters of Conventional Designs, Solar Energy , 29 (1982), 6, pp. 523-533
  15. Wijeysundera, N. E., Ah, L. L., Tjioe, L. E., Thermal Performance Study of Two Pass Solar Air Heaters, Solar Energy, 28 (1982), 5, pp. 363-370
  16. Youcef-Ali, S., Study and Optimization of the Thermal Performances of the Offset Rectangular Plate Fin Absorber Plates, with Various Glazing, Renewable Energy, 30 (2005), 2, pp. 271-280
  17. Youcef-Ali, S., Desmons, J.Y., Numerical and Experimental Study of a Solar Equipped with Offset Rectangular Plate Fin Absorber Plate, Renewable Energy, 31 (2006), 13, pp. 2063-2075
  18. Moummi, N., Youcef-Ali, S., Moummi, A., Desmons, S., Energy Analysis of a Solar Air Collector with Rows of Fins, Renewable Energy, 29 (2004), 13, pp. 2053-2064
  19. Jones, W. P., Launder, B. E., The Calculation of Low-Reynolds Number Phenomena with a Two-Equation Model of Turbulence, International Journal Heat Mass Transfer, 16 (1981), 6, pp. 1119-1130
  20. Versteeg, H. K., Malalasekera, W., An Introduction to Computational Fluid Dynamics; The Finite Volume Method, Longman Scientific and Technical, London, 1995
  21. McAdams, W. H., Heat Transmission, 3rd ed., McGraw-Hill, New York, USA, 1954
  22. Capderou, M., Solar Atlas of Algeria: Energetic Aspect (in French), Vol. 2, Office des Publications Universitaires, Algeria, 1985
  23. Whillier, A., Solar Energy Collection and Its Utilization for House Heating, Ph. D. thesis, MIT, Cambridge, Mass., USA, 1953
  24. Hottel, H. C., Whillier, A., Evaluation of Flat Plate Collector Performance, Transaction of the Conference on the Use of Solar Energy, University of Arizona Press, Vol. 2, 1958, pp. 74-104
  25. Whillier, A., Applications of Solar Energy for Heating and Cooling of Buildings, ASHRAE, New York, 1977, pp. 27-40
  26. Patankar, S. V., Numerical Heat Transfer and Fluid Flow, Hemisphere Publ. Comp., Washington, DC, 1980
  27. Ben Slama, R., The Air Solar Collectors: Comparative Study, Introduction of Baffles to Favor the Heat Transfer, Solar Energy, 81 (2007), 1, pp. 139-149
  28. Latif, M. J., Heat Convection, Springer-Verlag, Berlin Heidelberg, 2006
Volume 14, Issue 1, Pages221 -234