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Computer simulation of salt gradient solar pond’s thermal behaviour

Author

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  • Husain, M.
  • Patil, P.S.
  • Patil, S.R.
  • Samdarshi, S.K.

Abstract

This paper investigates a few mathematical aspects of computer simulation of salt gradient solar pond’s thermal behavior. The basic equation governing heat flow in the non-convective zone of solar pond is solved by finite difference approach using the Crank–Nicholsen method. Stability and convergence of the method, specifically for the case of solar pond, is examined over a wide range of depth difference (Δx) and time difference (Δt). It is observed that the mesh ratio parameter (r = K Δt/ρCpΔx2) which is used to define the stability and convergence of the method does not have an absolute value, rather its value varies with Δx. While using an actual set of Δx and Δt, the stability must be tested with reference to the set being used. Few other mathematical aspects pertaining to the actual application of the method are also investigated. Also, the effect of fineness of ambient input data on long term performance of the pond is investigated. It is observed that the diurnal variation of ambient input data yields the same accuracy as the hourly variation. Different approaches of calculating the heat losses from upper convective zone are compared for long term performance of the pond. A simple method is suggested to calculate the radiation flux at a depth which results due to multiple reflections between bottom and surface of the pond. The method saves computational time when used for simulation and is also suitable for hand calculations.

Suggested Citation

  • Husain, M. & Patil, P.S. & Patil, S.R. & Samdarshi, S.K., 2003. "Computer simulation of salt gradient solar pond’s thermal behaviour," Renewable Energy, Elsevier, vol. 28(5), pages 769-802.
    • Handle: RePEc:eee:renene:v:28:y:2003:i:5:p:769-802
    DOI: 10.1016/S0960-1481(02)00025-3
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    Citations

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    Cited by:

    1. Ridha Boudhiaf & Ali Ben Moussa & Mounir Baccar, 2012. "A Two-Dimensional Numerical Study of Hydrodynamic, Heat and Mass Transfer and Stability in a Salt Gradient Solar Pond," Energies, MDPI, vol. 5(10), pages 1-22, October.
    2. Ding, L.C. & Akbarzadeh, A. & Tan, L., 2018. "A review of power generation with thermoelectric system and its alternative with solar ponds," Renewable and Sustainable Energy Reviews, Elsevier, vol. 81(P1), pages 799-812.
    3. Bozkurt, Ismail & Deniz, Sibel & Karakilcik, Mehmet & Dincer, Ibrahim, 2015. "Performance assessment of a magnesium chloride saturated solar pond," Renewable Energy, Elsevier, vol. 78(C), pages 35-41.
    4. Husain, M. & Sharma, G. & Samdarshi, S.K., 2012. "Innovative design of non-convective zone of salt gradient solar pond for optimum thermal performance and stability," Applied Energy, Elsevier, vol. 93(C), pages 357-363.
    5. Bezir, Nalan Ç. & Dönmez, Orhan & Kayali, Refik & Özek, Nuri, 2008. "Numerical and experimental analysis of a salt gradient solar pond performance with or without reflective covered surface," Applied Energy, Elsevier, vol. 85(11), pages 1102-1112, November.
    6. Kurt, Hüseyin & Ozkaymak, Mehmet & Binark, A. Korhan, 2006. "Experimental and numerical analysis of sodium-carbonate salt gradient solar-pond performance under simulated solar-radiation," Applied Energy, Elsevier, vol. 83(4), pages 324-342, April.
    7. Shi, Yufeng & Yin, Fang & Shi, Lihua & Wence, Sun & Li, Nan & Liu, Hong, 2011. "Effects of porous media on thermal and salt diffusion of solar pond," Applied Energy, Elsevier, vol. 88(7), pages 2445-2453, July.
    8. Saxena, A.K. & Sugandhi, S. & Husain, M., 2009. "Significant depth of ground water table for thermal performance of salt gradient solar pond," Renewable Energy, Elsevier, vol. 34(3), pages 790-793.

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