A THEORETICAL AND NUMERICAL STUDY OF THERMOSOLUTAL CONVECTION: STABILITY OF A SALINITY GRADIENT SOLAR POND
Abstract
A theoretical and numerical study of the effect of thermodiffusion on the stability of a gradient layer is presented. It intends to clarify the mechanisms of fluid dynamics and the processes which occur in a salinity gradient solar pond. A mathematical modelling is developed to describe the thermodiffusion contribution on the solar pond where thermal, radiative, and massive fluxes are coupled in the double diffusion. More realistic boundary conditions for temperature and concentration profiles are used. Our results are compared with those obtained experimentally by authors without extracting the heat flux from the storage zone. We have considered the stability analysis of the equilibrium solution. We assumed that the perturbation of quantities such as velocity, temperature, and concentration are infinitesimal. Linearized equations satisfying appropriate prescribed boundary conditions are then obtained and expanded into polynomials form. The Galerkin method along with a symbolic algebra code (Maple) are used to solve these equations. The effect of the separation coefficient y is analyzed in the positive and negative case. We have also numerically compared the critical Rayleigh numbers for the onset of convection with those obtained by the linear stability analysis for Le = 100, µa = 0.8, and f = 0.5.
Dates
- Submission Date2010-06-13
- Revision Date2010-09-14
- Acceptance Date2010-10-05
References
- Grani}, G., Renewable Energy Projects in Croatia, Present Situation and Future Activities, Thermal Science, 11 (2007), 3, pp. 55-74
- Houdkova, L., et al., Biogas-A Renewable Source of Energy, Thermal Science, 12 (2008), 4, pp. 27¬-33
- Tabor, H., Weinberger, Z., Nonconvecting Solar Ponds, in: Solar Energy Handbook (Eds. J. F. Kreider, F. Reith), McGraw-Hill, New York, USA, 1980, p. 10
- Hull, J., Nielsen, C. E., Golding, P., Salinity Gradient Solar Ponds, CRC Press, Boca Raton, Fla., USA, 1989
- Folchitto, S., Experience with a Solar Pond at Margherita di Savoia, International Solar Energy Conference, ASME Publications Solar Engineering, 1997, pp. 223-228
- Caldwell, D. R., Experimental Studies on the Onset of Thermohaline Convection, J. Fluid Mech., 64 (1994), 2, pp. 347-367
- Joyce, A., et al., The Portuguese Experience on Salt Gradient Solar Ponds, in: Proceedings, Workshop on Solar Ponds, Tunis, Tunisia, 2001, p. 5
- Alagao, F. B., Akbarzadeh, A., Johnson, P. W., The Design, Construction and Initial Operation of a Closed-Cycle, Salt-Gradient Solar Pond, Solar Energy, 53 (1994), 4, pp. 343-351
- Ramadan, M. R. I., et al., Experimental Testing of a Shallow Solar Pond with Continuous Heat Extraction, Energy Build, 36 (2004), 9, pp. 955-964
- Jaefarzadeh, M. R., Thermal Behavior of a Small Salinity-Gradient Solar Pond with Wall Shading Effect, Solar Energy, 77 (2004), 3, pp. 281-290
- Xiang, Y. L, Kanayama, K., Baba H, Maeda, Y, Experimental Study About Erosion in a Salt Gradient Solar-Pond, Renew. Energy, 23 (2001), 2, pp. 207-17
- Kurt, H., Ozkaymak, M., Binark, A. K., Experimental and Numerical Analysis of Sodium-Carbonate Salt Gradient Solar-Pond Performance under Simulated Solar-Radiation, Applied Energy, 83 (2006), 4, 324-342
- Shukla, S. K., Rai, A. K., Analytical Thermal Modelling of Double Slope Solar Still Using Inner Glass Cover Temperature, Thermal Science Journal, 12 (2008), 3, pp. 139-152
- Velmurugan, V., Kumaran, S., Niranjan Prabhu, V., Sirithar, K., Productivity Enhancement of Stepped Solar Still-Performance Analysis, Thermal Science Journal, 12 (2008), 3, pp. 153-163
- Angeli, C., Leonardi, E., A One-Dimensional Numerical Study of the Salt Diffusion in a Salinity Gradient Solar Pond, Int. J. Heat Mass Transfer, 47 (2004), 1, pp. 1-10
- Alagao, F. B., Simulation of the Transient Behavior of a Closed-Cycle Salt-Gradient Solar Pond, J. Solar Energy, 56 (1996), 3, pp. 245-260
- Husain, M., et. al., Computer Simulation of Salt-Gradient Solar-Pond's Thermal Behaviour, Renew. Energy, 28 (2003), 5, pp. 769-802
- Ouni, M., et al., Simulation of the Control of a Salt Gradient Solar Pond in the South of Tunisia, Solar Energy, 75 (2003), 2, pp. 95-101
- Angeli, C., Leonardi, E., A Computational Study of Salt Diffusion and Heat Extraction in Solar Pond Plants, Solar Energy, 80 (2006), 11, pp. 1498-1508
- Mansour, R. B., Nguyen, C. T., Galanis, N., Transient Heat and Mass Transfer and Long-Term Stability of a Salt-Gradient Solar Pond, Mechanics Research Communications, 33 (2006), 2, pp. 233-249
- Ben Mansour, R., Nguyen C. T., Galanis, N., Transient Heat and Mass Transfer of a Salt-Gradient Solar Pond, Proceedings, Eurotherm 71 on Visualization, Imaging and Data Analysis in Convective Heat and Mass Transfer, LTM - UTAP, Reims, France, 2002, pp. 28-30
- Suarez, F., Tyler, S. W., Childress, A. E., A Fully Coupled Transient Double Diffusive Convective Model for Salt-Gradient Solar Ponds, International Journal of Heat and Mass Transfer, 53 (2010), 9-10, pp. 1718-1730
- Veronis, G., Effect of a Stability Gradient of Solute on Thermal Convection, J. Fluid Mech, 34 (1968), 2, pp. 315-336
- Veronis, G., On Finite Amplitude Instability in Thermohaline Convection, J. Marine Res, 23 (1964), 1, pp. 1-17
- Giestas, M., Pina, H., Joyce, A., The Influence of Radiation Absorption on Solar Pond Stability, Inter. J. Heat Mass Transfer, 39 (1996), 18, pp. 3873-3885
- Giestas, M., Joyce, A., Pina, H., The Influence of Non-Constant Diffusivities on Solar Pond Stability, Intert. J. Heat Mass Transfer, 40 (1997), 18, pp. 4379-4391
- Kaffel, L., Investigation of the Thermosolutal Convection in Stratified Fluid (in French), Ph. D. thesis, IMFA, Clermont-Ferrand, France, 2005
- Andrews, J., Akbarzadeh, A., Enhancing the Thermal Efficiency of Solar Ponds by Extracting Heat from the Gradient Layer, Solar Energy, 78 (2005), 6, pp. 704-716
- Angeli, C., Leonardi, E., Maciocco, L., The Effect of Thermodiffusion on the Satability of a Salinity Gradient Solar Pond, Int. J. Heat Mass Transfer, 48 (2005), 21-22, pp. 4633-4639
- Chandrasekhar, S., Hydrodynamic and Hydromagnetic Stability, Dover, UK, 1961
- Joyce, A., Giestas, M., Pina, H., The Dynamics of Free Convection in a Solar Pond. II Word Renewable Energy Congress, Reading, UK, 1992
- Hull, J.R., Passive Stabilisation of Gradient Zone Boundaries in Solar Ponds. Proceeding, American Solar Energy Society, Anaheim, Cal., USA, 1984
- Zangrando, F., On the Hydrodynamics of Salt Gradient Solar Ponds, Solar Energy, 46 (1991), 6, pp. 323-341
- Rothemeyer, M. K., Saturated Solar Pond-Modified Equations, and Results of Laboratory Experiment, M. Sc. thesis, University of New Mexico, Albuquerque, N. Mex., USA,1976
- www.comsol.fr
Volume
15,
Issue
1,
Pages67 -80