Commenced in January 2007
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Edition: International
Paper Count: 33122
Stand Alone Multiple Trough Solar Desalination with Heat Storage
Authors: Abderrahmane Diaf, Kamel Benabdellaziz
Abstract:
Remote arid areas of the vast expanses of the African deserts hold huge subterranean reserves of brackish water resources waiting for economic development. This work presents design guidelines as well as initial performance data of new autonomous solar desalination equipment which could help local communities produce their own fresh water using solar energy only and, why not, contribute to transforming desert lands into lush gardens. The output of solar distillation equipments are typically low and in the range of 3 l/m2/day on the average. This new design with an integrated, water based, environmentally-friendly solar heat storage system produced 5 l/m2/day in early spring weather. Equipment output during summer exceeded 9 liters per m2 per day.Keywords: Multiple trough distillation, solar desalination, solar distillation with heat storage, water based heat storage system.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1338358
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[1] T. Libin, R. Pillai, M. Mani, Sealed-System Performance of a Compact Stepped Solar-Still. Environ. Eng. Manage J 2011; 10:585-94.
[2] A. J. N. Khalifa, A. M. Hamood, Effect of Insulation Thickness on the Productivity of Basin Type Solar Stills: An Experimental Verification under Local Climate. Energy Convers Manage 2009; 50: 2457-61 -K. Chen, Linear Networks and Systems (Book style). Belmont, CA: Wadsworth, 1993, pp. 123–135.
[3] A. Badran, I. A. Al-Hallaq, I. A. Eyal Salman, et al, A solar still augmented with a flat plate collector. Desalination 2005; 172: 227-34.
[4] Dimri, B. Sarkar, U. Singh et al, Effect of Condensing Cover Material on Yield of an Active Solar Still: An Experimental Validation. Desalination 2008; 227: 178-89.
[5] Diaf, D. Tassalit, H. Aburideh, Z. Tigrine, “Water Desalination Using New Multiple Tray Solar Distillation–Performance Evaluation,” International Conference on Applied Energy ICAE2013, University of Pretoria, South Africa, 2013.
[6] Zahia Tigrine, Hanane Aburideh, Adel Deliou, Brahim Abbad, Fatma Alaoui, Djilali Tassalit: An Experimental Study of a Solar Still: Application on the sea water desalination of Fouka. Procedia Engineering 33 (2012) 475 – 484.
[7] K. Voropoulos, E. Mathioulakis, V. Belessiotis, Experimental Investigation of the Behavior of a Solar Still Coupled with Hot Water Storage Tank, Desalination 2003; 156: 315-322.
[8] Omara Z. M., Hamed Mofred H., Kabeel A. E., Performance of Finned and Corrugated Solar Stills under Egyptian Conditions, J. Desalination 2011; 277: 281-287.
[9] Sebaii A. A., Al-Ghamdi A. A., Al-Hazmi F. S., Fidah, Abdel S., Thermal Performance of a Single Basin Solar Still with PCM as Storage Medium, J. Applied Energy 2009; 86: 1187-1195.
[10] Sakthivel M, Shanmagasundaram S, Alwarswamy T., An Experimental Study of Regenerative Solar Still with Energy Storage Medium–Jute Cloth, J Desalination 2010; 264: 24-31.
[11] Abu-Hijleh B. A. K., Rababa’h H. M., Experimental Study of Solar Still with Sponge Cubes in Basin, J Energy Conv Mgmt 2003; 44: 1411-18.
[12] Murugvel K Kalidas, Srithar, K., Performance Study on Basin Type Double Slope Solar Still with different wick materials and minimum water mass, J Renew Energy 2001; 36: 612-620.
[13] Diaf, H. Aburideh, Z. Tigrine, D. Tassalit, F. Alaoui, “Effect of Temperature on the Performance of Multi-Stage Distillation,” World Academy of Science, Engineering and Technology, (2012), 66, 843-846.