A new desalination scheme has been proposed. The system consists of a saline water tank, a concentrated brine tank, and a fresh water tank placed on ground level plus an evaporator and a condenser located several meters above the ground. The evaporator-condenser assembly, or flash chamber, is initially filled with saline water that later drops by gravity, creating a vacuum above the water surface in the unit without a vacuum pump. The vacuum is maintained by the internal hydrostatic pressure balanced by the atmospheric pressure. The ground tanks are open to the atmosphere, while the flash chamber is insulated and sealed to retain both heat and vacuum. A theoretical simulation of the proposed model was carried out using a detailed model built by employing the fundamental physical and thermodynamic relationships to describe the process and was complimented by reliable empirical correlations to estimate the physical properties of the involved species and the operational parameters of the proposed system. The simulation results show that running the system at higher flash temperatures with a fixed flash chamber size will result in faster vacuum erosion leading to less overall evaporation.
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August 2009
Research Papers
Solar Flash Desalination Under Hydrostatically Sustained Vacuum
Mohammad Abutayeh,
Mohammad Abutayeh
Department of Chemical Engineering,
University of South Florida
, Tampa, FL 33620
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D. Yogi Goswami
D. Yogi Goswami
Clean Energy Research Center,
University of South Florida
, Tampa, FL 33620
Search for other works by this author on:
Mohammad Abutayeh
Department of Chemical Engineering,
University of South Florida
, Tampa, FL 33620
D. Yogi Goswami
Clean Energy Research Center,
University of South Florida
, Tampa, FL 33620J. Sol. Energy Eng. Aug 2009, 131(3): 031016 (7 pages)
Published Online: July 14, 2009
Article history
Received:
October 28, 2008
Revised:
February 6, 2009
Published:
July 14, 2009
Citation
Abutayeh, M., and Goswami, D. Y. (July 14, 2009). "Solar Flash Desalination Under Hydrostatically Sustained Vacuum." ASME. J. Sol. Energy Eng. August 2009; 131(3): 031016. https://doi.org/10.1115/1.3142724
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