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Simulation of an Innovative Stand-Alone Solar Desalination System Using an Organic Rankine Cycle

Year 2007, Volume: 10 Issue: 4, 155 - 163, 01.12.2007

Abstract

The rising of the world’s population leads automatically to the rising of water demand. As a consequence the lack of drinking water increases. Since a large part of the world’s population is concentrated in coastal areas, the desalination of seawater seems to be a promising solution. An innovative stand-alone solar desalination system could be used to produce drinking water from seawater. The great advantage of such a system is that it combines efficient desalination technology, reverse osmosis, with a renewable energy source, solar radiation. Thermal energy produced by the solar array evaporates a working fluid, which is used in an organic Rankine cycle that drives the pumps needed for the reverse osmosis process. Due to the fluctuation of solar irradiation, the dynamic simulation of such a system is necessary in order to assure the sufficient supply of water throughout a year. The simulation provides important information for optimum system sizing and design. The aim of this work is to present a modelling of a solar desalination system and to investigate the impact of different working fluids, thermodynamic parameters and cycle variations on the efficiency and water production of such a system.

  • An initial version of this paper was published in October, 2005 in the proceedings of SIMS'05, Trondheim, Norway. 

Year 2007, Volume: 10 Issue: 4, 155 - 163, 01.12.2007

Abstract

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Details

Primary Language English
Journal Section Regular Original Research Article
Authors

Andreas Schuster This is me

Jürgen Karl This is me

Sotirios Karellas This is me

Publication Date December 1, 2007
Published in Issue Year 2007 Volume: 10 Issue: 4

Cite

APA Schuster, A., Karl, J., & Karellas, S. (2007). Simulation of an Innovative Stand-Alone Solar Desalination System Using an Organic Rankine Cycle. International Journal of Thermodynamics, 10(4), 155-163.
AMA Schuster A, Karl J, Karellas S. Simulation of an Innovative Stand-Alone Solar Desalination System Using an Organic Rankine Cycle. International Journal of Thermodynamics. December 2007;10(4):155-163.
Chicago Schuster, Andreas, Jürgen Karl, and Sotirios Karellas. “Simulation of an Innovative Stand-Alone Solar Desalination System Using an Organic Rankine Cycle”. International Journal of Thermodynamics 10, no. 4 (December 2007): 155-63.
EndNote Schuster A, Karl J, Karellas S (December 1, 2007) Simulation of an Innovative Stand-Alone Solar Desalination System Using an Organic Rankine Cycle. International Journal of Thermodynamics 10 4 155–163.
IEEE A. Schuster, J. Karl, and S. Karellas, “Simulation of an Innovative Stand-Alone Solar Desalination System Using an Organic Rankine Cycle”, International Journal of Thermodynamics, vol. 10, no. 4, pp. 155–163, 2007.
ISNAD Schuster, Andreas et al. “Simulation of an Innovative Stand-Alone Solar Desalination System Using an Organic Rankine Cycle”. International Journal of Thermodynamics 10/4 (December 2007), 155-163.
JAMA Schuster A, Karl J, Karellas S. Simulation of an Innovative Stand-Alone Solar Desalination System Using an Organic Rankine Cycle. International Journal of Thermodynamics. 2007;10:155–163.
MLA Schuster, Andreas et al. “Simulation of an Innovative Stand-Alone Solar Desalination System Using an Organic Rankine Cycle”. International Journal of Thermodynamics, vol. 10, no. 4, 2007, pp. 155-63.
Vancouver Schuster A, Karl J, Karellas S. Simulation of an Innovative Stand-Alone Solar Desalination System Using an Organic Rankine Cycle. International Journal of Thermodynamics. 2007;10(4):155-63.