Thermodynamic Equipartition and Energy Efficient Membrane Networks

M. Sorin; E. Ayotte-sauvé; F. Sadeghi; F. Rheault

Thermodynamic Equipartition and Energy Efficient Membrane Networks

Year 2010, Volume: 13 Issue: 1, 9 - 13, 02.03.2010

M. Sorin E. Ayotte-sauvé F. Sadeghi F. Rheault

Abstract

This paper considers the relative merits of three optimization objective functions for the design of an energy efficient pervaporation membrane network for ethanol dehydration: the minimization of the standard deviation of the thermodynamic driving force, of the entropy generation, and of the power of separation. The resulting designs are compared with those of a standard numerical optimization minimizing the total exergy consumption of the compressors and heat exchangers. Results reveal that in terms of total exergy consumption, the equipartition af all three functions give results close to the reference case. However, in terms of the distribution of the membrane surface areas, the equipartition of the power of separation gives results closest to the reference case.

This paper is an updated version of a paper published in the ECOS'09 proceedings.

Keywords

thermodynamics, equipartition, pervaporation membranes, optimization

Year 2010, Volume: 13 Issue: 1, 9 - 13, 02.03.2010

M. Sorin E. Ayotte-sauvé F. Sadeghi F. Rheault

Abstract

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Details

Primary Language	English
Journal Section	Regular Original Research Article
Authors	M. Sorin E. Ayotte-sauvé This is me F. Sadeghi This is me F. Rheault This is me
Publication Date	March 2, 2010
Published in Issue	Year 2010 Volume: 13 Issue: 1

Cite

APA	Sorin, M., Ayotte-sauvé, E., Sadeghi, F., Rheault, F. (2010). Thermodynamic Equipartition and Energy Efficient Membrane Networks. International Journal of Thermodynamics, 13(1), 9-13.
AMA	Sorin M, Ayotte-sauvé E, Sadeghi F, Rheault F. Thermodynamic Equipartition and Energy Efficient Membrane Networks. International Journal of Thermodynamics. March 2010;13(1):9-13.
Chicago	Sorin, M., E. Ayotte-sauvé, F. Sadeghi, and F. Rheault. “Thermodynamic Equipartition and Energy Efficient Membrane Networks”. International Journal of Thermodynamics 13, no. 1 (March 2010): 9-13.
EndNote	Sorin M, Ayotte-sauvé E, Sadeghi F, Rheault F (March 1, 2010) Thermodynamic Equipartition and Energy Efficient Membrane Networks. International Journal of Thermodynamics 13 1 9–13.
IEEE	M. Sorin, E. Ayotte-sauvé, F. Sadeghi, and F. Rheault, “Thermodynamic Equipartition and Energy Efficient Membrane Networks”, International Journal of Thermodynamics, vol. 13, no. 1, pp. 9–13, 2010.
ISNAD	Sorin, M. et al. “Thermodynamic Equipartition and Energy Efficient Membrane Networks”. International Journal of Thermodynamics 13/1 (March 2010), 9-13.
JAMA	Sorin M, Ayotte-sauvé E, Sadeghi F, Rheault F. Thermodynamic Equipartition and Energy Efficient Membrane Networks. International Journal of Thermodynamics. 2010;13:9–13.
MLA	Sorin, M. et al. “Thermodynamic Equipartition and Energy Efficient Membrane Networks”. International Journal of Thermodynamics, vol. 13, no. 1, 2010, pp. 9-13.
Vancouver	Sorin M, Ayotte-sauvé E, Sadeghi F, Rheault F. Thermodynamic Equipartition and Energy Efficient Membrane Networks. International Journal of Thermodynamics. 2010;13(1):9-13.