Entropy Generation in Periodic Regenerative Heat Exchanger due to Finite Temperature Difference

K. Pitchandi; E. Natarajan

Entropy Generation in Periodic Regenerative Heat Exchanger due to Finite Temperature Difference

Year 2008, Volume: 11 Issue: 4, 173 - 179, 01.12.2008

Abstract

This paper describes the second law of thermodynamics analysis of a regenerative heat exchanger. The analysis is based on the fact that the dimensionless parameters, known as the reduced periods and reduced length, are the characteristic variables to describe the heat exchanger. The solid matrix in the heat exchanger passage is discretized using trapezoidal rule and the elemental matrix is taken as a thermodynamic system. The second law of thermodynamics is applied to the system and the entropy generation equation is obtained using the dimensionless numbers Reduced period (Π) and Reduced length (Λ) in each element. In the present paper, the variation of entropy generation due to reduced length and reduced period is studied. The influence of the effectiveness of the heat exchanger on entropy generation is also highlighted.

Keywords

periodic flow heat exchanger, entropy generation, solid matrix, reduced period, reduced length, regenerative heat exchanger

Year 2008, Volume: 11 Issue: 4, 173 - 179, 01.12.2008

K. Pitchandi E. Natarajan

Abstract

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Details

Primary Language	English
Journal Section	Regular Original Research Article
Authors	K. Pitchandi This is me E. Natarajan This is me
Publication Date	December 1, 2008
Published in Issue	Year 2008 Volume: 11 Issue: 4

Cite

APA	Pitchandi, K., & Natarajan, E. (2008). Entropy Generation in Periodic Regenerative Heat Exchanger due to Finite Temperature Difference. International Journal of Thermodynamics, 11(4), 173-179.
AMA	Pitchandi K, Natarajan E. Entropy Generation in Periodic Regenerative Heat Exchanger due to Finite Temperature Difference. International Journal of Thermodynamics. December 2008;11(4):173-179.
Chicago	Pitchandi, K., and E. Natarajan. “Entropy Generation in Periodic Regenerative Heat Exchanger Due to Finite Temperature Difference”. International Journal of Thermodynamics 11, no. 4 (December 2008): 173-79.
EndNote	Pitchandi K, Natarajan E (December 1, 2008) Entropy Generation in Periodic Regenerative Heat Exchanger due to Finite Temperature Difference. International Journal of Thermodynamics 11 4 173–179.
IEEE	K. Pitchandi and E. Natarajan, “Entropy Generation in Periodic Regenerative Heat Exchanger due to Finite Temperature Difference”, International Journal of Thermodynamics, vol. 11, no. 4, pp. 173–179, 2008.
ISNAD	Pitchandi, K. - Natarajan, E. “Entropy Generation in Periodic Regenerative Heat Exchanger Due to Finite Temperature Difference”. International Journal of Thermodynamics 11/4 (December 2008), 173-179.
JAMA	Pitchandi K, Natarajan E. Entropy Generation in Periodic Regenerative Heat Exchanger due to Finite Temperature Difference. International Journal of Thermodynamics. 2008;11:173–179.
MLA	Pitchandi, K. and E. Natarajan. “Entropy Generation in Periodic Regenerative Heat Exchanger Due to Finite Temperature Difference”. International Journal of Thermodynamics, vol. 11, no. 4, 2008, pp. 173-9.
Vancouver	Pitchandi K, Natarajan E. Entropy Generation in Periodic Regenerative Heat Exchanger due to Finite Temperature Difference. International Journal of Thermodynamics. 2008;11(4):173-9.