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Second Law Analysis of Diffusion Flames

Year 2001, Volume: 4 Issue: 1, 1 - 18, 01.12.2000

Abstract

The objective of this paper is to investigate the sources of volumetric irreversibilities in both laminar and turbulent diffusion flames. The theoretical background of analysis relies on the local exergy transport equation, which allows the microscopic formulation of the well-known Gouy-Stodola theorem. For laminar reacting flows, the volumetric entropy generation rate expression includes the viscous, thermal, diffusion and chemical components. Their expressions show that the corresponding irreversibilities are uncoupled if the combustion process occurs at constant pressure. The numerical simulation of a methane-air combustion process shows that the thermal, chemical and diffusive irreversibilities represent, in order of enumeration, the predominant irreversibilities in the laminar diffusion reacting flows. In the case of turbulent diffusion flames, the viscous, thermal, diffusion and chemical mean components have to be expressed in accordance with the combustion model. Two combustion models are used: the multi-species approach based on the eddy-break formulation of mean reaction rate, and the assumed probability density function for a conserved scalar that relies on the flame sheet model. For a diffusion methane-air jet flame, the distribution of mean irreversibility components is presented. Taking into account the technical importance of diffusion flames, the analysis could serve to improve the combustion geometry and the flow condition.

Year 2001, Volume: 4 Issue: 1, 1 - 18, 01.12.2000

Abstract

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Details

Primary Language English
Journal Section Regular Original Research Article
Authors

Dorin Stanciu This is me

Dragos Isvoranu This is me

Mircea Marinescu This is me

Yalcin Gogus

Publication Date December 1, 2000
Published in Issue Year 2001 Volume: 4 Issue: 1

Cite

APA Stanciu, D., Isvoranu, D., Marinescu, M., Gogus, Y. (2000). Second Law Analysis of Diffusion Flames. International Journal of Thermodynamics, 4(1), 1-18.
AMA Stanciu D, Isvoranu D, Marinescu M, Gogus Y. Second Law Analysis of Diffusion Flames. International Journal of Thermodynamics. December 2000;4(1):1-18.
Chicago Stanciu, Dorin, Dragos Isvoranu, Mircea Marinescu, and Yalcin Gogus. “Second Law Analysis of Diffusion Flames”. International Journal of Thermodynamics 4, no. 1 (December 2000): 1-18.
EndNote Stanciu D, Isvoranu D, Marinescu M, Gogus Y (December 1, 2000) Second Law Analysis of Diffusion Flames. International Journal of Thermodynamics 4 1 1–18.
IEEE D. Stanciu, D. Isvoranu, M. Marinescu, and Y. Gogus, “Second Law Analysis of Diffusion Flames”, International Journal of Thermodynamics, vol. 4, no. 1, pp. 1–18, 2000.
ISNAD Stanciu, Dorin et al. “Second Law Analysis of Diffusion Flames”. International Journal of Thermodynamics 4/1 (December 2000), 1-18.
JAMA Stanciu D, Isvoranu D, Marinescu M, Gogus Y. Second Law Analysis of Diffusion Flames. International Journal of Thermodynamics. 2000;4:1–18.
MLA Stanciu, Dorin et al. “Second Law Analysis of Diffusion Flames”. International Journal of Thermodynamics, vol. 4, no. 1, 2000, pp. 1-18.
Vancouver Stanciu D, Isvoranu D, Marinescu M, Gogus Y. Second Law Analysis of Diffusion Flames. International Journal of Thermodynamics. 2000;4(1):1-18.