Thermodynamic Model of the Loss Factor Applied to Steam Turbines

Alejandro Zaleta-aguilar; Javier Royo; Antonio Valero

Thermodynamic Model of the Loss Factor Applied to Steam Turbines

Year 2001, Volume: 4 Issue: 3, 127 - 133, 01.09.2001

Alejandro Zaleta-aguilar Javier Royo Antonio Valero

Abstract

Erosion, roughness, steam path damage, etc., are factors that reduce power capacity in a steam turbine. Any power loss occurring locally in intermediate stages of a steam turbine results in more available energy in the downstream stages, this effect is well known as the Loss Factor (Salisbury, 1974; Stodola, 1927; Husain, 1984). Currently, the Loss Factor is been calculated by graphical methods (Cotton, 1996). In this work a new thermodynamic expression for the Loss Factor (LF) is introduced, in order to improve applications to evaluate malfunctions in the first and intermediate stages of steam turbines. The new thermodynamic expression for the Loss Factor, is based on Second Law Analysis; and concepts like the internal parameter θ, and the dissipation temperature Td; (Royo, 1992). An Example of a steam turbine in a conventional power plant of 158 MW is analyzed by comparing a classical graphical method (ASME/ANSI PTC-6, 1970; and Cotton, 1993), and the proposed expression of the Loss Factor (LF). Special emphasis is made on the thermoeconomical deviations that could arise by an imprecise application of the Loss Factor Method, during an energy audit of the steam turbine internal parts.

Keywords

loss factor, steam turbine malfunctions

Year 2001, Volume: 4 Issue: 3, 127 - 133, 01.09.2001

Alejandro Zaleta-aguilar Javier Royo Antonio Valero

Abstract

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Details

Primary Language	English
Journal Section	Regular Original Research Article
Authors	Alejandro Zaleta-aguilar This is me Javier Royo Antonio Valero
Publication Date	September 1, 2001
Published in Issue	Year 2001 Volume: 4 Issue: 3

Cite

APA	Zaleta-aguilar, A., Royo, J., & Valero, A. (2001). Thermodynamic Model of the Loss Factor Applied to Steam Turbines. International Journal of Thermodynamics, 4(3), 127-133.
AMA	Zaleta-aguilar A, Royo J, Valero A. Thermodynamic Model of the Loss Factor Applied to Steam Turbines. International Journal of Thermodynamics. September 2001;4(3):127-133.
Chicago	Zaleta-aguilar, Alejandro, Javier Royo, and Antonio Valero. “Thermodynamic Model of the Loss Factor Applied to Steam Turbines”. International Journal of Thermodynamics 4, no. 3 (September 2001): 127-33.
EndNote	Zaleta-aguilar A, Royo J, Valero A (September 1, 2001) Thermodynamic Model of the Loss Factor Applied to Steam Turbines. International Journal of Thermodynamics 4 3 127–133.
IEEE	A. Zaleta-aguilar, J. Royo, and A. Valero, “Thermodynamic Model of the Loss Factor Applied to Steam Turbines”, International Journal of Thermodynamics, vol. 4, no. 3, pp. 127–133, 2001.
ISNAD	Zaleta-aguilar, Alejandro et al. “Thermodynamic Model of the Loss Factor Applied to Steam Turbines”. International Journal of Thermodynamics 4/3 (September 2001), 127-133.
JAMA	Zaleta-aguilar A, Royo J, Valero A. Thermodynamic Model of the Loss Factor Applied to Steam Turbines. International Journal of Thermodynamics. 2001;4:127–133.
MLA	Zaleta-aguilar, Alejandro et al. “Thermodynamic Model of the Loss Factor Applied to Steam Turbines”. International Journal of Thermodynamics, vol. 4, no. 3, 2001, pp. 127-33.
Vancouver	Zaleta-aguilar A, Royo J, Valero A. Thermodynamic Model of the Loss Factor Applied to Steam Turbines. International Journal of Thermodynamics. 2001;4(3):127-33.