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Journal of Energy in Southern Africa
On-line version ISSN 2413-3051
Print version ISSN 1021-447X
J. energy South. Afr. vol.19 n.1 Cape Town 2008
An analysis of a thermal power plant working on a Rankine cycle: A theoretical investigation
R K KapooriaI; S KumarII; K S KasanaII
IDepartment of Mechanical Engineering, BRCM College of Engineering & Technology, Bahal (Haryana) and National Institute of Technology, Kurukshetra, India
IIDepartment of Mechanical Engineering, National Institute of Technology, Kurukshetra, India
ABSTRACT
Today, most of the electricity produced throughout the world is from steam power plants. However, electricity is being produced by some other power generation sources such as hydropower, gas power, bio-gas power, solar cells, etc. One newly developed method of electricity generation is the Magneto hydro dynamic power plant. This paper deals with steam cycles used in power plants. Thermodynamic analysis of the Rankine cycle has been undertaken to enhance the efficiency and reliability of steam power plants. The thermodynamic deviations resulting in non-ideal or irreversible functioning of various steam power plant components have been identified. A comparative study between the Carnot cycle and Rankine cycle efficiency has been analyzed resulting in the introduction of regeneration in the Rankine cycle. Factors affecting efficiency of the Rankine cycle have been identified and analyzed for improved working of thermal power plants.
Keywords: Rankine cycle, steam-turbine, efficiency, Feed Water Heater (FWH), irreversibility, reheat cycle, regeneration, condensers
Full text available only in pdf format.
References
Arora, C.P (1998), Thermodynamics, Tata Mc Graw-Hill, New Delhi. [ Links ]
Ballaney, PL. (1999), Thermal Engineering. Khanna, Delhi. [ Links ]
Cengel, Y.A., and Boles, M.A. (2003), Thermodynamics . An Engineering Approach, Tata Mc Graw-Hill. New Delhi. [ Links ]
Drbal, L.F (1996), Power Plant Engineering, Black & Veatch (COR). [ Links ]
El-Wakil, M. M. (1984), Power Plant Technology. New York: McGraw-Hill. [ Links ]
Fundamentals of Steam Power, www.personal.utulsa.edu/~kenneth-weston/chapter2.pdf. [ Links ]
Haywood, R.W. (1980), Analysis of Engineering Cycles. Pergamon Press. [ Links ]
Kiameh, P (2002), Power Generation Handbook, McGraw-Hill Handbooks. [ Links ]
Li, Kam W., and Priddy, A. Paul (1985), Power plant System Design. New York: Wiley. [ Links ]
Moran, M.J. and Shapiro H.N. (2000), Fundamentals of Engineering Thermodynamics, John Wiley & Sons (Asia). [ Links ]
Nag, PK. (1995), Engineering Thermodynamics, Tata Mc Graw-Hill., New Delhi. [ Links ]
Rajput, R.K. (2001), Thermal Engineering, Laxmi, New Delhi. [ Links ]
Skrotzi, B. G. A. and Vopat, W. A. (1960), Power Station Engineering and Economy. New York: McGraw-Hill. [ Links ]
Whalley, PB. (1992), Basic Engineering Thermodynamics, Oxford University Press. [ Links ].
Wood, B. (1981), Applications of Thermodynamics, 2nd ed. Reading, Mass.: Addison- Wesley. [ Links ]
Received 2 February 2007; 12 September 2007