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International Journal of Scientific and Engineering Research
ISSN Online 2229-5518
ISSN Print: 2229-5518 7    
Website: http://www.ijser.org
scirp IJSER >> Volume 3,Issue 7,July 2012
Energy Analysis of Thermal Power Plant
Full Text(PDF, )  PP.386-392  
Raviprakash kurkiya, Sharad chaudhary
— Energy, efficiency, thermal power plant, first law analysis, energy losses, optimization, coal.
Energy analysis helps designers to find ways to improve the performance of a system in a many way. Most of the conventional energy losses optimization method are iterative in nature and require the interpretation of the designer at each iteration. Typical steady state plant operation conditions were determined based on available trending data and the resulting condition of the operation hours. The energy losses from individual components in the plant is calculated based on these operating conditions to determine the true system losses. In this, first law of thermodynamics analysis was performed to evaluate efficiencies and various energy losses. In addition, variation in the percentage of carbon in coal content increases the overall efficiency of plant that shows the economic optimization of plant.
[1] Energy and exergy analysis of a steam power plant in Jordan, Isam H. Aljundi, Applied Thermal Engineering 29, pp324–328, (2009).

[2] An exergy method for compressor performance analysis, J. A. McGovern and S. Harte, Received 19 October 1994; revised 6 April 1995

[3] Effects of operational parameters on the thermodynamic performance of FBCC steam power plant, Nurdil Eskin a, Afsin Gungor b, Koray Ozdemir, Fuel 88, pp54–66, (2009).

[4] Energy, exergy and economic analysis of industrial boilers R. Saidur n, J.U.Ahamed, H.H.Masjuki , Energy Policy 38, pp.2188–2197, (2010).

[5] Exergy analysis of a cryogenic hydrogen fuel power plant, D.Fiaschi, G.Manfrida, International Journal of Hydrogen Energy.

[6] Understanding energy and exergy efficiencies for improved energy management in power plants, Mehmet Kanoglua,1, Ibrahim Dincerb, Marc A. Rosen, Energy Policy 35, pp.3967–3978, (2007).

[7] Energy efficiency, no: It’s exergy efficiency, CarlJochen Winter, International Journal of Hydrogen Energy 32 (2007).

[8] Thermal design and analysis of a multi-stage 30 K radioactive cooling system for EPIC.

[9] Talso Chui a, Jamie Bock a, Warren Holmes a, Jeff Raab, Simulation of Components of a Thermal Power. Plant, Rene Schimon Dragan Simic Anton Haumer Christian Kral Markus Plainer, Arsenal Research

[10]An Approach to Analyse Energy and Exergy Analysis of Thermal Power Plants: A Review, Vundela Siva Reddy, Subhash Chandra Kaushik, Sudhir Kumar Tyagi, Naraya Lal Panwar.

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