Exergetic Analysis of South Tripoli Gas Turbine Power Plant (Unit Four)
 |
International Journal of Engineering Trends and Technology (IJETT) | 
|
| © 2018 by IJETT Journal | ||
| Volume-62 Number-1 |
||
| Year of Publication : 2018 | ||
| Authors : Naji Sassi. Younis, Bahlul O. Abbani, Othman A. Alnayed |
||
| DOI : 10.14445/22315381/IJETT-V62P204 |
Citation
MLA Style: Naji Sassi. Younis, Bahlul O. Abbani, Othman A. Alnayed "Exergetic Analysis of South Tripoli Gas Turbine Power Plant (Unit Four)" International Journal of Engineering Trends and Technology 62.1 (2018): 15-22.
APA Style:Naji Sassi. Younis, Bahlul O. Abbani, Othman A. Alnayed (2018). Exergetic Analysis of South Tripoli Gas Turbine Power Plant (Unit Four). International Journal of Engineering Trends and Technology, 62(1), 15-22.
Abstract
Despite the developments of a few years wireless sensor networks, several constraints continue to limit their development and degrade the performance of their applications and services. Due to their limited power and signal range, some or all of the sensors may stop functioning, leading to the deterioration of network functionality such as monitoring, detection and data transfer. These networks require robust wireless communication protocols that are energy efficient. Thus, it is a challenge for the self organization protocols to provide network survivability and redundancy features. In this paper, we present a novel clustering algorithm called EECDC (An energy efficient and coverage-aware distributed clustering protocol for wireless sensor networks), which aims to improve the applications performance and the quality of service (QoS) by exploiting geometry techniques. Better coverage, energy efficiency, minimum traffic from nodes to base station, balanced energy consumption are the main features of EECDC to improve life time of WSN. Simulation results confirm that EECDC is effective in prolonging the network lifetime as well as in improving the network coverage.
Reference
[1] Bejan, g. Tsatsaronis, m. j. Moran, Optimization and thermal design, Willey, 1996.
[2] Kota, T.J., The Exergy Method of Thermal Plant Analysis, Butterworths, U.K., 1985.
[3] Cenggel, A.Y., Boles, M.A., Thermodynamics Engineering Approach,Fifth Edition,McGraw Hill Companies, New York,USA, 2006.
[4] Moran M.J., Shapiro, H.N., Fundamental of Engineering Thermodynamics, Third edition, John Wiley and Sons, New Jersy, USA, 2006.
[5] Aljundi, I.H., Energy and exergy analysis of a steam poer plant in Jordan. Applied thermal engineering, vol. 29, 2009.
[6] Naji S. Y. Thermoeconomic Optimization of Steam power plants, MSc Thesis, University of Tripoli, 1998.
[7] Lalatendu P., Thermodynamic modeling and exergy analysis of Gas turbine Cycle for Different Boundary conditions, international Journal of Power electronics and Drive System, Vol.6, No. 2, June 2015.
[8] Alhosani O. M., Alhosani A. A. and Dadach Z. E., Exergy Analysis of a power Plant in Abu Dhabi (UAE), International Journal of Energy Engineering, Vol.5., Iss. 3, June 2015.
[9] Martin A., Miswandi, Prayitino A., Kurniawan I., and Romy, Exergy Analysis of Gas Turbine Power Plant 20 MW in Pekaanbaru-Indonesia, international Journal of Technology, Vol.5,June 2016.
[10] Iraides Aparecida de Castro Villela, Energetic and exergetic analysis of a Gas-Turbine Combined cycle power plant, 19th international Congress of Mechanical Engineering, November 5-9, 2007, Barasilia.
[11] Mehta Parth N., Meta N. S., Panchal C. P., Exergy Analysis of gas turbine power Plant, international journal of Science and engineering Research, Vol. 5,Iss. 2, Feb. 2014.
[12] Chand V.T T., B. Ravi Sankar, and Chwdary J., R., Exergy analysis of gas Turbine power Plant, International Journal of engineering and Technology, Vol. 4, Iss.9, September 2013.
[13] Naser M. Jubeh, Exergy analysis and second law efficiency of a regenerative Brayton Cycle with isothermal Heat addition, Entropy,7[3],2005.
[14] G. Tsatsaronis and F. Cziesla, exergy Analysis of simple process, Energy, energy Steam analysis and Optimization, vol. 1.(year N/A).
[15] S.Kaushika, V. Reddya and S.K.Taygi, Energy and Exergy analysis of Thermal power plant: A review, Renewable and sustainable energy review, vol.5, 2011.
Keywords
Gas Turbine, Exergy, Exergy Destruction, Exergetic Efficiency