publication . Article . Other literature type . 2017

Hybrid System for Electricity Generation using Waste Heat & Wind from Exhaust Duct of Generator

Malik , Muhammad Suleman; Ali , Faheem; Hammed , Maria; Aman , Haseeb; Bin Muzaffar , Osama;
Open Access English
  • Published: 02 Jun 2017
  • Publisher: HAL CCSD
Abstract
International audience; The objective of this paper is to utilize wasted heat and hot pressurized air from the exhaust duct of the generator in generating station to produce electricity. This heat and exhaust air is produced due to two types of losses i.e, core losses and copper losses inside generator and its temperature gradient with respect to the external environment. To accomplish this task a hybrid system consisting of Thermoelectric Cells and Wind Turbine assembly is designed in which Thermoelectric Cells produces electricity using the wasted heat based upon the Seebeck effect while the wind turbine generates electricity due to high speed wind striking it...
Subjects
free text keywords: Thermo-Electric Generators, Wind turbine, Hybrid Generation, Peltier cells, Seebeck Effect, [ SPI.NRJ ] Engineering Sciences [physics]/Electric power, Hybrid Generation, Peltier cells, Seebeck Effect, Thermo-Electric Generators, Wind turbine
Communities
Energy Research
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Other literature type . 2017
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Article . 2017
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Zenodo
Other literature type . 2017
Provider: Datacite

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[2] Loffe A.F. (1957). Semiconductor Thermoelements and Thermoelectric Cooling. Infosearch Limited. ISBN 0-85086-039-3.

[3] Thomson, William (1851). “On a mechanical theory of thermoelectric currents.” Proc.Roy.Soc.Edinburgh: 91-98.M. Young, The Technical Writer's Handbook. Mill Valley, CA: University Science, 1989.

[4] T Stephen John, “High Efficient Seebeck Thermoelectric Device for Power System Design and Efficiency Calculation: A Review of Potential Household Appliances”. Sathyabama University Chennai - 600119

[5] “Review of thermoelectricity to improve energy quality"(2015-03-01). 2 - Issue 3 (March-2015). JETIR

[6] “What factors affect the output of wind turbines?” Alternative-energynews.info. 24 July 2009. Retrieved 6 November 2013.

[7] “Solar Thermal Energy" (PDF). Retrieved Oct 8, 2009.

[8] Snyder, G. (Oct 2003). “Thermoelectric Efficiency and Compatibility” Physical Review Letters. 91 (14).

[9] H. B. Cox. Thermoelectric Generator. Patented August 19, 1890.

[10] “Harvesting the Wind: The Physics of Wind Turbines”. Retrieved 11 January2013.

[11] Betz, A. Randall, D. G. (trans.) “Introduction to the Theory of Flow Machines”. Oxford: Pergamon Press, 1966. Muhammad Suleman Malik is an Electrical Power Engineering student born in 90's. He is currently pursuing a bachelor's degree in Electrical Power Engineering from University of Engineering & Technology Peshawar, Pakistan. He has worked as a trainee Operation & Maintenance Engineer with National Transmission & Despatch Company (NTDC), Warsak hydroelectric power station (WAPDA) and Peshawar Electric Supply Company (PESCO) Pakistan. He has 1 year experience in the power sector of Pakistan. His prime areas of qualification and research-based interest include Power Generation, Transmission& Distribution, High Voltage Engineering, Power system analysis & Protection.

Mr. Malik is a registered member of IEEE & Power and Energy Society (Number 94306462), a student member of Renewable & Alternative Energy Association of Pakistan (Number 456).He was awarded Professional Education Foundation (PEF) Scholarship during his undergraduate studies. He has got an appreciation & excellent performance certificate for implementing his final year project in Warsak hydroelectric power station. He was also awarded a winning shield for his electricity generation project from solarthermal energy.

Maria Hameed is an Electrical Power Engineering student born on June 2, 1995. She is presently aiming for a bachelor's degree in Electrical Power Engineering from University of Engineering and Technology Peshawar, Pakistan. She has worked as an internee and apprentice with Pakistan Electric Supply Company, Peshawar. Her cardinal interests include project management, project design and

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publication . Article . Other literature type . 2017

Hybrid System for Electricity Generation using Waste Heat & Wind from Exhaust Duct of Generator

Malik , Muhammad Suleman; Ali , Faheem; Hammed , Maria; Aman , Haseeb; Bin Muzaffar , Osama;