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Published in:

Volume 5 Issue 12
December-2018
eISSN: 2349-5162

Unique Identifier

JETIREB06114

Page Number

970-983

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Title

Design, Fabrication and Performance Analysis of Automotive Exhaust Gas Waste-Heat Recovery module using Thermoelectric Technology

ISSN

2349-5162

Cite This Article

"Design, Fabrication and Performance Analysis of Automotive Exhaust Gas Waste-Heat Recovery module using Thermoelectric Technology", International Journal of Emerging Technologies and Innovative Research (www.jetir.org), ISSN:2349-5162, Vol.5, Issue 12, page no.970-983, December 2018, Available :http://www.jetir.org/papers/JETIREB06114.pdf

Abstract

The study is based on the experimental setup with a specific possibility of recuperating waste heat from an exhaust of an automobile and furthermore to design, fabrication of one such system that can be accomplished the point of producing power by utilizing the thermoelectric power generator.The Experimental work is carried out on an I.C engine having displacement of 127cc.To design a system which has two important components, firstly heat absorber and heat sink. The heat absorber can be used for the hot side of the thermoelectric generator and heat sink can be used for the cold side of the thermoelectric generator. The staggered arrangement is done on both heat sink and heat absorber to enhance the heat transfer rate so that thermoelectric generator could increase its efficiency. Use of copper as a heat sink could beneficial for the cold side of the thermoelectric module because copper has a high thermal conductivity. The material of heat absorber is aluminium alloys 6061 have been anodized to protect it from corrosion. The TEG module we used to be SP1848-27145. The material of this thermoelectric generator is bismuth telluride. The bismuth telluride based TEG could be easily available and the cost of this TEG is cheap. The power generation from the TEG continuously monitor with respect to the variable temperature condition across the TEG device at different rpm of an engine with time and the generated power with two TEG based on the designed module is around 10.02 watts.

Key Words

accomplished, point, producing, power Optimization.

Cite This Article

"Design, Fabrication and Performance Analysis of Automotive Exhaust Gas Waste-Heat Recovery module using Thermoelectric Technology", International Journal of Emerging Technologies and Innovative Research (www.jetir.org | UGC and issn Approved), ISSN:2349-5162, Vol.5, Issue 12, page no. pp970-983, December 2018, Available at : http://www.jetir.org/papers/JETIREB06114.pdf

Publication Details

Published Paper ID: JETIREB06114
Registration ID: 233774
Published In: Volume 5 | Issue 12 | Year December-2018
DOI (Digital Object Identifier):
Page No: 970-983
ISSN Number: 2349-5162

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Cite This Article

"Design, Fabrication and Performance Analysis of Automotive Exhaust Gas Waste-Heat Recovery module using Thermoelectric Technology", International Journal of Emerging Technologies and Innovative Research (www.jetir.org | UGC and issn Approved), ISSN:2349-5162, Vol.5, Issue 12, page no. pp970-983, December 2018, Available at : http://www.jetir.org/papers/JETIREB06114.pdf




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