Power generated analysis of thermoelectric generator device based on electrodeposited nanocomposites through fluid flow simulation

Young, Seng Hong (2022) Power generated analysis of thermoelectric generator device based on electrodeposited nanocomposites through fluid flow simulation. Project Report. Universiti Teknikal Malaysia Melaka, Melaka, Malaysia. (Submitted)

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Abstract

The project which titled “Power Generated Analysis of Thermoelectric Generator Device based on Electrodeposited Nanocomposites Through Fluid Flow Simulation” has been carried out. The overall aim of this project is to find out which type of nanocomposite material embedded on the Bismuth telluride (Bi2Te3) will results in a higher output power generated in the thermoelectric generator (TEG) device. The power generated analysis of thermoelectric generator device with bismuth telluride that embedded with different type of nanocomposite materials through fluid flow simulation has been successfully carried out. The fluent simulation was conducted by using the Ansys Fluent software with the help of Solidworks to design and draw the 3D TEG and heatsink model. In a result, the highest output power generated by nanocomposite is Pt-SWCNTs/Bi2Te3 with results of 627.38μW and 635.45μW in fluid velocity of 0.01m/s and 1m/s.

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