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Analysis Of Power Characteristics Of Model Thermoelectric Generator (TEG) Small Modular
[Full Text]
AUTHOR(S)
Kisman H. Mahmud, Sri Anastasia Yudistirani, Anwar Ilmar Ramadhan
KEYWORDS
Thermoelectric generators, TEG Material, Thermoelectric Cooling, Semiconductor, Experimental
ABSTRACT
Thermoelectrically Generator (TEG) can generate electricity from the temperature difference between hot and cold, at the junction thermoelectric module with two different semiconductor materials, there will be a flow of current through the junction so as to produce a voltage. This principle uses the Seebeck effect thermoelectric generator as a base. By using these principles, this research was conducted to determine the potential of the electric energy of the two peltier modules which would be an alternative source for mobile charger using heat from source of methylated. The focus in this research is the testing of the model TEG (Thermoelectric Generator) Small Modular to generate power with a variety of different materials of 4, namely: Bi2Te3 (Bismuth Telluride), PbTe-Bite, CMO and CMO Cascade-32-62S-32-62S [Calcium Mangan oxide], to use the cold side heat sink and a fan to simulate heat aluminum plate attached to the hot side of the TEG modules with heat source of methylated. Test results on the TEG Small Modular Model for mobile charger output voltage obtained from 2 pieces Bi2Te3 module (Bismuth Telluride) Peltier strung together a series of 3.01 Volt, with ΔT of 22.7 ° C which produce power of 0.091 Watt.
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