Combustion Characteristics Of Blends Of Kerosene And Cooking Oil At Various Fuel-Air Equivalence Ratio Simulation Approach
A simulation has been conducted to evaluate the performance of a thermoelectric generator, with water-cooled heat exchanger. The simulation was conducted for three parts, which were the combustion of kerosene-vegetable cooking oil blend model, the temperature of cold side of TEG with water-cooled he...
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| Format: | Monograph |
| Language: | English |
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Universiti Sains Malaysia
2021
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| Online Access: | http://eprints.usm.my/55880/ http://eprints.usm.my/55880/1/Combustion%20Characteristics%20Of%20Blends%20Of%20Kerosene%20And%20Cooking%20Oil%20At%20Various%20Fuel-Air%20Equivalence%20Ratio%20Simulation%20Approach.pdf |
| Summary: | A simulation has been conducted to evaluate the performance of a thermoelectric generator, with water-cooled heat exchanger. The simulation was conducted for three parts, which were the combustion of kerosene-vegetable cooking oil blend model, the temperature of cold side of TEG with water-cooled heat exchanger and the power generated by TEG. The plumbum telluride thermoelectrics module consists of 128 p-type and 128 n-type semiconductor legs. The model for combustion was conducted using five different blends of kerosene-vegetable cooking oil which were 100% Kerosene, 90% Kerosene, 75% Kerosene, 50% Kerosene and 25% Kerosene. Three different water flow rates of 0.005kg/s, 0.01kg/s and 0.03kg/s flow into the heat exchanger to simulate the temperature at the cold side of the thermoelectric generator. A maximum power ouput of 227 mW was achieved using 100% kerosene at 0aa.03 kg/s. The potential different ranged between 0.12V to 0.19V and the current ranged between 0.5A – 1.2 A. |
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