TY  - JOUR
TI  - Experimental and Numerical Analysis of Using Thermoelectric Generator Modules on Hexagonal Exhaust Heat Exchanger
AB  - Nowadays, many vehicles have internal combustion engines. In the cities, millions of vehicles affect badly the environment with their emissions due to fossil fuel. Besides of harmful pollution gases, a huge amount of energy is lost from the exhaust on internal combustion engines. It is possible to recover some part of the waste heat from the exhaust duct with advanced technological applications. Electricity generation from vehicle exhaust waste heat with thermoelectric generators is a highly attractive energy recovery application area in which many studies have been done recently. Thermoelectric generators are special semiconductor materials that produce electricity from the temperature difference between the surfaces by touching the hot source and heat sink. Recovering some part of the waste heat is extremely important in terms of contributing to reducing the pollution rate to unit energy production. In this study, the thermoelectric generator application was investigated experimentally with a hexagonal exhaust heat exchanger manufactured using aluminum material and 24 pieces TEG (Thermoelectric Generator) modules placed between liquid fluid copper cooling blocks and aluminum exchanger. The model was cooled by a cooling system similar to the engine cooling system. Pure water (100%) and ethylene glycol-pure water (50-50%) were used as a coolant fluid and the effect of fluid type was investigated. In cases which the fan is constantly running and Ethylene Glycol-Pure Water (50-50%) is used as the cooling fluid, 10.678W electricity was generated. In addition, it was determined that the energy-production increases with a deflector which was located to the exchanger’s fluid volume center via the ANSYS CFD program on the manufactured model geometry. In the analyzes, it has been revealed that the deflector increases the temperatures on the surfaces that TEG modules are placed.
AU  - DURAN, Kağan
AU  - ERDOĞAN, BEYTULLAH
AU  - zengin, ibrahim
PY  - 2021
JO  - Karaelmas Fen ve Mühendislik Dergisi
VL  - 11
IS  - 1
SN  - 2146-4987
SP  - 54
EP  - 60
DB  - TRDizin
UR  - http://search/yayin/detay/492422
ER  -