Özet:

The purpose of the study is to develop nanofluid-pure water mixture, which contains CuO and ZnO nanoparticles and has the ability to store and carry a much higher rate of heat than pure water, instead of pure water used as working fluid in heat pipes. In addition, by using these nanofluids, the surface tension of the working fluid is reduced, reducing the thermal resistance of the heat pipe, increasing the heat conduction amount even at very low temperature differences between the evaporator and condenser regions, and thus increasing the heat pipe performance. The heat pipe used in the study is a 1 m long copper pipe with an internal and external diameter of 13 mm and 15 mm, respectively, positioned at an angle of 90°. The 400 mm part of the heat pipe constitutes the condensation zone, the 400 mm part constitutes the evaporation region and the remaining 200 mm part is the adiabatic region. In the experimental study carried out, it was filled with 65 ml of work fluid, corresponding to 1/3 of the evaporator volume of the heat pipe. Experiments were carried out separately for water and nanofluids, and the results obtained were compared. The Reynolds number value was 8800 and the hot air speed was 0,555m / s, while the highest recovery rate for both CuO/water and ZnO/water nanofluids was 71.8% and 52.9%, respectively. While the cold air velocity is 0,751 m / s, the improvement rates in this value are 73.7% for CuO / water nanofluid and 50.9% for ZnO / water nanofluid.

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