INVESTIGATION OF HEAT TRANSFER IN COMBINED JET FLOW CHANNELS WITH DIFFERENT FIN ANGLES AND USING DIAMOND-WATER NANOFLUID
Abstract
With traditional heat transfer methods, more energy is consumed and sufficient and desired heat transfer performance cannot be achieved. However, with the development of technology, the heating problem arises in high-performance and small-volume electronic components. In addition to the impinging jet, the heat transfer from the components of the electronic devices is considerably improved with the combined jet effect created by the cross flow. In this study, heat transfer and performance analysis (PEC) dependent pressure drop from trapezoidal and crown patterned surfaces were numerically investigated