Nanofluids exhibit interesting heat transfer enhancement capabilities that may render them good candidates for use in industrial applications. They can be used as a cooling medium to spray onto the bottom of a piston to reduce the overall heat load during the operation of an engine. However, the flow and temperature fields in an impinging jet of nanofluid are rather complex in the multiphase turbulent state. In order to accurately describe the flow and heat transfer processes in an impinging jet, the current article explores several different turbulence models and wall functions, discusses the velocity and temperature fields predicted by the single-phase model and various multiphase models, and analyzes the influence of nanoparticles on the base fluid. On this basis, the effects of physical properties, concentration, Reynolds number, and geometrical configuration on the process of impingement cooling with nanofluids are investigated. The results may provide a reliable reference for the transient spray cooling of pistons with nanofluids.

• 出版日期2014-10-2
• 单位大连理工大学