A numerical study of the conjugate heat transfer of an impinging jet with the moving flat plate has been carried out using the standard high Reynolds number two equation k ∈ − eddy viscosity model. The plate velocity has been considered in the range of 0 − 0.25 with the interval of 0.05. The Reynolds number based on the jet exit conditions and the turbulent intensity at the nozzle exit are considered 9,900 and 2% respectively. The nozzle-to plate distance (h/w) is fixed at 7.5 for all the simulations. The constant wall temperature boundary condition has been considered at the bottom face of the moving flat plate. The influence of plate velocity on the flow field and heat transfer has been presented using the one-dimensional plot of velocity, pressure, temperature, Nusselt number, and skin friction coefficient. It is found the rate of heat transfer gets uniform with increase in the plate velocity © 2018 by the authors of the abstracts.