Detailed heat transfer distributions over a jet impingement target surface with grooves were presented. Transient liquid crystal method was used to measure the detailed heat transfer coefficients with the average jet Reynolds numbers of 2500, 5100 and 7700.Grooves were machined on the target surfaces with either parallel or orthogonal to the exit flow direction. These grooves were either aligned with the jet holes (inline) or between the jet holes (staggered). Results showed local heat transfer coefficient increases with an increase of average jet Reynolds number over the entire impingement target surface. Local heat transfer distributions were affected by the groove configuration and staggered grooves can enhance local heat transfer coefficient near the exit. Four different grooved types in this study didn’t have significant effect on the overall heat transfer coefficient on the target plate.