The use of ground-coupled heat exchangers in ground source heat pump systems is a common way of shallow geothermal energy application, which has good sustainability and stability. For various types of buried heat exchangers, such as single U-shaped, double U-shaped, energy piles, analytical models have been established and derived. A vertical multi-U type borehole heat exchanger, which has similar operation mode to the shell-and-tube heat exchanger was designed. Forced convection through shell side pumping enhances heat exchange. This study wants to establish a temperature analysis model and perform experiments on this heat exchanger for performance analysis. The temperature analysis model established in this study corresponds to a vertical multi-U type borehole metal heat exchanger that can effectively calculate the steady state temperature stratification of the shell side and the shallow soil temperature distribution around the buried pipe. Simultaneously, the amount of heat transfer rate of the shell side and the soil side can be obtained. The error against the experimental value is less than 2%. In addition, for another vertical multi-U type borehole PVC heat exchanger, in this study, through thermal resistance analysis, a correction parameter α_f was found. The shell-side convective heat transfer coefficient calculated by using the Kern method was corrected to match the experimental values, and the error is less than 6%.