Shallow geothermal Energy has been considered an effective way to save energy as renewable energy becomes popular. The thermal capacity of shallow earth is considerable. Its change of temperature is small relative to the surrounding temperature above the ground. A borehole is drilled in the experiment of this study in a depth of 25 meters, and U-type PVC tubes are placed as heat exchanger. Water as the work fluid can exchange heat with groundwater and facilities like heat pumps or VRFs. This study focuses on the efficiency improvement because of some forced convection in the well. Definition of Reynolds number in Kern Method is adopted to show the relation between the forced convection and the convection coefficient outside the U tube. Meanwhile, to avoid excessive pumping, analyzing the dropping curve because of pumping is necessary. Last, in the experiment of this study, the temperature difference of extracted water and compensating water reached 0.7℃, while 38% of injected energy is carried away because of the pumping system. Besides, compared with the system with no pumping, this system reduced the required borehole length to21%, and the relation between Re and h_o is h_o=114.81〖Re〗^0.1876。