Since groundwater, resources play a vital role in regional water supply, groundwater protection and conservation is an important issue in Taiwan. A systematic approach to assessing high recharge areas is a key factor in groundwater conservation. Therefore, this study proposes a systematic procedure that combines a factor-based method and geographic information system (GIS) to determine the spatial distribution of recharge potential and define high groundwater recharge areas. This study selects seven factors to determine recharge potential: land use, surface soil type, drainage density, average annual rainfall, the correlation between rainfall and groundwater level variation, the variation of unit aquifer storage, and hydraulic conductivity. Calculating the recharge potential requires three steps; defining all factor scores, determining the weighting of factors, and summing the weighted factor scores. The purpose of the first step is to define the recharge score for each factor. A high factor score value represents high recharge potential for that factor. Second, the determination of weighting among factors was based on Shaban et al.’s factor analysis method, in that a diagram of logical relationship among factors is defined and the factor weights are computed based on the diagram. After determining the recharge score of each factor and its weighting, the total recharge score was obtained by summing all weighted factor scores. A high total score represents a high recharge potential. This study uses a GIS system for analysis, and all the values, including recharge potential, were spatially distributed. This study applies the proposed method to Choshuihsi Alluvial Fan. Results show that the proximal area has a high recharge potential that decreases in the distal area. These results are similar to the results of prior studies using Resistivity Image Profile of the Schlumberger Array and the field investigations conducted by the Industrial Technology Research Institute of Taiwan. This case study demonstrates that the proposed procedure is a reliable and efficient method of measuring groundwater recharge potential, and is therefore a useful tool for groundwater resource management.