The forest coverage rate in Taiwan is about 60%. Many major rivers and upstream catchment of reservoirs are covered by forests. With the rise of the concept of environmental protection, the ability of forests to conserve water and soil resources has also received great attention. In addition, Taiwan has been frequently attacked by typhoons in recent years. It is not uncommon for landslides and floods to occur in mountain and upstream of rivers. People have begun to care about the impact of forests on floods and landslides, and the effectiveness of afforestation. At present, the commonly used method for runoff estimation in engineering is the Curve Number Method of the U.S. Soil Conservation Service. It is a simple and easy-to-use method, but it cannot effectively reflect the influence of vegetation when applied to forest catchment. However, other hydrological models suitable for simulating forest catchments are too complex and are not conducive to engineering applications. The purpose of this study is to propose an improved version of the Curve Number Method, hoping to reflect the impact of vegetation on hydrology without being overly complicated. Therefore, this study uses several modules in the existing hydrological model Precipitation Runoff Modeling System (PRMS) and refers to its calculation method and uses the Curve Number Method as the main structure to modify, redefine each item in the parameters, and replace the method of characterize the runoff properties for a soil and ground cover by the Curve Number. The Nanshi creek and Tonghou creek catchments were selected for parameter calibration and model verification of PRMS, and then the long-term and short-term results of the modified Curve Number Method were compared and discussed with the original and model results. According to the results of the study, the modified Curve Number Method improves the soil infiltration capacity and initial loss, and can improve the situation of overestimating runoff, but the effect is limited due to the innate structure of the formula. In addition, the results also deduce that the excess rainfall in the Curve Number Method is not only the surface runoff, but also includes part of the shallow groundwater.