Filter clogging in stormwater infiltration system affects significantly on the removal efficiency and facility lifespan. Although contaminants are removed by clogging process, excessive clogging could reduce removal efficiency and terminate function. Thus, to understand influencing factors on the optimal design, is essential to accomplish effective operation and proper lifespan. In this study, effects of a particle diameter and layering of media on contaminant removal and clogging were examined by conducting a series of 1-D column infiltration tests. Pure, mixed and layered filters built with sand with particle size and gradation of 0.85~2 mm and 2~4.75 mm were tested. It was found from the tests that a pure small particle and a mixed filters clogged faster than a pure large particle filter. The filter layered as a large particle layer with thickness of 325 mm overlying a small particle layer with thickness of 250mm clogged slowly compared the filters involving small particles, but faster than the large particle filter. As a result, it was verified that the filter involved with small particles could be designed to improve removal efficiency. The filter composed of a large and a small particle layers was also verified to be the more efficient filter for the case where a long life span was required in addition to removal efficiency.