The present study numerically investigates two-dimensional laminar fluid flow past a circular cylinder near a moving wall. For the purpose of a careful analysis of the modification of flow fields around a cylinder by a moving wall, numerical simulations to calculate the fluid flow past a circular cylinder are performed for different Reynolds numbers of 100, 140 and 180 in the range of , where is the ratio of the gap between the cylinder and a moving wall, and the cylinder diameter, . The present study reports the detailed information of flow quantities on the cylinder surface at different gap ratios. As the gap ratio decreases, the vortex shedding formed in the wake is suppressed and the oscillating amplitude of lift coefficient decreases. Thus the drag and lift coefficients representing the fluid flow characteristics also vary as a function of the gap ratio with the dependence of Reynolds number.