In this study, a square fluidized pellet softener in a drinking water treatment plant in southern Taiwan was systematically diagnosed to evaluate its flow condition and performance by analyzing the total hardness, total alkalinity, pH, particle size of crystalized pellet, porosity, and uniformity coefficient. Result shows that the measured total hardness and pH value in the effluent from different directions in the pellet softener varied a lot and were susceptible to flow pattern as well as disproportionate dosing of NaOH due to the blocked nozzle by crystallized CaCO3. As a result, it is hard to reach the chemical equilibrium between total hardness and M-alkalinity. However, at 0.5~2.0 m above the bottom of the pellet softener, the total hardness was as same as that in the effluent. In this study, we also proposed some suggestions for improving disproportionate inflow and NaOH dosing problems.