In mine drainage contaminated with arsenic(As) and manganese(Mn), low iron(Fe) concentrations can make As removal difficult, and effective Mn removal requires a high pH range of 9.5 to 10.0. Additionally, remediation becomes more energy-intensive in cases of complex contamination. Therefore, this study aims to evaluate the effects of artificially supplying Fe using iron-based materials (redmud and iron-containing precipitates) to enhance the treatment efficiency of As- and Mn-contaminated mine drainage. The target mine drainage from the Dadeok mine showed a near-neutral pH (average 6.2), with Fe, As, and Mn concentrations averaging 8.0, 1.0, and 8.3 mg/L, respectively. Experiments were conducted by adjusting the pH using Ca(OH)₂ and evaluating the removal efficiency of As and Mn according to Fe supplementation from iron-based materials. In the case of experiments using redmud and iron-containing precipitates to supply Fe in the mine drainage, As showed a 55% increase in removal efficiency compared to the case of adjusting to pH 10 using slaked lime, and Mn was additionally removed by 23% compared to the case of adjusting to pH 9.0.