Due to the new effluent standards for optoelectronic material and element manufacturing industry on 12 Oct. 2012, NH4+-N and many other items is going to be included in Science Park Sewage Effluent Standards and charging fee. This study analyzed the basic water characteristics and the daily ammonia nitrogen discharge volume, and estimated the efficiency of each treatment unit in a real semiconductor wastwater plant. Based on the basic theory and reference data, the study also estimated the maximum treatment capacity of ammonia nitrogen in the plant, and suggested further improvement strategies. This study sampled 7 sampling points from 3 source waters twice a month for 6 months. After the denitrification, nitrification and MBR reaction process, the treatment efficiency of TOC, COD, and sCOD were about 95%, 97%, and 97%, based on the average influent volume and water quality. And the TN, TKN, NH4+-N, NO3--N degradeation rate were about 22%, 86%, 96%, 0%. It showed the basic ability of the biological treatment system to degrade and treat organic compounds and ammonia nitrogen. However, the poor dinitrification efficiency, 28% in the denitrification tank, resulted in a low removal efficiency of total nitrogen (22%). The result also showed the maximum loading rate of NH4+-N was near the same with the reference data, which was 0.08-0.26 kg/m3/d (Ave 0.17kg/m3/d) and 0.176-0.4 kg/m3/d, respectively. The difference between sBOD/TKN (Ave 0.016) and theoretical demand of BODL (4g) showed the C/N ratio was abviously inadequate. In conclusion, adjusting the C/N ratio is expected to improve the denitrification efficiency.