
Comparisons of nitrogen and phosphorus removal efficiency in A2/O process, UCT process, MUCT process, enhanced phosphorus removal process and inverted A2/ O process based on GPS-X simulation
Author(s) -
Shuhan Lei,
Jianqiang Zhao,
Shuting Xie,
Junkai Zhao,
Jia Min,
Xiaoqing Ma,
Yan Cao
Publication year - 2022
Publication title -
iop conference series. earth and environmental science
Language(s) - English
Resource type - Journals
eISSN - 1755-1307
pISSN - 1755-1315
DOI - 10.1088/1755-1315/983/1/012114
Subject(s) - phosphorus , effluent , anoxic waters , chemistry , nitrogen , wastewater , nuclear chemistry , environmental engineering , pulp and paper industry , environmental chemistry , environmental science , organic chemistry , engineering
By using the GPS-X software, the enhanced phosphorus removal (EPR)process was simulated in this study. The comparisons among nitrogen and phosphorus removal efficiency of traditional A 2 /O process, University of Cape Town (UCT) process, Modified University of Cape Town (MUC) process and inverted A 2 /O process were conducted, in order to determine the best process under the same conditions of construction investment and running cost. The results showed that the simply reversed A 2 /O process exhibited poor total phosphorus (TP) removal efficiency under low carbon level. The effluent water qualities of the other three processes under low, medium and high levels of carbon source met the first B level criteria in Discharge Standard of Pollutants for Municipal Wastewater Plan ( GB18918-2002 ) for China. The ranges of removal efficiencies of TP, TN, NH 4 + -N and COD were 63.15% ∼ 94.91%, 55.38% ∼ 77.89%, 96.91% ∼ 97.70% and 90.89% ∼ 93.66%, respectively. Denitrifying phosphorus removal occurred in anoxic tank of EPR process. The phosphorus accumulation concentration was 6.91 mg/L, and the maximum phosphorus released in anaerobic tank was 24.01 mg/L, and the higher P release gave the EPR process a high P removal effiency. Except for the TN which met the first B level criteria ( GB18918-2002 ), TP, NH 4 + -N and COD met the first A level criteria GB18918-2002 ), above that, the process was feasible. Inverted A 2 /O process exhibited the highest nitrogen removal efficiency for its sufficient carbon source in anoxic tank.