TY - JOUR
T1 - Enhanced biological phosphorus removal in an anaerobic-aerobic sequencing batch reactor
T2 - Effect of pH
AU - Jeon, Che Ok
AU - Lee, Dae Sung
AU - Lee, Min Woo
AU - Park, Jong Moon
PY - 2001
Y1 - 2001
N2 - Enhanced biological phosphorus removal (EBPR) is not always successfully achieved in activated-sludge processes by anaerobic-aerobic operation. It has been reported that the deterioration of EBPR has been caused by domination of glycogen-accumulating organisms (GAOs) in microbial sludge. After repeated operation of a sequencing batch reactor (SBR) supplied with acetate as a sole carbon source, it was found that an operational variable, pH, could be a tool to control the competition between GAOs and polyphosphate-accumulating organisms PAOs, which could mediate the success of EBPR. When anaerobic phase pH in the SBR was controlled at 7.0. GAOs dominated the culture, resulting in failure of EBPR. Without pH control, the pH during the anaerobic phase increased to 8.4 as a result of denitrification and acetate uptake. In this relatively high pH condition, almost complete EBPR was achieved. In this report, the mechanism of pH effect on the competition between GAOs and PAOs was elucidated through a characterization of activated sludge using previously proposed biochemical models.
AB - Enhanced biological phosphorus removal (EBPR) is not always successfully achieved in activated-sludge processes by anaerobic-aerobic operation. It has been reported that the deterioration of EBPR has been caused by domination of glycogen-accumulating organisms (GAOs) in microbial sludge. After repeated operation of a sequencing batch reactor (SBR) supplied with acetate as a sole carbon source, it was found that an operational variable, pH, could be a tool to control the competition between GAOs and polyphosphate-accumulating organisms PAOs, which could mediate the success of EBPR. When anaerobic phase pH in the SBR was controlled at 7.0. GAOs dominated the culture, resulting in failure of EBPR. Without pH control, the pH during the anaerobic phase increased to 8.4 as a result of denitrification and acetate uptake. In this relatively high pH condition, almost complete EBPR was achieved. In this report, the mechanism of pH effect on the competition between GAOs and PAOs was elucidated through a characterization of activated sludge using previously proposed biochemical models.
KW - Enhanced biological phosphorus removal
KW - Glycogen
KW - Glycogen-accumulating organisms
KW - Microbial competition
KW - pH
KW - Polyphosphate-accumulating organisms
KW - Sequencing batch reactors
UR - http://www.scopus.com/inward/record.url?scp=0035571560&partnerID=8YFLogxK
U2 - 10.2175/106143001x139407
DO - 10.2175/106143001x139407
M3 - Article
C2 - 11561589
AN - SCOPUS:0035571560
SN - 1061-4303
VL - 73
SP - 301
EP - 306
JO - Water Environment Research
JF - Water Environment Research
IS - 3
ER -