TY - JOUR
T1 - Impact of calcium on biofilm morphology, structure, detachment and performance in denitrifying fluidized bed bioreactors (DFBBRs)
AU - Eldyasti, Ahmed
AU - Nakhla, George
AU - Zhu, Jesse
N1 - Funding Information:
The authors gratefully acknowledge Natural Science and Engineering Research Council of Canada (NSERC), Ontario Graduate Scholarship (OGS), Canada, and Trojan Technologies, ON, Canada for their support at every stage of this research project.
PY - 2013/10
Y1 - 2013/10
N2 - The impact of calcium concentrations on the biofilm morphology, structure, detachment and denitrification efficiency in denitrifying fluidized bed bioreactors (DFBBRs) was investigated. The DFBBRs were operated on a synthetic municipal wastewater at five different calcium concentrations ranging from the typical Ca2+ concentration of the tap water (20mg Ca2+/L) to 240mg Ca2+/L at two different C/N ratios of 5 and 3.5 in phases I and II, respectively for a period of 200days. Extracellular polymeric substances (EPS), Ca2+ concentration, water quality parameters, and microscopic images were monitored regularly in both phases. Calcium concentrations played a significant role in biofilm morphology with the detachment rates for R120Ca (bioreactor with a Ca2+ concentration of 120mg/L), R180Ca, and R240Ca 90% and 70% lower than for R20Ca and R60Ca, respectively. The optimum influent calcium concentration at both organic and nitrogen loading rates was 120mg Ca2+/L, with higher concentrations exhibiting fractured and weak biofilms. Specific denitrification rates did not change with changing the C/N ratio at elevated Ca2+ concentration bioreactors while with lower Ca2+ concentrations, the specific denitrification rates dropped by 20-40%. Nutrients and Ca2+ mass balances were closed with reasonable accuracy.
AB - The impact of calcium concentrations on the biofilm morphology, structure, detachment and denitrification efficiency in denitrifying fluidized bed bioreactors (DFBBRs) was investigated. The DFBBRs were operated on a synthetic municipal wastewater at five different calcium concentrations ranging from the typical Ca2+ concentration of the tap water (20mg Ca2+/L) to 240mg Ca2+/L at two different C/N ratios of 5 and 3.5 in phases I and II, respectively for a period of 200days. Extracellular polymeric substances (EPS), Ca2+ concentration, water quality parameters, and microscopic images were monitored regularly in both phases. Calcium concentrations played a significant role in biofilm morphology with the detachment rates for R120Ca (bioreactor with a Ca2+ concentration of 120mg/L), R180Ca, and R240Ca 90% and 70% lower than for R20Ca and R60Ca, respectively. The optimum influent calcium concentration at both organic and nitrogen loading rates was 120mg Ca2+/L, with higher concentrations exhibiting fractured and weak biofilms. Specific denitrification rates did not change with changing the C/N ratio at elevated Ca2+ concentration bioreactors while with lower Ca2+ concentrations, the specific denitrification rates dropped by 20-40%. Nutrients and Ca2+ mass balances were closed with reasonable accuracy.
KW - Biofilm morphology
KW - Calcium
KW - Denitrification
KW - Extracellular polymeric substances (EPS)
KW - Fluidized bed
UR - http://www.scopus.com/inward/record.url?scp=84882798248&partnerID=8YFLogxK
U2 - 10.1016/j.cej.2013.07.084
DO - 10.1016/j.cej.2013.07.084
M3 - Article
AN - SCOPUS:84882798248
SN - 1385-8947
VL - 232
SP - 183
EP - 195
JO - Chemical Engineering Journal
JF - Chemical Engineering Journal
ER -