S.S Magdum - COE Biotechnology, Research, Technology and Innovation Centre (RTIC), Thermax Ltd., Pune ۴۱۱۰۱۹, India
S.K Varigala - Technology Development Centre, Research, Technology and Innovation Centre (RTIC), Thermax Ltd., Pune ۴۱۱۰۱۹, India
Y.N Patil - School of Environmental & Earth Sciences, North Maharashtra University, Jalgaon ۴۲۵۰۰۱, India
G.P Minde - COE Biotechnology, Research, Technology and Innovation Centre (RTIC), Thermax Ltd., Pune ۴۱۱۰۱۹, India

Anaerobic, anoxic and aerobic environment can be simulated in the single stage sequential batch reactor (SBR) . Various design conditions viz., combinations of different phase time and different cycle time, hydraulic residence time (HRT), substrate loading rate, sludge age (SRT) and aeration time were analyzed for optimum biological treatment. The pilot runs were evaluated with the design conditions of food/microbe ratio (F/M) 0.2 per day and MLSS of 4950 mg/L. For the given design conditions 4, 5 and 6 hours cycle lengths were analyzed for their efficient performance with 30-33% of decant volume for sewage containing C:N:P of 100:8:2. Studies on 4 hours cycle resulted in the maximum overall organic and nutrient removal efficiency at SRT of 26 days and HRT of 12 hours. Efficient sequencing of reactions with respect to the simulated biological conditions in the pilot plant studies resulted in better oxygen recovery and low power consumption. Also, the enforced biological selector phase condition resulted in high microbial reaction rates for organic and nutrient removal. The removal efficiencies with 4 hours cycle time of COD, nitrogen (NH4–N) and phosphate (PO4–P) were 90, 92 and 78%, respectively. This study offers a potential option of low HRT nutrient removal SBR process.

Cycle time, Organic Loading rate, Nitrogen removal, Phosphate removal, Wastewater treatment, sequential batch reactor