Analysis of sequencing batch bioreactors in large-scale denitrifying applications
Document Type
Article
Publication Date
6-8-1992
Abstract
Certain industrial processes (e.g. munitions manufacture) involve the generation of large volumes of waste with high nitrate concentration. Biological denitrification can be a very cost-effective means to deal with these wastes. At the same time, sequencing batch reactors (SBRs), also called fed-batch reactors, have a number of inherent advantages over conventional continuous treatment processes for high strength waste. They are much more flexible in responding to changes in the feed composition and flow, and changes in microbial characteristics. The purpose of this study was to develop a mathematical model of denitrification using a sequencing batch reactor, and apply that model to a scale-up process. Mathematical analysis of biological denitrification in SBRs is complicated by both the cyclical fill and draw operation of the SBR, as well as by generation of a toxic intermediate (nitrite). The Monod expression was used to describe nitrate utilization, while the Andrews (substrate inhibition) expression was used to described nitrite utilization. The key operating parameters included in the model were the fraction of reactor volume emptied at the end of each cycle, the total cycle time and fraction of time devoted to fill, and the hydraulic residence time. The mathematical model was tested experimentally, and the results indicated operating regimes that would minimize nitrite concentration. These operating and design parameters were then incorporated into the specification of a large-scale SBR system, treating 8,000 mg/l of nitrate at a flow rate of 1,022 m3/day, using four 340 m3 reactors. © 1992.
Identifier
0026878442 (Scopus)
Publication Title
Chemical Engineering Science
External Full Text Location
https://doi.org/10.1016/0009-2509(92)87065-X
ISSN
00092509
First Page
2389
Last Page
2394
Issue
9-11
Volume
47
Recommended Citation
Lewandowski, G. A. and Baltzis, B. C., "Analysis of sequencing batch bioreactors in large-scale denitrifying applications" (1992). Faculty Publications. 17297.
https://digitalcommons.njit.edu/fac_pubs/17297
