A Predictive Model for Anaerobic Filters Treating Low Strength Domestic Wastewaters

Seth David Abramson

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DOI: 10.2190/MUDC-W7AN-MEBF-G748

Abstract

The anaerobic filter pilot plant was operated for two years using low strength domestic wastewater. The pilot plant used two upflow reactors filled with a PVC packing material which supported the growth of submerged microbial films. A mathematical model was developed using first order mass balances of the major components produced both biologically and chemically, including CH₄, CO₂, and N₂. The model used characteristics of the influent stream to predict characteristics of both the effluent liquid and gas phases, and was programmed using the Crank-Nicolson algorithm. Predicted results were consistent with experimental data. Using optimized parameters of dispersion, velocity, and a first order reaction constant, the model predicted effluent treatment levels to within 5 percent of the data, with treatment efficiencies of 40-90 percent TOC removal, depending on influent concentrations and retention times. Operation of the model would determine conditions necessary for achieving secondary treatment standards of <30 mg/1 effluent BOD₅ and TSS on a monthly average for a variety of biodegradable substrates. Future applications would eliminate lengthy pilot plant studies to predict anaerobic filter performance.

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