Control Strategy of Anoxic-Oxic Sequencing Batch Reactor System Using a Specific Feature of Nitrous Oxide Gas

Abstract

An experimental study was conducted to establish the control strategy of an anoxic-oxic sequencing batch reactor system (AOSBR) using a specific feature of N₂O generated during the anoxic and oxic phases. Since NH₄⁺-N, NO₂^--N and gaseous N₂O (GN₂O) were found to disappear simultaneously in the oxic phase, the end point of nitrification may be detected from the GN₂O profile. It was suggested that the stagflation of nitrification and denitrification could be detected by abnormal GN₂O emission in the oxic and anoxic phases. Compared with the conventional indexes of AOSBR, GN₂O has several advantages. First, the regulation of GN₂O emission could be conducted directly, and second maintenance is easier than conventional indexes because the GN₂O monitoring system is more durable than the monitoring system for water quality.