Using advanced control, post-denitrification and equalisation to improve the performance of a submerged filter

摘要

In 1998, the capacity of the BIOSTYR(R) submerged biofilter at Nyborg WWTP was extended from 48,000 PE to 60,000 PE including advanced sensor based control, post-denitrification in BIOSTYR(R) and equalization of side flows. The existing configuration with 8 BIOSTYR(R) DN/N cells is based on pre-denitrification and an infernal recirculation of 600-800 %. The extended plant comprises 7 BIOSTYR(R) DN/N cells with 50-225% recirculation followed by 3 BIOSTYR DN cells for post-denitrification. The advanced control loops include blower control, control of the number of active cells (stand-by), automatic switch to high load configuration, control of the side flow equalization, control of the internal recirculation and control of the external carbon source dosing. In this paper, the achieved improvements are documented by comparing influent and effluent data, methanol and energy consumption from comparable periods before and after the extension. Although the nitrogen load to the plant was increased by 20% after the extension, the effluent quality has improved significantly with a reduction of Total-N from 7-8 mg/l to 3-4 mg/l. Simultaneously, the methanol consumption has been reduced by more than 50% per kg removed nitrogen. The energy consumption remained constant although the nitrogen load was increased by 20% and the inflow by 80%. [References: 7]