A model for determination of operational conditions for successful shortcut nitrification

Liu, Xiaoguang; Kim, Mingu; Nakhla, George

A model for determination of operational conditions for successful shortcut nitrification

2017

Liu, Xiaoguang | Kim, Mingu | Nakhla, George

Accumulation of nitrite in shortcut nitrification is influenced by several factors including dissolved oxygen concentration (DO), pH, temperature, free ammonia (FA), and free nitrous acid (FNA). In this study, a model based on minimum dissolved oxygen concentration (DOₘᵢₙ), minimum/maximum substrate concentration (Sₘᵢₙ and Sₘₐₓ), was developed. The model evaluated the influence of pH (7–9), temperature (10–35 °C), and solids retention time (SRT) (5 days–infinity) on MSC values. The evaluation was conducted either by controlling total ammonium nitrogen (TAN) or total nitrite nitrogen (TNN), concentration at 50 mg N/L while allowing the other to vary from 0 to 1000 mg N/L. In addition, specific application for shortcut nitrification-anammox process at 10 °C was analyzed. At any given operational condition, the model was able to predict if shortcut nitrification can be achieved and provide the operational DO range which is higher than the DOₘᵢₙ of AOB and lower than that of NOB. Furthermore, experimental data from different literature studies were taken for model simulation and the model prediction fit well the experiment. For the Sharon process, model prediction with default kinetics did not work but the model could make good prediction after adjusting the kinetic values based on the Sharon-specific kinetics reported in the literature. The model provides a method to identify feasible combinations of pH, DO, TAN, TNN, and SRT for successful shortcut nitrification.

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