Chemical Engineering Journal, Vol.327, 924-931, 2017
Integrated experimental and modeling evaluation of energy consumption for ammonia recovery in bioelectrochemical systems
Bioelectrochemical systems (BES) can recover ammonia from wastewater driven by electricity generation. However, energy consumption of such an approach has not been well evaluated. In this study, the effects of several key operating factors including catholyte aeration rate, external voltage, and external resistance on both ammonia recovery and energy consumption were systematically investigated. A mathematical model developed for ammonia removal/recovery in BES was applied to help interpret the experimental results. It was found that a high aeration rate in the catholyte could facilitate ammonia recovery. An aeration rate of 100 mL min (1) resulted in the lowest energy consumption of 4.9 kWh kg (1) N recovery among the tested aeration rates. A low external resistance facilitated the ammonia recovery via higher current generation, while a moderate external voltage (e.g., 0.5 V) helped to achieve low energy consumption. The highest ammonia recovery rate of 7.1 g N m (2) d (1) was obtained with energy consumption of 5.7 kWh kg (1) N recovery. Therefore, there is a trade-off between energy consumption and ammonia recovery. (C) 2017 Elsevier B.V. All rights reserved.
Keywords:Bioelectrochemical system;Energy consumption;Ammonia recovery;Aeration rate;Electricity generation