Moreno Lyman, Nemati Mehdi, Predicala Bernardo
a Department of Chemical and Biological Engineering , University of Saskatchewan , Saskatoon , Canada.
b Prairie Swine Centre Inc. , Saskatoon , Canada.
Environ Technol. 2018 Jan;39(2):144-156. doi: 10.1080/09593330.2017.1296895. Epub 2017 Mar 3.
Phenol biodegradation was evaluated in batch and continuous flow microbial fuel cells (MFCs). In batch-operated MFCs, biodegradation of 100-1000 mg L phenol was four to six times faster when graphite granules were used instead of rods (3.5-4.8 mg L h vs 0.5-0.9 mg L h). Similarly maximum phenol biodegradation rates in continuous MFCs with granular and single-rod electrodes were 11.5 and 0.8 mg L h, respectively. This superior performance was also evident in terms of electrochemical outputs, whereby continuous flow MFCs with granular graphite electrodes achieved maximum current and power densities (3444.4 mA m and 777.8 mW m) that were markedly higher than those with single-rod electrodes (37.3 mA m and 0.8 mW m). Addition of neutral red enhanced the electrochemical outputs to 5714.3 mA m and 1428.6 mW m. Using the data generated in the continuous flow MFC, biokinetic parameters including μ, K, Y and K were determined as 0.03 h, 24.2 mg L, 0.25 mg cell (mg phenol) and 3.7 × 10 h, respectively. Access to detailed kinetic information generated in MFC environmental conditions is critical in the design, operation and control of large-scale treatment systems utilizing MFC technology.
在间歇式和连续流微生物燃料电池(MFC)中对苯酚的生物降解进行了评估。在间歇运行的MFC中,当使用石墨颗粒而非石墨棒时,100 - 1000 mg/L苯酚的生物降解速度快4至6倍(分别为3.5 - 4.8 mg/(L·h)和0.5 - 0.9 mg/(L·h))。同样,在带有颗粒电极和单棒电极的连续MFC中,最大苯酚生物降解速率分别为11.5 mg/(L·h)和0.8 mg/(L·h)。这种卓越性能在电化学输出方面也很明显,带有颗粒石墨电极的连续流MFC实现了最大电流密度和功率密度(分别为3444.4 mA/m²和777.8 mW/m²),显著高于带有单棒电极的MFC(分别为37.3 mA/m²和0.8 mW/m²)。添加中性红将电化学输出提高到5714.3 mA/m²和1428.6 mW/m²。利用连续流MFC中产生的数据,确定了包括μ、K、Y和Kd在内的生物动力学参数分别为0.03 h⁻¹、24.2 mg/L、0.25 mg细胞/(mg苯酚)和3.7×10⁻⁴ h⁻¹。获取在MFC环境条件下产生的详细动力学信息对于利用MFC技术的大规模处理系统的设计、运行和控制至关重要。
