Department of Chemical and Biological Engineering, University of Saskatchewan, 57 Campus Drive, Saskatoon, SK, S7N 5A9, Canada.
Bioprocess Biosyst Eng. 2022 Feb;45(2):391-407. doi: 10.1007/s00449-021-02669-6. Epub 2021 Dec 2.
Effects of naphthenic acids (NAs) concentration (50-200 mg NA L; 35-140 mg TOC L) and loading rate (1.4-1249 mg NA L h; 1-874 mg TOC L h) on removal efficiency, removal rate, and molecular distribution of NAs, and effluent toxicity were evaluated for biodegradation of commercial NAs mixture in circulating packed bed bioreactors (CPBBs). Increase of NAs concentration and loading rate (shorter residence times) increased the removal rate, while removal efficiency initially declined and then stabilized. The maximum biodegradation rates for 50, 100, 150, and 200 mg NA L were 128.0, 321.7, 430.2, and 630.0 mg TOC L h at loading rates of 218.5, 455.6, 673.5 and 874.0 mg TOC L h, respectively, with removal efficiencies of 58.6, 70.6, 63.9 and 72.1%. Analysis of influent and treated effluents with gas chromatography-mass spectrometry showed that molecular weight and cyclicity (C and Z numbers) affected the biodegradation, with low molecular weight acyclic NAs (C = 6-12) were the most amenable to biodegradation and those with intermediate and high molecular weights (C = 13-22) and moderate cyclicity (Z = - 4, - 6) were the most recalcitrant. In the biofilm, Proteobacteria and Actinobacteria were the most abundant phyla, and Alphaproteobacteria, Betaproteobacteria, and Gammaproteobacteria were the dominant classes. Toxicity analyses with Artemia salina and Vibrio fischeri (Microtox) showed that high influent concentrations and loading rates (short residence times) led to higher NAs residual concentration and effluent toxicity. To design and operate large-scale CPBBs, intermediate loading rates and residence times that result in high removal efficiency, reasonable removal rates, and low toxicity are recommended.
在循环填充床生物反应器 (CPBB) 中评价了萘酸 (NA) 浓度 (50-200mg NA L;35-140mg TOC L) 和加载率 (1.4-1249mg NA L h;1-874mg TOC L h) 对商业 NA 混合物生物降解的去除效率、去除率和 NA 的分子分布以及出水毒性的影响。NA 浓度和加载率(较短的停留时间)的增加提高了去除率,而去除效率最初下降,然后稳定。在 218.5、455.6、673.5 和 874.0mg TOC L h 的加载率下,50、100、150 和 200mg NA L 的最大生物降解速率分别为 128.0、321.7、430.2 和 630.0mg TOC L h,去除效率分别为 58.6、70.6、63.9 和 72.1%。用气相色谱-质谱法分析进水和处理后的废水表明,分子量和环数 (C 和 Z 数) 影响生物降解,低分子量无环 NA (C=6-12) 最易生物降解,而中等分子量 (C=13-22) 和中等环数 (Z=-4,-6) 的最难以生物降解。在生物膜中,变形菌门和放线菌门是最丰富的门,α变形菌纲、β变形菌纲和γ变形菌纲是主要的纲。用卤虫和发光菌 (Microtox) 进行的毒性分析表明,高进水浓度和加载率(短停留时间)导致 NA 残留浓度和出水毒性更高。为了设计和运行大型 CPBB,建议采用中等加载率和停留时间,以获得高去除效率、合理的去除率和低毒性。
