强化联合包装材料在生物滴滤塔中去除混合硫化合物的效果及微生物群落分析。

Enhancement of using combined packing materials on the removal of mixed sulfur compounds in a biotrickling filter and analysis of microbial communities.

机构信息

Guangdong Institute of Microbiology, Guangdong Academy of Sciences, Guangzhou, 510070, People's Republic of China.

State Key Laboratory of Applied Microbiology Southern China, Guangzhou, 510070, People's Republic of China.

出版信息

BMC Biotechnol. 2019 Jul 25;19(1):52. doi: 10.1186/s12896-019-0540-8.

DOI:10.1186/s12896-019-0540-8

PMID:31345193

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6659214/

Abstract

BACKGROUND

Packing materials is a critical design consideration when employing biological reactor to treat malodorous gases. The acidification of packing bed usually results in a significant drop in the removal efficiency. In the present study, a biotrickling filter (BTF2) packed with plastic balls in the upper layer and with lava rocks in the bottom layer, was proposed to mitigate the acidification.

RESULTS

Results showed that using combined packing materials efficiently enhanced the removal performance of BTF2 when compared with BTF1, which was packed with sole lava rocks. Removal efficiencies of more than 92.5% on four sulfur compounds were achieved in BTF2. Average pH value in its bottom packing bed was about 4.86, significantly higher than that in BTF1 (2.85). Sulfate and elemental sulfur were observed to accumulate more in BTF1 than in BTF2. Analysis of principal coordinate analysis proved that structure of microbial communities in BTF2 changed less after the shutdown but more when the initial pH value was set at 5.5. Network analysis of significant co-occurrence patterns based on the correlations between microbial taxa revealed that BTF2 harbored more diverse microorganisms involving in the bio-oxidation of sulfur compounds and had more complex interactions between microbial species.

CONCLUSIONS

Results confirmed that using combined packing materials effectively improved conditions for the growth of microorganisms. The robustness of reactor against acidification, adverse temperature and gas supply shutdown was greatly enhanced. These provided a theoretical basis for using mixed packing materials to improve removal performance.

摘要

背景

在使用生物反应器处理恶臭气体时，包装材料是一个关键的设计考虑因素。包装床的酸化通常会导致去除效率显著下降。在本研究中，提出了一种上部分层填充塑料球、下部分层填充火山岩的生物滴滤器（BTF2），以减轻酸化。

结果

结果表明，与仅填充火山岩的 BTF1 相比，使用组合包装材料可有效提高 BTF2 的去除性能。在 BTF2 中，四种硫化合物的去除效率均超过 92.5%。其底部包装床的平均 pH 值约为 4.86，明显高于 BTF1（2.85）。硫酸盐和元素硫在 BTF1 中的积累量多于 BTF2。主坐标分析的结果表明，BTF2 中的微生物群落结构在关闭后变化较小，但在初始 pH 值设定为 5.5 时变化较大。基于微生物分类群之间相关性的显著共现模式的网络分析表明，BTF2 含有更多涉及硫化合物生物氧化的多样化微生物，并且微生物种间的相互作用更为复杂。

结论

结果证实，使用组合包装材料可有效改善微生物生长条件。反应器对酸化、不利温度和气体供应关闭的鲁棒性得到了极大提高。这些为使用混合包装材料提高去除性能提供了理论依据。

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强化联合包装材料在生物滴滤塔中去除混合硫化合物的效果及微生物群落分析。

Enhancement of using combined packing materials on the removal of mixed sulfur compounds in a biotrickling filter and analysis of microbial communities.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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