混合微生物培养物协同利用废木材水解液和挥发性脂肪酸提高聚羟基烷酸酯产量的研究进展。

Insights into enhanced polyhydroxyalkanoate production by the synergistic use of waste wood hydrolysate and volatile fatty acids by mixed microbial cultures.

机构信息

College of Light Industry Science and Engineering, Tianjin University of Science & Technology, Tianjin 300457, PR China.

出版信息

Bioresour Technol. 2021 Oct;337:125488. doi: 10.1016/j.biortech.2021.125488. Epub 2021 Jul 2.

DOI:10.1016/j.biortech.2021.125488

PMID:34320767

Abstract

The feasibility of producing polyhydroxyalkanoate (PHA) from pretreated waste wood hydrolysate and volatile fatty acids (VFAs) from sewage fermented products as co-substrate feedstock through mixed microbial cultures (MMCs) process was explored. The results showed that the addition of co-substrate shortened the cycle of PHA reaching the maximum and increased the proportion of 3-hydroxyvalerate (3HV) monomer. Compared with N-excess supply, almost 1.6 times increased PHA accumulation was realized under N-limitation, and simultaneously the highest proportion of 3HV monomer with 51% was also obtained. Additionally, PHA production in S1400 reactor reached a maximum value of about 3088 mg COD/L with culture time to 36 h. The microbial community also displayed a high diversity, which was composed of 65 bacterial genera. It is a novel attempt to accumulate PHA from pretreated waste wood hydrolysate and VFAs co-substrate through MMCs, providing an effective green approach to reduce its expensive cost and achieve mass production.

摘要

探讨了利用预处理废木材水解物和污水发酵产物中的挥发性脂肪酸（VFAs）作为混合微生物培养（MMC）过程中的共底物原料来生产聚羟基烷酸酯（PHA）的可行性。结果表明，共底物的添加缩短了 PHA 达到最大值的周期，并增加了 3-羟基戊酸（3HV）单体的比例。与氮过量供应相比，在氮限制下PHA 的积累几乎增加了 1.6 倍，同时还获得了最高比例为 51%的 3HV 单体。此外，在 S1400 反应器中，PHA 产量在 36 小时的培养时间内达到了约 3088mg COD/L 的最大值。微生物群落也表现出很高的多样性，由 65 个细菌属组成。通过 MMCs 从预处理废木材水解物和 VFAs 共底物中积累 PHA 是一种新的尝试，为降低其昂贵的成本和实现大规模生产提供了一种有效的绿色方法。

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混合微生物培养物协同利用废木材水解液和挥发性脂肪酸提高聚羟基烷酸酯产量的研究进展。

Insights into enhanced polyhydroxyalkanoate production by the synergistic use of waste wood hydrolysate and volatile fatty acids by mixed microbial cultures.

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