New insight in the biotreatment of produced water: pre-oxidation paves a rapid pathway for substrate selection in microbial community

IF 2.9 Q2 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH ACS Chemical Health & Safety Pub Date : 2024-11-10 DOI:10.1016/j.jhazmat.2024.136483
Jianhua Lei, Chuanfu Zhao, Shuhui Zhang, Wenchao Zhang, Yufei Han, Weizhi Zhou
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Abstract

The deep treatment of produced water (PW) had emerged as a formidable challenge due to the coexistence of hydrocarbons, surfactants, ammonium nitrogen, and other refractory organics. On the basis of the pre-oxidation coupled heterotrophic ammonia assimilation (PHAA) system constructed in previous research, this work refined the catalyst selection and reduced the hydraulic retention time. The stable running PHAA system removed 96.2% of total organic carbon (TOC). The study simulated the effects of organic loading fluctuations on the system and dissected the mechanism of pre-oxidation process and its contribution to microbial community. Pre-oxidation significantly improved the ability of microbial community to handle loading shocks and improved organic degradation efficiency in PW during long-term reactor operation. The PHAA process effectively removed medium to long chain alkanes above C24 in PW and proposed potential degradation pathways and direction. The determination of hydrocarbon enzymes activity showed that pre-oxidation changed the substrate selection, making more aldehydes available as auxiliary carbon sources for microorganisms. Pre-oxidation also enriched and preserved microbial diversity, facilitating the accumulation of functional microorganisms in the PHAA process.

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对生产用水生物处理的新认识:预氧化为微生物群落选择底物铺平了快速通道
由于碳氢化合物、表面活性剂、铵态氮和其他难处理有机物的共存,采出水(PW)的深度处理已成为一项艰巨的挑战。本研究在前期研究构建的预氧化耦合异养氨同化(PHAA)系统的基础上,改进了催化剂的选择并缩短了水力停留时间。稳定运行的 PHAA 系统去除了 96.2% 的总有机碳 (TOC)。研究模拟了有机负荷波动对系统的影响,并剖析了预氧化过程的机理及其对微生物群落的贡献。在反应器长期运行期间,预氧化过程大大提高了微生物群落处理负荷冲击的能力,并提高了压滤机的有机物降解效率。PHAA 工艺有效地去除了废水中 C24 以上的中长链烷烃,并提出了潜在的降解途径和方向。对碳氢化合物酶活性的测定表明,预氧化改变了底物的选择,使更多的醛类可作为微生物的辅助碳源。预氧化还丰富和保留了微生物的多样性,促进了 PHAA 过程中功能微生物的积累。
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来源期刊
ACS Chemical Health & Safety
ACS Chemical Health & Safety PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-
CiteScore
3.10
自引率
20.00%
发文量
63
期刊介绍: The Journal of Chemical Health and Safety focuses on news, information, and ideas relating to issues and advances in chemical health and safety. The Journal of Chemical Health and Safety covers up-to-the minute, in-depth views of safety issues ranging from OSHA and EPA regulations to the safe handling of hazardous waste, from the latest innovations in effective chemical hygiene practices to the courts'' most recent rulings on safety-related lawsuits. The Journal of Chemical Health and Safety presents real-world information that health, safety and environmental professionals and others responsible for the safety of their workplaces can put to use right away, identifying potential and developing safety concerns before they do real harm.
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