AUTHOR=Shi Xinfeng , Su Zhibin , Tao Xiaoxia , Zhou Xin , Zhao Jinbo , Wang Ruiqi , Qin Jinyi 

TITLE=Fe controls the reproduction of zoogloea and sludge bulking in oil-in-iron wastewater

JOURNAL=Frontiers in Water

VOLUME=5

YEAR=2023

URL=https://www.frontiersin.org/journals/water/articles/10.3389/frwa.2023.1289276

DOI=10.3389/frwa.2023.1289276

ISSN=2624-9375

ABSTRACT=<p>Following the final biological treatment, the oil wastewater is intended for reuse in factory floor cleaning. However, the presence of varying concentrations of oil-in-iron characteristic wastewater has led to a sudden surge in sludge SV to 90%, adversely affecting water treatment efficiency. In this study, we conducted an analysis of microbial community structure and selected <italic>pepA</italic> and 16S rRNA primers to assess the proportions of <italic>zoogloea</italic> and total bacteria in sludge bulking. Iron concentration plays a pivotal role, and it should be maintained at or 0.6 mgL<sup>−1</sup>. By selective discharging of sludge to maintain 1,700 mgL<sup>−1</sup>, we minimized iron enrichment, thereby enhancing the sludge settling performance. Maintaining dissolved oxygen (DO) at 3.5 mgL<sup>−1</sup> supports the aerobic sludge's ability to replenish iron in its system, while the oil content should be controlled at 145.33 mgL<sup>−1</sup> to reduce the release of iron into the water. The order of significance is as follows: sludge concentration &gt; Fe amount &gt; DO &gt; oil content. Implementing this approach was applied in the field for 1 week and effectively reduced the SV from 90% to approximately 43%. The interaction between quorum sensing molecules related to sludge bulking and iron, leading to the formation of complexes, underscores the significance of controlling iron levels. This study offers a valuable case for practical application of quorum quenching technology in oil wastewater, presenting a rapid, efficient, and cost-effective solution to address the issue of sludge bulking.</p>