Simultaneous nitrification and denitrification framework for decentralized systems: Long-term study utilizing rope-type biofilm media under field conditions.

IF 8.2 1区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Science of the Total Environment Pub Date : 2024-12-15 Epub Date: 2024-11-09 DOI:10.1016/j.scitotenv.2024.177337
Lin Sun, Wudneh Ayele Shewa, Kevin Bossy, Martha Dagnew
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Abstract

This research introduces a novel approach to achieve simultaneous nitrification-denitrification (SND) under dynamic load conditions using a cost-effective rope-type biofilm technology. The approach represents a significant advancement in wastewater treatment, particularly beneficial for remote and decentralized communities. The biofilm-based SND process was developed using a pilot-scale flow-through reactor by implementing upstream carbon management with constant-timer-based aeration control versus dynamic-sensor-based aeration control strategies. The findings indicate that adding an upstream anaerobic pretreatment process to handle excess carbon plays a substantial role in achieving a sustainable SND process under a dynamic load environment using simple aeration on-off control. The most optimal nitrification performance of 0.32 g NH3-N/m2/d (89 % removal) was achieved under a 1-hour ON/30-minute OFF aeration. The process sustained an average bulk liquid DO of 5.16 mg/L and 3.80 mg/L during the aeration ON and OFF periods, respectively, facilitating a 0.13 g N/m2/d (41 %) total inorganic nitrogen (TIN) removal, notably, implementing advanced aeration strategies driven by DO, NH3, and NO3 sensors enhanced TIN removal efficiency to 72 %. The nitrification performance remained comparable (89 % removal), resulting in 3 and 10 mg N/L effluent ammonia and TIN concentration, respectively. Additionally, utilizing two multivariate approaches accounting for 82 % and 64 % of the variance, this study discerned patterns in monitored variables and performance. Additionally, the analysis underscored the difference of bulk liquid DO levels in the biofilm versus suspended systems inhibiting the SND process. Distinct bacterial communities were established in biofilms under aerobic, anaerobic, and SND conditions, with the SND reactor showing a hierarchy of functional group and enzymes, enriched sequentially from heterotrophs to denitrifiers, nitrifiers, and anammox bacteria. These innovations underline the potential of tailored control strategies to enhance a passive biofilm-based SND process efficiency under dynamic conditions, providing scalable solutions for diverse target water quality demands in remote communities and decentralized systems.

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分散系统的同步硝化和反硝化框架:在实地条件下利用绳索型生物膜介质进行的长期研究。
这项研究介绍了一种在动态负荷条件下利用具有成本效益的绳索型生物膜技术实现同步硝化-反硝化(SND)的新方法。该方法是废水处理领域的一大进步,尤其有利于偏远和分散的社区。基于生物膜的 SND 工艺是利用中试规模的直流式反应器开发的,通过基于恒定计时器的曝气控制和基于动态传感器的曝气控制策略实施上游碳管理。研究结果表明,在动态负荷环境下,采用简单的曝气开关控制,增加上游厌氧预处理工艺来处理多余的碳,对实现可持续的 SND 工艺具有重要作用。在通气 1 小时/断气 30 分钟的情况下,硝化效果最佳,达到 0.32 克 NH3-N/m2/d(去除率 89%)。在通气和断气期间,该工艺的平均液体溶解氧分别为 5.16 毫克/升和 3.80 毫克/升,从而促进了 0.13 克 N/m2/d(41%)的总无机氮(TIN)去除率。硝化性能保持相当(去除率为 89%),出水氨氮和 TIN 浓度分别为 3 毫克 N/L 和 10 毫克 N/L。此外,这项研究还采用了两种多元方法,分别占变异的 82% 和 64%,从而发现了监测变量和性能的模式。此外,分析还强调了生物膜与悬浮系统中抑制 SND 过程的大量液体溶解氧水平的差异。在好氧、厌氧和 SND 条件下,生物膜中建立了不同的细菌群落,SND 反应器显示出功能群和酶的层次结构,从异养菌到反硝化菌、硝化菌和厌氧菌依次丰富。这些创新强调了定制控制策略在动态条件下提高基于被动生物膜的 SND 过程效率的潜力,为偏远社区和分散系统的各种目标水质需求提供了可扩展的解决方案。
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来源期刊
Science of the Total Environment
Science of the Total Environment 环境科学-环境科学
CiteScore
17.60
自引率
10.20%
发文量
8726
审稿时长
2.4 months
期刊介绍: The Science of the Total Environment is an international journal dedicated to scientific research on the environment and its interaction with humanity. It covers a wide range of disciplines and seeks to publish innovative, hypothesis-driven, and impactful research that explores the entire environment, including the atmosphere, lithosphere, hydrosphere, biosphere, and anthroposphere. The journal's updated Aims & Scope emphasizes the importance of interdisciplinary environmental research with broad impact. Priority is given to studies that advance fundamental understanding and explore the interconnectedness of multiple environmental spheres. Field studies are preferred, while laboratory experiments must demonstrate significant methodological advancements or mechanistic insights with direct relevance to the environment.
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