Biofilm thickness restraint carriers enhance free nitrous acid inhibition for partial nitritation

IF 2.4 4区 环境科学与生态学 Q2 WATER RESOURCES
Alexander Schopf, M. Christensson, M. Piculell, Xin Tian, R. Delatolla
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引用次数: 1

Abstract

Ammonia is a deleterious pollutant present in municipal wastewater that can be hazardous if released into the environment. There is a need for the development of novel processes to advance ammonium removal technologies. Partial nitritation (PN) and anaerobic ammonia oxidation (anammox) are modern treatment processes that can be combined to provide energy-efficient ammonia removal; however, these processes have been shown to be challenging to implement as a two-stage system. New methods to achieve steady PN need to be discovered. Free nitrous acid (FNA) exposure has been explored as a possible strategy for achieving PN; however, exposure time and dosage has been varied depending on the treatment system. For biofilm technologies, such as the moving bed biofilm reactor and biofilm characteristics, including biofilm thickness, can cause inconsistent results. Therefore, this study compares defined maximal biofilm thickness with undefined biofilm thickness and their capacity to achieve PN using FNA. This study found that a defined maximal biofilm thickness designed carrier maintained a thin biofilm capable of achieving PN after FNA exposure while the undefined biofilm thickness designed carrier was not suitable for stable PN.
生物膜厚度限制载体对部分亚硝化的抑制作用增强
氨是一种存在于城市废水中的有害污染物,如果释放到环境中,可能会造成危险。需要开发新的工艺来推进脱铵技术。部分硝化(PN)和厌氧氨氧化(anammox)是现代处理工艺,可以结合起来提供节能的氨去除;然而,这些过程被证明是一个具有挑战性的两阶段系统。需要发现实现稳定PN的新方法。游离亚硝酸(FNA)暴露已被探索为实现PN的一种可能策略;然而,暴露时间和剂量因治疗系统而异。对于生物膜技术,如移动床生物膜反应器和生物膜特性,包括生物膜厚度,可能会导致不一致的结果。因此,本研究比较了定义的最大生物膜厚度和未定义的生物膜厚度以及它们使用FNA实现PN的能力。本研究发现,定义的最大生物膜厚度设计的载体在FNA暴露后保持了能够实现PN的薄生物膜,而未定义的生物膜厚度的设计载体不适合稳定的PN。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.50
自引率
8.70%
发文量
0
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