Ahmed Khaled Abdella Ahmed, Moussa Shalaby, Osama Negim, T. Abdel-Wahed
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引用次数: 0
摘要
对需要氯消毒的经处理废水的用途进行了大量研究,但还没有研究过注入纳米气泡(NB)对余氯分解的影响。在处理过的废水中注入气体纳米气泡可以改善废水的性质。消毒剂的衰减动力学可能会受到经处理废水性质变化的影响。本文研究了各种 NB 注入对二级处理废水(STWW)余氯衰变的影响。本文还概述了为表示这些影响而开发的经验方程。结果表明,处理过的废水中每种类型的 NB 都有不同的初始氯浓度。结果表明,在利用 NB 注入 STWW 时,对减少所需氯量和降低氯衰减率有明显影响。因此,在处理过的废水中注入 NB 后,余氯会保持更长的时间,并能抑制微生物的生长。此外,二级处理废水中的 NB 还能减少氯的用量,降低废水消毒成本。
Relationship between chlorine decay and nanobubble application in secondary treated wastewater
There has been numerous research on the uses of treated wastewater that needs chlorine disinfection, but none have looked at the impacts of injecting nanobubbles (NBs) on the decomposition of residual chlorine. Gas NB injection in treated wastewater improves its properties. The kinetics of disinfectant decay could be impacted by changes in treated wastewater properties. This paper studies the effect of various NB injections on the residual chlorine decay of secondary treated wastewater (STWW). It also outlines the empirical equations that were developed to represent these impacts. The results show that each type of NBs in treated wastewater had a distinct initial chlorine concentration. The outcomes demonstrated a clear impact on the decrease of the needed chlorine quantity and the reduction of chlorine decay rate when utilizing NB injection for the STWW. As a result, the residual chlorine will remain for a longer time and will resist any microbiological growth under the application of NBs on treated wastewater. Moreover, NBs in secondary treated effluent reduce chlorine usage, lowering wastewater disinfection costs.
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