利用连续流电化学反应器去除不同类型水中的硬度

Journal of Engineering and Sustainable Development Pub Date : 2024-07-01 DOI:10.31272/jeasd.28.4.2

Shahad Fadhil ALRubaye, Naseer A. Al Haboubi, Hussein A. Al-Amili, A. Al-Allaq, Dhuha Ahmed Mohammed

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引用次数: 0

摘要

本研究的重点是使用新型反应器进行电凝（EC）过程的硬度去除技术。同时还记录了碱度的变化。研究人员使用透明塑料反应器进行了去除总硬度（TH）的连续流实验，该反应器使用带孔的铝板电极，使水流以 "之 "字形方式流过铝板。研究了各种操作参数的影响，如板的数量（两块和四块）、流速（600 升/小时和 1000 升/小时）和水的类型（底格里斯河和反渗透系统 RO 的废水）。结果表明，电极数量的增加会导致总硬度去除效率的提高。此外，流速增加会导致去除效率降低。对于反渗透废水，4 片电极和 600 升/小时的流速下的硬度去除率最高，为 16.16%；而对于河水，4 片电极和 1000 升/小时的流速下的硬度去除率为 29%。

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Hardness Removal by A Continuous Flow Electrochemical Reactor from Different Types of Water

The present study focuses on the technique of hardness removal by using a novel reactor performing an electrocoagulation (EC) process. The variation of alkalinity is also recorded. Continuous flow experiments were conducted for Total Hardness (TH) removal using a transparent plastic reactor using aluminum plate electrodes that have holes so that the water flows through the plates in a zigzag way. The influence of various operating parameters such as the number of plates (two and four), flow rate (600, 1000 L/h), and water type (Tigris River & rejected water from Reverse Osmosis system RO) was investigated. The results showed that an increase in the number of electrodes led to an increase in the total hardness removal efficiency. In addition, the increase in the flow rate led to a decrease in the removal efficiency. For the rejected RO water type, the highest hardness removal rate was 16.16% for 4 plates electrodes and 600 L/h flow rate while for the river water was 29% for 4 plates electrodes and 1000 L/h.

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来源期刊

Journal of Engineering and Sustainable Development

CiteScore

0.70

自引率

0.00%

发文量

审稿时长

50 weeks