Water desalination using atmospheric pressure plasma combined with thermal treatment

IF 5.7 3区 环境科学与生态学 Q1 WATER RESOURCES Applied Water Science Pub Date : 2024-11-13 DOI:10.1007/s13201-024-02321-0
F. M. El-Hossary, Ayman A. Saber, Mohammed H. Fawey
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Abstract

Herein, a novel method is presented for enhancing the thermal desalination process of saline water and seawater using atmospheric pressure plasma (APP). The effect of APP treatment combined with thermal heating (APP-TH) on the energy consumption, conductivity, and pH of seawater and saline water is investigated. Utilizing scanning electron microscopy and X-ray diffractometry, the evolution of the morphology, structure, and chemical composition of precipitated crystals is characterized. The APP-TH method reduces the energy consumption for desalination by 40.5% for saline water and by 52.82% for seawater when compared to the TH-only method. The pH value remains approximately unchanged, decreasing slightly for the saline water from 7.1 for untreated saline water to 7.05 after APP-TH treatment. However, after APP-TH treatment, the pH value of the seawater increased slightly, from 7 to 7.8. The total dissolved salts decreased after APP-TH treatment, lowering the conductivity of the saline water from 65,000 µS/cm to 160 µS/cm and the conductivity of the seawater from 58,200 µS/cm to 243 µS/cm. Moreover, the size of precipitated crystals from saline water is 31.47 nm after APP-TH treatment, compared to 55.59 nm after TH-only treatment. They also dropped from 41 nm to 39.5 nm for seawater. Compared with traditional approaches, this research proposes an optimistic solution to address global potable water scarcity issues.

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利用常压等离子体结合热处理进行海水淡化
本文介绍了一种利用常压等离子体(APP)提高盐水和海水热脱盐工艺的新方法。研究了 APP 处理与热加热(APP-TH)相结合对海水和盐水的能耗、电导率和 pH 值的影响。利用扫描电子显微镜和 X 射线衍射仪,对沉淀晶体的形态、结构和化学成分的演变进行了表征。与仅使用 TH 的方法相比,APP-TH 方法可将盐水脱盐的能耗降低 40.5%,将海水脱盐的能耗降低 52.82%。盐水的 pH 值基本保持不变,略有下降,从未经处理的盐水的 7.1 降至 APP-TH 处理后的 7.05。然而,经过 APP-TH 处理后,海水的 pH 值略有上升,从 7 升至 7.8。经 APP-TH 处理后,总溶解盐减少,盐水的电导率从 65,000 µS/cm 降至 160 µS/cm,海水的电导率从 58,200 µS/cm 降至 243 µS/cm。此外,经过 APP-TH 处理后,盐水中析出的晶体大小为 31.47 nm,而只经过 TH 处理后则为 55.59 nm。海水中析出的晶体尺寸也从 41 纳米降至 39.5 纳米。与传统方法相比,这项研究为解决全球饮用水短缺问题提出了一个乐观的解决方案。
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来源期刊
Applied Water Science
Applied Water Science WATER RESOURCES-
CiteScore
9.90
自引率
3.60%
发文量
268
审稿时长
13 weeks
期刊介绍:
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