In situ synthesis of ferrate based on calcium hypochlorite and its application to oxidative degradation of methylene blue and chlorpyrifos in water

IF 1 Q4 ENGINEERING, ENVIRONMENTAL Journal of Environmental Engineering and Science Pub Date : 2023-04-24 DOI:10.1680/jenes.23.00004
Jiao Zhang, Wenting Zhao, Zhenfeng Zhou
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Abstract

Ferrate is a promising environment-friendly water treatment agent due to its multiple functions in water treatment. However, its large-scale application in sewage treatment is limited because of its instability in aqueous solution and the high cost of pure ferrate. This study demonstrated an improved wet oxidation process to synthesize ferrate by oxidizing ferric with calcium hypochlorite (Ca(ClO)2) under alkaline conditions. The effects of reagent dosage and temperature on ferrate (VI) were investigated. The optimum condition for ferrate(VI) synthesis was obtained(1 g of Ca(ClO)2, 5 g of NaOH, and 4 g of FeCl3 in 25 mL of water at 20 °C, and stirring for 30 min). Under the optimum condition, the available chlorine and sodium hydroxide amount was about 1/5 and 1/2 of that of traditional sodium hypochlorite oxidation, respectively. The product was characterized by ultraviolet-visible spectroscopy and X-ray photoelectron spectroscopy. It was concluded that ferrate was present in the generated ferrate solution. Fresh ferrate had four absorption peaks in the wavelength range of 500-600 nm (508, 525, 545, and 570 nm), which were two more characteristic absorption peaks than pure ferrate (VI) (508 and 570 mm). Low temperature, airtight and shading conditions are conducive to the preservation of fresh ferrate, and the addition of sodium silicate as a stabilizer can increase its stability. At pH 5.0, fresh ferrate could effectively remove methylene blue (MB) and chlorpyrifos in water, and the average removal rate of MB or chlorpyrifos by fresh ferrate was about 55% higher than that by pure ferrate.
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次氯酸钙原位合成高铁酸盐及其在水中氧化降解亚甲基蓝和毒死蜱中的应用
高铁酸盐具有多种水处理功能,是一种很有前途的环保型水处理剂。然而,由于其在水溶液中的不稳定性和纯高铁酸盐的高成本,其在污水处理中的大规模应用受到限制。本研究证明了在碱性条件下用次氯酸钙(Ca(ClO)2)氧化铁来合成高铁酸盐的湿法氧化工艺的改进。研究了试剂用量和温度对高铁酸盐(VI)的影响。得到了合成高铁酸盐(VI)的最佳条件(1 g Ca(ClO)2,5 g氢氧化钠和4 25中FeCl3的g 在20°C下加入mL水,搅拌30 分钟)。在最佳条件下,有效氯和氢氧化钠的用量分别为传统次氯酸钠氧化的1/5和1/2。用紫外可见光谱和X射线光电子能谱对产物进行了表征。结果表明,在生成的高铁酸盐溶液中存在高铁酸盐。新鲜高铁酸盐在500-600波长范围内有四个吸收峰 nm(508、525、545和570 nm),这是比纯高铁酸盐(VI)(508和570)更多的两个特征吸收峰 mm)。低温、密闭和遮荫条件有利于新鲜高铁酸盐的保存,添加硅酸钠作为稳定剂可以提高其稳定性。在pH 5.0时,新鲜高铁酸盐能有效去除水中的亚甲基蓝和毒死蜱,新鲜高铁酸盐对亚甲基蓝或毒死蜱的平均去除率比纯高铁酸盐高55%左右。
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来源期刊
CiteScore
1.60
自引率
0.00%
发文量
20
审稿时长
12 months
期刊介绍: Journal of Environmental Engineering and Science is an international, peer-reviewed publication providing a forum for the dissemination of environmental research, encouraging interdisciplinary research collaboration to address environmental problems. It addresses all aspects of environmental engineering and applied environmental science, with the exception of noise, radiation and light.
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