Removal of chromium using rhamnolipid biosurfactant, ferrous sulfate and cationic tannin-based flocculant in a dissolved air floating system using a central composite design (CCD)

IF 1.6 4区 工程技术 Q3 CHEMISTRY, APPLIED
Olga Silva Santos, Frederico Alves Lima, Vicelma Luiz Cardoso, Miriam Maria de Resende
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Abstract

This research studied the wastewater chromium removal efficiency by dissolved air flotation (DAF) using a rhamnolipid (RL) biosurfactant as a collector. An experimental flotation DAF apparatus with 6 vessels of 2 L containing a coupled saturator injecting compressed air at 5.88 kPa in the vessels was used. The total RL concentration of the broth resulting from fermentation was 9 ± 1.0 g/L. This broth was used in nature in the DAF experiments. A central composite design (CCD) was used to optimize removal of Cr(VI) and total Cr with regards to two independent variables, pH (3.17–8.83) and iron concentration of the medium (0–225.0 mg/L), with a three assays performed at the conditions of the central point of the design. The experimental conditions for DAF were an initial hexavalent Cr concentration of 100 mg/L; RL broth volume of 500 mL; saturated with oxygen water volume of 200 mL; and a rapid mixing time of 6 min through stirring at 120 rpm. The results showed that under acidic pH conditions and with high iron concentrations, both the Cr(VI) and total Cr removal rates were highest. The optimal removal region determination was at a pH of 3.5 and iron concentration of 180 mg/L. Subsequently, cationic tannin-based flocculant was also evaluated as a collector, and ferrous sulfate was used as a coagulant during Cr(III) removal. The best Cr(III) removal percentage was obtained at cationic polymer concentrations of 300 mg/L with Cr(III) removal of 50.8% and a pH of 5.5.

采用中心复合设计(CCD),在溶气漂浮系统中使用鼠李糖脂生物表面活性剂、硫酸亚铁和阳离子单宁絮凝剂去除铬
本研究采用鼠李糖脂(RL)生物表面活性剂作为捕集剂,研究了溶气气浮(DAF)法去除废水中铬的效率。实验中使用了一台浮选 DAF 设备,该设备有 6 个 2 L 的容器,容器中装有一个耦合饱和器,在容器中注入 5.88 kPa 的压缩空气。发酵产生的肉汤总 RL 浓度为 9 ± 1.0 g/L。该肉汤在自然界中用于 DAF 实验。为了优化六价铬和总铬的去除率,采用了中心复合设计(CCD),将 pH 值(3.17-8.83)和培养基中的铁浓度(0-225.0 mg/L)作为两个自变量,并在设计中心点的条件下进行了三次试验。DAF 的实验条件为:初始六价铬浓度为 100 mg/L;RL 肉汤体积为 500 mL;饱和含氧水体积为 200 mL;通过 120 rpm 的搅拌快速混合时间为 6 分钟。结果表明,在酸性 pH 条件下和铁浓度较高时,六价铬和总铬的去除率都最高。在 pH 值为 3.5 和铁浓度为 180 毫克/升时,确定了最佳去除区域。随后,还评估了阳离子单宁絮凝剂作为捕集剂和硫酸亚铁作为混凝剂对 Cr(III) 的去除情况。阳离子聚合物浓度为 300 mg/L、pH 值为 5.5 时,对 Cr(III) 的去除率最高,达到 50.8%。
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来源期刊
Journal of Surfactants and Detergents
Journal of Surfactants and Detergents 工程技术-工程:化工
CiteScore
3.80
自引率
6.20%
发文量
68
审稿时长
4 months
期刊介绍: Journal of Surfactants and Detergents, a journal of the American Oil Chemists’ Society (AOCS) publishes scientific contributions in the surfactants and detergents area. This includes the basic and applied science of petrochemical and oleochemical surfactants, the development and performance of surfactants in all applications, as well as the development and manufacture of detergent ingredients and their formulation into finished products.
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