易回收磁铁矿(Fe3O4) Fenton氧化法处理传统纺织工业罗丹明B染色废水

Q4 Environmental Science

Asean Journal on Science and Technology for Development Pub Date : 2019-12-27 DOI:10.29037/ajstd.592

I. Prasetyo, F. Akbar, Anindya Widi Prabandari, T. Ariyanto

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引用次数: 3

摘要

染料废水在未经预处理的情况下直接排放到水环境中可能会造成负面影响。为了解决这些问题，需要一种有效的废水污染物降解方法。在本研究中，研究了使用Fe3O4催化剂去除传统织物工业废水污染物的芬顿反应。为此，反应温度在27–90°C的范围内变化。此外，催化剂浓度也在2–6 g/L溶液的范围内变化。结果表明，提高温度和催化剂浓度都会提高芬顿反应降解废水污染物的性能。通过检测化学需氧量和检测废水的颜色来测量污染物的降解。在90°C温度和2g Fe3O4/L溶液下，颜色强度的最高降低率为98.96%。

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Fenton Oxidation using Easily Recoverable Catalyst of Magnetite (Fe3O4) as an Efficient Approach to Treatment of Rhodamine B Dyeing Effluent in Traditional Fabrics Industry

A direct release of dye wastewater to a water environment without pre-treatment could cause negative impacts. To solve them, an effective method for degrading wastewater contaminants is needed. In this research, the Fenton reaction using Fe3O4 catalyst for removal of wastewater contaminants taken from a traditional fabrics industry was studied. For this purpose, reaction temperature was varied in the range of 27–90°C. Furthermore, catalyst concentration was also varied in the range of 2–6 g/L solution. The results showed that increasing both temperature and catalyst concentration will increase the performance of the Fenton reaction in degrading wastewater contaminants. The contaminant degradation was measured by detecting chemical oxygen demand and inspecting the color of wastewater. The highest reduction of color intensity was 98.96% at 90°C temperature and 2 g Fe3O4/L solution.

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来源期刊

Asean Journal on Science and Technology for Development Environmental Science-Waste Management and Disposal

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

14 weeks