紫外光催化钛酸盐纳米管去除水中Procion MX效率的影响因素

IF 3.9 Q2 NANOSCIENCE & NANOTECHNOLOGY
V. N. X. Que, T. T. Khôi, N. Thuy, T. T. Dung, Dao Thi Thanh Binh, N. Huy
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引用次数: 2

摘要

纺织工业中含有有机染料的废水的处理面临着许多挑战,因为这些化合物在传统的处理装置中抵抗生物降解过程。在物理化学过程中,光催化被认为是一种简单、廉价、环保的处理水中低浓度持久性有机污染物的技术。本研究考察了决定钛酸盐纳米管(tnt)光催化去除水中偶氮染料Procion MX 032 (PMX)活性的几个物理化学因素。采用ST-01(100%锐钛矿)、工业TiO2、120°C和500°C煅烧的tnt等不同类型的光催化剂,在室温(30°C)下进行了光催化氧化降解PMX的实验。考察了反应时间、催化剂用量、pH、光波长和光强、氧化剂等因素对反应性能的影响。因此,在500°C下煅烧的tnt具有最高的去除效率。500℃下煅烧TNT光催化氧化PMX受pH变化的影响,pH为8时去除率最高,H2O2和O2的存在抑制了PMX的去除率。在100 W/m2的UV-A强度下,对钛酸盐纳米管对PMX的降解进行了优化。在tnt浓度为75 mg/L、pH为8.0的条件下,处理90 min后,染料降解率达95%以上。结果表明,利用tnt进行光催化是一种简单而有效的去除PMX的方法,并有可能应用于含染料废水的处理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Factors Determining the Removal Efficiency of Procion MX in Waters Using Titanate Nanotubes Catalyzed by UV Irradiation
The treatment of wastewater from the textile industry containing organic dyes faces many challenges since these compounds resist the biodegradation process in conventional treatment units. Among the physicochemical processes, photocatalysis is considered a facile, cheap, and environmental-friendly technology for treating persistent organic pollutants in waters at low concentrations. This study investigated several physicochemical factors determining the photocatalytic activity of titanate nanotubes (TNTs) to remove Procion MX 032 (PMX), an azo dye, in waters. Degradation of PMX by photocatalytic oxidation process at room temperature (30°C) was set up with the UV irradiation in the presence of different types of photocatalyst such as ST-01 (100% anatase), industrial TiO2, TNTs calcined at 120°C and 500°C. Effect of reaction time, catalyst amount, pH, light wavelength and intensity, and oxidants was investigated. Consequently, TNTs calcined at 500°C provided the highest removal efficiency. The photocatalytic oxidation of PMX by TNT calcined at 500°C was affected by pH variation, getting the highest removal at pH of 8, and inhibited with the presence of H2O2 and O2. Particularly, the PMX degradation using titanate nanotubes was optimized under the UV-A intensity of 100 W/m2. The dye was degraded by more than 95% at the TNTs concentration of 75 mg/L and pH 8.0 after 90 min. The results suggest that photocatalysis using TNTs can be a simple but efficient treatment method to remove PMX and potentially be applied for the treatment of wastewaters containing dyes.
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来源期刊
Journal of Nanotechnology
Journal of Nanotechnology NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
5.50
自引率
2.40%
发文量
25
审稿时长
13 weeks
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