二氧化钛与氮化石墨碳光催化分解染料污染废水

Abdelaziz A. Noaman
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摘要

高级氧化工艺(AOPs)是传统废水处理方法的一种替代方法,它对环境友好,产生无害的最终产物,如CO2和H2O2。apo是一种原位处理工艺,其特点是产生高活性中间体(OH自由基),可以氧化目标有机污染物。研究了影响染料污染废水光催化降解亚甲基蓝速率的操作参数。这些参数是染料初始浓度、催化剂浓度、H2O2体积。催化剂为二氧化钛(TiO2)和负载石墨烯(g-C3N4)。过氧化氢(H2O2)用于所有实验工作,以提高UV / TiO2工艺和负载石墨烯(g-C3N4)的效率。紫外灯实验表明,在初始染料浓度为5ppm、g- c3n4用量为0.5 g、H2O2用量为5 ml/dm3的条件下,太阳紫外照射180 min,降解效率为54.8%。太阳紫外实验表明,初始染料浓度为15 ppm, g- c3n4为0.5 g, H2O2为5 ml, 120 min降解效率为80.64%。结果表明,采用太阳能装置是光催化氧化工艺的最佳选择
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Photocatalytic Decomposition of Dye polluted Wastewater Using Titanium Dioxide and Graphitic Carbon Nitride
Advanced oxidation process (AOPs) is an alternative to the classical wastewater treatment methods which are environmentally friendly, producing harmless end-products such as CO2 and H2O2. APOs are in-situ treatment processes characterized by the generation of highly reactive intermediates (OH radicals) which can oxidize the target organic pollutants. This paper studied the operational parameters influencing the photocatalytic degradation rate of methylene blue in dye polluted wastewater treatment. These parameters are initial dye concentration, catalyst concentration, H2O2 volume. The catalysts used were titanium dioxide (TiO2) and supported Graphene (g-C3N4). Hydrogen peroxide (H2O2) was used in all experimental work to increase the efficiency of the UV / TiO2 process and supported Graphene (g-C3N4). The experiments of UV lamp revealed that the best degradation is at 5 ppm initial dye concentration, 0.5 g from g-C3N4 and 5 ml/dm3 H2O2 with efficiency 54.8 % at 180 minutes by using solar UV. The experiments of solar UV illustrated that the best degradation is at 15 ppm initial dye concentration, 0.5 g from g-C3N4 and 5 ml H2O2 with efficiency 80.64 % at 120 minutes. It’s confirmed that using the solar unit is the best choice for the photocatalytic oxidation process
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