Daniela Kristell Calvo Ramos, Margarita Eugenia Gutiérrez Ruíz, M. V. González, J. Santos Cruz, María Carolina Muñoz Torres, Sandra Andrea Mayén Hernández
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引用次数: 0
摘要
减少水中砷污染的努力导致使用了几种补救方法。光催化仍然是一种以更低的材料和操作成本获得更好结果的技术。在本研究中,我们在几分钟内得到了亚砷酸盐的光氧化反应。我们使用TiO2作为紫外线和太阳能照明的光催化剂。我们使用了浓度为1mg /L的asiii和asv水溶液。在150ml的As III溶液中加入0.1 g TiO2,在紫外灯下,在反应器中4小时达到99%的As V光氧化,结果最为显著。在使用2g TiO2的太阳能照明原型中,在3l的As III溶液中,6小时内光氧化成As V的比例为94%。我们验证了As V在有光或没有光的情况下被吸附在TiO2粉末中。在相同条件下,砷ⅲ均未被吸收。与使用紫外线灯相比,在自然光下的光氧化稍微慢一些,但节省了100%的能源,为该过程提供了重要的环境和可持续性价值。
Photoxidation of As3+ to As5+ in the presence of TiO2 under lighting conditions of a lamp and sunlight
Efforts to reduce arsenic contamination in water has led to the use of several processes of remediation. Photocatalysis remains one of the techniques yielding better results with lower material and operational costs. In the present study, we obtained the photoxidation of arsenite to arsenate in minutes. We use TiO2 as a photocatalizer with UV and solar lighting. We used an aqueous solution with As III and As V 1 mg/L concentration. The most outstanding results were obtained with 0.1 grams of TiO2 in 150 mL of the solution of As III, reaching a photoxidation to As V of 99% in 4 hours in the reactor with UV lamp. Photoxidation to As V was 94% in 6 hours with a solar lighting prototype using 2 grams of TiO2, in 3 L of a solution of As III. We verified that the As V is adsorbed in the TiO2 powder with or without the presence of light. Regardless of the same conditions, As III was not absorbed. Photoxidation in natural sunlight is somewhat slower compared to the use of a UV lamp, but the energy savings is 100%, providing a significant environmental and sustainability value to the process.
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