文章摘要
闻海峰,秦 琴,杨琴淋.氧化钴修饰活性炭微波催化降解染料废水的工艺研究Journal of Water Resources and Water Engineering[J].,2013,24(1):100-103
氧化钴修饰活性炭微波催化降解染料废水的工艺研究
Technological study on microwave catalytic degradation of dye wastewater in the presence of cobaltous oxide modified activated carbon
Received:November 28, 2012  Revised:December 20, 2012
DOI:10.11705/j.issn.1672-643X.2013.01.023
中文关键词: 微波  载钴活性炭  染料  化学反应  动力学
英文关键词: microwave  cobaltous oxide modified activated carbon  dye  chemical reaction  dynamics
基金项目:国家自然科学基金(10872133)
Author NameAffiliation
WEN Haifeng School of Environment and Architecture, University of Shanghai for Science and Technology, Shanghai 200093,China [KH*3D] 
QIN Qin School of Environment and Architecture, University of Shanghai for Science and Technology, Shanghai 200093,China [KH*3D] 
YANG Qinlin School of Environment and Architecture, University of Shanghai for Science and Technology, Shanghai 200093,China [KH*3D] 
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中文摘要:
      经预处理、超声浸渍、焙烧制备出载钴活性炭。采用热重分析,载钴活性炭的失重温度为410℃,较活性炭提高了30℃;X-射线衍射分析,载钴活性炭在2θ为20.9°、37.1°、43.0°时出现吸收峰,活性炭表面晶型出现了掺杂的CoO立方晶系的衍射峰。经电镜扫描分析,CoO颗粒的存在导致载钴活性炭表面缺陷增多。在所定工艺参数下,载钴活性炭催化微波降解染料水溶液10min,酸性染料及阳离子染料水溶液的脱色率87.95%~96.18%,CODCr去除率78.31%~89.70%,降解过程可用一级化学反应动力学方程拟合。实验表明:氧化钴修饰活性炭在微波催化作用下对染料废水具有良好的降解效果。
英文摘要:
      Cobaltous oxide modified activated carbon was prepared by pre-treatment, ultrasonic immersing and calcination. Through thermal gravimetric analysis, the TG temperature for cobaltous oxide modified activated carbon was 410℃, which increased for 30℃ compared with normal activated carbon. Through XRD analysis, the adsorption peaks of cobaltous oxide modified activated carbon appeared at 2θ values of 20.9°, 37.1° and 43.0°. Furthermore, the surface crystalline of activated carbon was doped with the diffraction peak of CoO cubic crystal. Scanning with SEM, the surface defects of activated carbon increased due to the presence of CoO particles. Under certain conditions, 87.95%-96.18% decolorization efficiency and 78.31%-89.70% COD removal could be achieved by using microwave catalytic degradation of acid and cationic dyes in the presence of cobaltous oxide modified activated carbon, and the degradation process could be simulated by first order kinetics. This research proved that dye wastewater could be successfully removed by microwave catalytic degradation in the presence of cobaltous oxide modified activated carbon.
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