作 者:李春喜[1] 李玉同[1] 王子镐[1]
机构地区:[1]北京化工大学化学工程学院,北京100029
出 处:《环境污染治理技术与设备》2002年第8期48-51,共4页Techniques and Equipment for Environmental Pollution Control
基 金:国家教委骨干教师基金资助课题(JG2000-4);��国家教委博士点基金项目(2000001001)
摘 要:超声降解和光催化降解均为自由基历程的高级氧化技术,同时,超声空化能够改善传质效果,因此,二者耦合能否产生协同效果是值得研究的。本文考察了苯酚溶液的超声降解、光降解、光催化降解、超声-光催化降解以及温度对光降解和光催化降解的影响。结果表明,40kHz,0.4w/cm2的超声波对苯酚没有明显的降解作用,而对光催化降解只有轻微的促进作用。光降解和光催化降解的过程曲线显著不同,但温度对二者均有显著的促进作用。Sonolysis and photocatalysis are both advanced oxidation technologies following free radical mechanism, and ultrasonic cavitation can improve the mass transfer between photocatalyst and liquid, therefore, investigation on the possible cooperative effect is of significance. In this paper, sonolysis, photolysis, photocatalysis with titanium dioxide, ultrasound induced photocatalysis of phenol solution, and the temperature effect on both photolysis and photocatalysis were studied. It was proved that the ultrasound at 40 kHz and 0. 4 W/cm2 have no obvious effect on phenol degradation, and its promotion on photocatalysis is also marginal. The difference between photolysis and photocatalysis curves is of prominence which implies that photocatalyst can notably decrease the concentration of intermediate produced in the degradation process. Meanwhile, temperature has a remarkable promotion on both degrading processes.
关 键 词:联合降解 超声波 二氧化钛 光催化 苯酚 废水处理
分 类 号:X783[环境科学与工程—环境工程]
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