生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2009年
5期
1721-1726
,共6页
光催化%TiO_2/浮石%二级出水%共掺杂%矿化
光催化%TiO_2/浮石%二級齣水%共摻雜%礦化
광최화%TiO_2/부석%이급출수%공참잡%광화
photocatalysis%TiO_2 pumice%secondary effluents%co-doped%mineralization
采用溶胶-凝胶法和浸涂法制备了以浮石为载体、La~(3+)和Fe~(3+)为共掺杂离子的TiO_2光催化剂,并用其光催化矿化城市污水处理厂二级出水.La~(3+)、Fe~(3+)改性TiO_2/浮石催化剂用X射线衍射、电镜扫描进行了表征和分析,探讨了La~(3+)、Fe~(3+)掺杂量对TiO_2光催化性能的影响,以及浮石粒径、涂膜层数、催化剂投加量对TiO_2/浮石光催化矿化二级出水效果的影响.结果显示,所制备的TiO_2以混晶形式存在,锐钛矿的含量为78.1%,平均粒径为36nm;TiO_2薄膜在浮石上负载良好,当La~(3+)、Fe~(3+)掺杂量分别为0.5%和0.05%、浮石粒径为20-40目、涂膜层数为4层、催化剂投加量为15 g·L~(-1),光催化反应时间为200min时,二级出水中TOC的去除率为51.6%,La~(3+)、Fe~(3+)改性TiO_2/浮石光催化是一种有效的污水深度处理方法.
採用溶膠-凝膠法和浸塗法製備瞭以浮石為載體、La~(3+)和Fe~(3+)為共摻雜離子的TiO_2光催化劑,併用其光催化礦化城市汙水處理廠二級齣水.La~(3+)、Fe~(3+)改性TiO_2/浮石催化劑用X射線衍射、電鏡掃描進行瞭錶徵和分析,探討瞭La~(3+)、Fe~(3+)摻雜量對TiO_2光催化性能的影響,以及浮石粒徑、塗膜層數、催化劑投加量對TiO_2/浮石光催化礦化二級齣水效果的影響.結果顯示,所製備的TiO_2以混晶形式存在,銳鈦礦的含量為78.1%,平均粒徑為36nm;TiO_2薄膜在浮石上負載良好,噹La~(3+)、Fe~(3+)摻雜量分彆為0.5%和0.05%、浮石粒徑為20-40目、塗膜層數為4層、催化劑投加量為15 g·L~(-1),光催化反應時間為200min時,二級齣水中TOC的去除率為51.6%,La~(3+)、Fe~(3+)改性TiO_2/浮石光催化是一種有效的汙水深度處理方法.
채용용효-응효법화침도법제비료이부석위재체、La~(3+)화Fe~(3+)위공참잡리자적TiO_2광최화제,병용기광최화광화성시오수처리엄이급출수.La~(3+)、Fe~(3+)개성TiO_2/부석최화제용X사선연사、전경소묘진행료표정화분석,탐토료La~(3+)、Fe~(3+)참잡량대TiO_2광최화성능적영향,이급부석립경、도막층수、최화제투가량대TiO_2/부석광최화광화이급출수효과적영향.결과현시,소제비적TiO_2이혼정형식존재,예태광적함량위78.1%,평균립경위36nm;TiO_2박막재부석상부재량호,당La~(3+)、Fe~(3+)참잡량분별위0.5%화0.05%、부석립경위20-40목、도막층수위4층、최화제투가량위15 g·L~(-1),광최화반응시간위200min시,이급출수중TOC적거제솔위51.6%,La~(3+)、Fe~(3+)개성TiO_2/부석광최화시일충유효적오수심도처리방법.
A research on photocatalytic mineralization of secondary effluents by La~(3+)/Fe~(3+) co-doped TiO_2 pumice was studied. La~(3+)/Fe~(3+) co-doped TiO_2 pumice were prepared by sol-gel and dip-coating method, and the catalysts were characterized and analyzed by X-ray diffraction (XRD) and scanning electron microscopy (SEM). Influencing factors such as ration of La~(3+) and Fe~(3+), particle size of pumice, number of TiO_2 films and dosage of catalysts, were investigated. The results showed that semiconductive compound TiO_2 appeared as a complex form with anatase and futile, and the proportion of anatase in TiO_2 was 78.1%. When the ration of La~(3+) and Fe~(3+) were 0.5% and 0.05%, the particle size of pumice were from 20 to 40 meshes, the number of TiO_2 films were 4 and the dosage of catalysts were 15 g·L~(-1), the reduction rate of TOC is 51.6%. La~(3+)/Fe~(3+) co-doped TiO_2 pumice was an effective catalyst using in advanced treatment of secondary effluents with a good mineralization performance.
