高校化学工程学报
高校化學工程學報
고교화학공정학보
JOURNAL OF CHEMICAL ENGINEERING OF CHINESE UNIVERSITIES
2014年
1期
195-200
,共6页
徐东彦%卢启增%戴萍%李美兰
徐東彥%盧啟增%戴萍%李美蘭
서동언%로계증%대평%리미란
微波%催化氧化%树脂%甲基橙%废水
微波%催化氧化%樹脂%甲基橙%廢水
미파%최화양화%수지%갑기등%폐수
microwave%catalytic oxidation%resin%methyl orange%wastewater
以强碱性阴离子交换树脂为载体,采用离子交换法将[PtCl6]2-负载到高分子载体上,用硼氢化钠原位还原得到Pt/树脂催化剂。在微波辅照下,将制备的催化剂应用于催化氧化处理甲基橙模拟染料废水并考察其催化性能。利用扫描电镜和红外光谱对反应前后的Pt/树脂催化材料进行表征。结果发现:Pt/树脂催化剂对模拟废水中甲基橙的物理吸附对其脱除效率几乎没有影响。在微波协同作用下,Pt/树脂对催化甲基橙降解有良好活性。加入 H2O2可以在一定程度上促进甲基橙降解。对于初始浓度为50 mg×L-1的模拟废水,最佳的处理工艺条件为:微波辐照功率700 W,辐照时间7 min,催化剂加入量6 g×L-1,H2O2浓度150 mg×L-1。催化剂连续使用5次后仍维持较高的活性。
以彊堿性陰離子交換樹脂為載體,採用離子交換法將[PtCl6]2-負載到高分子載體上,用硼氫化鈉原位還原得到Pt/樹脂催化劑。在微波輔照下,將製備的催化劑應用于催化氧化處理甲基橙模擬染料廢水併攷察其催化性能。利用掃描電鏡和紅外光譜對反應前後的Pt/樹脂催化材料進行錶徵。結果髮現:Pt/樹脂催化劑對模擬廢水中甲基橙的物理吸附對其脫除效率幾乎沒有影響。在微波協同作用下,Pt/樹脂對催化甲基橙降解有良好活性。加入 H2O2可以在一定程度上促進甲基橙降解。對于初始濃度為50 mg×L-1的模擬廢水,最佳的處理工藝條件為:微波輻照功率700 W,輻照時間7 min,催化劑加入量6 g×L-1,H2O2濃度150 mg×L-1。催化劑連續使用5次後仍維持較高的活性。
이강감성음리자교환수지위재체,채용리자교환법장[PtCl6]2-부재도고분자재체상,용붕경화납원위환원득도Pt/수지최화제。재미파보조하,장제비적최화제응용우최화양화처리갑기등모의염료폐수병고찰기최화성능。이용소묘전경화홍외광보대반응전후적Pt/수지최화재료진행표정。결과발현:Pt/수지최화제대모의폐수중갑기등적물리흡부대기탈제효솔궤호몰유영향。재미파협동작용하,Pt/수지대최화갑기등강해유량호활성。가입 H2O2가이재일정정도상촉진갑기등강해。대우초시농도위50 mg×L-1적모의폐수,최가적처리공예조건위:미파복조공솔700 W,복조시간7 min,최화제가입량6 g×L-1,H2O2농도150 mg×L-1。최화제련속사용5차후잉유지교고적활성。
The catalyst containing platinum was prepared by using ion exchange to load the [PtCl6]2-onto strong basic ion exchange resin and followed by in-situ reduction with NaBH4. The catalyst samples before and after reaction were characterized with Scanning Electron Microscope/Energy Dispersive Spectroscopy (SEM/EDS) and Fourier Transform Infrared (FT-IR) spectroscopy. The catalyst was applied in the microwave-assisted catalytic oxidation process for degradation of methyl orange, and its performance was mainly investigated. The results show that the physical adsorption of methyl orange on the surface of Pt/resin catalyst has nearly no effect on its removal efficiency. With the assistant of microwave the Pt/resin catalyst shows high catalytic performance for degradation of methyl orange. Addition of H2O2 to the microwave assisted system can improve the methyl orange degradation ability over the Pt / resin catalyst to some degree. The optimal treatment conditions for degradation of methyl orange with an initial concentration of 50 mg·L-1 are microwave power of 700 W, irradiation time of 7 min, catalyst dosage of 6 g·L-1 and H2O2 concentration of 150 mg·L-1. The catalyst can be reused 5 times and still remains a stable activity.
