化工进展
化工進展
화공진전
Chemical Industry and Engineering Progress
2015年
12期
4254-4258
,共5页
电化学%粒子电极%有机化合物%污染%COD去除率
電化學%粒子電極%有機化閤物%汙染%COD去除率
전화학%입자전겁%유궤화합물%오염%COD거제솔
electrochemistry%particle electrode%organic compounds%pollution%COD removal rate
分别以高阻抗的瓷环粒子、陶瓷粒子、陶土粒子及黏土粒子为载体,负载 Sb 掺杂 SnO2活性催化组分制备粒子电极,并通过SEM、EDS、XRD等表征手段对其形貌及结构进行研究,筛选出瓷环粒子、陶土粒子.并以农药氧化乐果为目标物,对所筛选的粒子电极进行电催化氧化效能的对比研究.结果表明,负载Sb掺杂SnO2的瓷环粒子电极表面积相对较大,具有丰富的孔结构,且具有一定的导电性.在所构建的三维电极体系中处理COD为900mg/L左右的氧化乐果废水,当支持电解质无水Na2SO4浓度为0.1mol/L、激发槽电压为13V时,处理 120min 后,在瓷环粒子三维电极体系中废水 COD 去除率比陶土粒子三维电极体系高 9.58%,比二维电极体系高25.7%;相应的能耗分别低2.9kW?h/kg(COD)和7.9kW?h/kg(COD).
分彆以高阻抗的瓷環粒子、陶瓷粒子、陶土粒子及黏土粒子為載體,負載 Sb 摻雜 SnO2活性催化組分製備粒子電極,併通過SEM、EDS、XRD等錶徵手段對其形貌及結構進行研究,篩選齣瓷環粒子、陶土粒子.併以農藥氧化樂果為目標物,對所篩選的粒子電極進行電催化氧化效能的對比研究.結果錶明,負載Sb摻雜SnO2的瓷環粒子電極錶麵積相對較大,具有豐富的孔結構,且具有一定的導電性.在所構建的三維電極體繫中處理COD為900mg/L左右的氧化樂果廢水,噹支持電解質無水Na2SO4濃度為0.1mol/L、激髮槽電壓為13V時,處理 120min 後,在瓷環粒子三維電極體繫中廢水 COD 去除率比陶土粒子三維電極體繫高 9.58%,比二維電極體繫高25.7%;相應的能耗分彆低2.9kW?h/kg(COD)和7.9kW?h/kg(COD).
분별이고조항적자배입자、도자입자、도토입자급점토입자위재체,부재 Sb 참잡 SnO2활성최화조분제비입자전겁,병통과SEM、EDS、XRD등표정수단대기형모급결구진행연구,사선출자배입자、도토입자.병이농약양화악과위목표물,대소사선적입자전겁진행전최화양화효능적대비연구.결과표명,부재Sb참잡SnO2적자배입자전겁표면적상대교대,구유봉부적공결구,차구유일정적도전성.재소구건적삼유전겁체계중처리COD위900mg/L좌우적양화악과폐수,당지지전해질무수Na2SO4농도위0.1mol/L、격발조전압위13V시,처리 120min 후,재자배입자삼유전겁체계중폐수 COD 거제솔비도토입자삼유전겁체계고 9.58%,비이유전겁체계고25.7%;상응적능모분별저2.9kW?h/kg(COD)화7.9kW?h/kg(COD).
In this work,different high-impedance carriers of ceramic ring particle,ceramic particle, pottery particle and clay particle loaded with activated component of Sb doped SnO2were applied to prepare various particle electrodes. The micrograph and crystal structure of the particle electrodes were characterized by the scanning electron microscopy(SEM),energy dispersive X-ray spectroscopy(EDS) and X-ray diffraction(XRD) to screen out the ceramic ring particle and the pottery particle. Furthermore,the comparison of the electro-catalytic oxidation efficiency among the selected particle electrodes was made with omethoate pesticide as target pollutant. The ceramic ring particle electrodes exhibited a larger specific surface area,more abundant pore structure and certain electrical conductivity. Omethoate waste water with COD concentration of 900mg/L was treated for 120min under the conditions of supporting electrolyte concentration of 0.1mol/L,excitation cell voltage of 13V,the treatment time of 120min. Compared to the three-dimensional electrode system with pottery particle and the two-dimensional electrode system,the system with ceramic ring particle electrodes increased the COD removal rate by 9.58% and 25.7%,respectively,and reduced the corresponding energy consumption by 2.9kW?h/kg(COD) and 7.9kW?h/kg(COD),respectively.
