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- FeCl3·xH2O FeCl3·xH2O
- FePO4·xH2O FePO4·xH2O
- RuO2掺杂 RuO2 doping
- RuO2包覆 RuO2-coating
- RuO2-Ti阳极 RuO2-Ti anode
- RuO2·xH2O RuO2·xH20
- RuO2-SiO2/Ti涂层 RuO2-SiO2/Ti coating
- RuO2·nH2O薄膜 RuO2·nH2O films
- IrO2.RuO2涂层钛电极 IrO2· RuO2 titanium electrode
- RuO2/TiO2复合光催化剂 RuO2/TiO2 composite photocatalyst
- (RuO2/SnO2).nH2O复合薄膜 (RuO2/SnO2).nH2O film
- 本文研究了两种电极材料 (SnO2 Ti和RuO2 Ti)对酸性红B模拟废水的脱色效果 ,考察了不同 pH、电流密度(j)及外加电解质 (Na2 SO4/NaCl)对处理过程的影响。 Decoloration of acid red B (ARB) synthetic wastewater at SnO 2 Ti and RuO 2 Ti anodes was investigated. The effects of pH, current density and supporting electrolyte (Na 2SO 4/NaCl) were studied.
- 试验结果显示,采用板状RuO2-IrO2-TiO2/Ti电极,电极间距为10mm,进水COD为500mg/L左右,NH3N为15mg/L左右。 将COD降至二级排放标准,最佳的电流密度为2.81A/dm2,电解耗时仅需15min左右,电耗为6.82kWh/T。 When RuO_2-IrO_2-TiO_2/Ti was used as electrode,electrode gap was 10mm and the influent concentration of COD and ammonia were about 500mg/L and 15mg/L respectively,the best current density was 2.81 A/dm~2. In order to comply with the secondary discharge standard,the electrolysis time was only about 15 minutes and energy consumption was about 6.82 kWh/T.
