上海第二工业大学学报
上海第二工業大學學報
상해제이공업대학학보
JOURNAL OF SHANGHAI SECOND POLYTECHNIC UNIVERSITY
2014年
2期
95-103
,共9页
陈胜文%陆韵吉%张鸿雁%高桂兰
陳勝文%陸韻吉%張鴻雁%高桂蘭
진성문%륙운길%장홍안%고계란
富马酸%响应面分析法%TiO2%光催化
富馬痠%響應麵分析法%TiO2%光催化
부마산%향응면분석법%TiO2%광최화
fumaric acid%response surface methodology (RSM)%TiO2%photocatalytic
采用TiO2光催化氧化处理低浓度富马酸废水。在单因素实验基础上,通过响应面分析法中Box-Behnken进行实验设计,以废水初始浓度、pH值、催化剂投入量及光照时间作为变量,以废水的降解率作为响应量,研究不同变量对富马酸废水降解效率的影响及其交互作用。实验结果表明,该处理方法对富马酸废水具有很好的降解效率,光催化降解富马酸过程符合一级降解动力学过程;二次多项式的拟合优化结果表明,光照时间和废水pH值的交互作用显著。优化出的降解低浓度富马酸的最佳工艺条件是:废水初始浓度为68.76 mg/L时,催化剂投加量为0.06 g, pH值为5.01,反应时间为48.67 min,在该操作条件下降解效率可以达到97.41%。
採用TiO2光催化氧化處理低濃度富馬痠廢水。在單因素實驗基礎上,通過響應麵分析法中Box-Behnken進行實驗設計,以廢水初始濃度、pH值、催化劑投入量及光照時間作為變量,以廢水的降解率作為響應量,研究不同變量對富馬痠廢水降解效率的影響及其交互作用。實驗結果錶明,該處理方法對富馬痠廢水具有很好的降解效率,光催化降解富馬痠過程符閤一級降解動力學過程;二次多項式的擬閤優化結果錶明,光照時間和廢水pH值的交互作用顯著。優化齣的降解低濃度富馬痠的最佳工藝條件是:廢水初始濃度為68.76 mg/L時,催化劑投加量為0.06 g, pH值為5.01,反應時間為48.67 min,在該操作條件下降解效率可以達到97.41%。
채용TiO2광최화양화처리저농도부마산폐수。재단인소실험기출상,통과향응면분석법중Box-Behnken진행실험설계,이폐수초시농도、pH치、최화제투입량급광조시간작위변량,이폐수적강해솔작위향응량,연구불동변량대부마산폐수강해효솔적영향급기교호작용。실험결과표명,해처리방법대부마산폐수구유흔호적강해효솔,광최화강해부마산과정부합일급강해동역학과정;이차다항식적의합우화결과표명,광조시간화폐수pH치적교호작용현저。우화출적강해저농도부마산적최가공예조건시:폐수초시농도위68.76 mg/L시,최화제투가량위0.06 g, pH치위5.01,반응시간위48.67 min,재해조작조건하강해효솔가이체도97.41%。
The advanced oxidation process of TiO2 photocatalytic oxidation were used for degradation of the low concentration fumaric acid waster water. The experiments were on the basis of the single-factor experiment and the Box-Behnken experimental design of Response Surface Methodology (RSM). The initial concentration of the waste water, pH, TiO2 and the irradiation time were considered as the factors while the degradation rate was the response value of RSM. The research investigated the degradation of the fumaric acid under different conditions and interaction between them. The result showed that fumaric acid can be degraded efficiently and degradation process was followed the first-order kinetics. The optimized result by the quadratic polynomial indicated significant interaction between irradiation time and pH. And it also optimized the best conditions of photocatalytic oxidation system to degrade low concentration fu-maric acid:0.06 g TiO2, pH=5.01 and 48.67 min reaction time. The degradation rate was 97.41%under the best conditions when initial concentration is 68.76 mg/L.