广东化工
廣東化工
엄동화공
GUANGDONG CHEMICAL INDUSTRY
2012年
11期
147-148,143
,共3页
李俊聪%黄尚雄%吴东亮%贺艳玲%陈明婕%张顺喜
李俊聰%黃尚雄%吳東亮%賀豔玲%陳明婕%張順喜
리준총%황상웅%오동량%하염령%진명첩%장순희
电絮凝%总磷%光伏能源
電絮凝%總燐%光伏能源
전서응%총린%광복능원
electrocoagulation%total phosphorus%photovoltaic energy
文章采用光伏电池为电源,采用电絮凝工艺来治理新农村微污染水体中的磷,并从电解时间、电极材料、电极板间距和起始pH等影响因素进行了研究。研究结果表明:电解时间越长,总磷的去除率越高,45 min时,达95%以上;电导率在5 min内,有一个快速升高过程,此后逐渐下降;铝板电极和铁板电极总磷的去除速率和去除效率均比不锈钢板电极高,铝极板为最佳的电极材料;最佳间距为25 mm,此时总磷的去除效率和去除速度较高;最适宜的pH范围为4~5.5该工艺可行。
文章採用光伏電池為電源,採用電絮凝工藝來治理新農村微汙染水體中的燐,併從電解時間、電極材料、電極闆間距和起始pH等影響因素進行瞭研究。研究結果錶明:電解時間越長,總燐的去除率越高,45 min時,達95%以上;電導率在5 min內,有一箇快速升高過程,此後逐漸下降;鋁闆電極和鐵闆電極總燐的去除速率和去除效率均比不鏽鋼闆電極高,鋁極闆為最佳的電極材料;最佳間距為25 mm,此時總燐的去除效率和去除速度較高;最適宜的pH範圍為4~5.5該工藝可行。
문장채용광복전지위전원,채용전서응공예래치리신농촌미오염수체중적린,병종전해시간、전겁재료、전겁판간거화기시pH등영향인소진행료연구。연구결과표명:전해시간월장,총린적거제솔월고,45 min시,체95%이상;전도솔재5 min내,유일개쾌속승고과정,차후축점하강;려판전겁화철판전겁총린적거제속솔화거제효솔균비불수강판전겁고,려겁판위최가적전겁재료;최가간거위25 mm,차시총린적거제효솔화거제속도교고;최괄의적pH범위위4~5.5해공예가행。
In the paper,the electrocoagulation process was used to remove phosphorus from new rural micro-contamination water body.The effect of electrolysis time,electrode material,distance between electrodes,and initial pH value on total phosphorus(TP) removal was explored.The results show that TP removal efficiency becomes higher with a longer electrolysis time,and it is more than 95 % at the time of 45 min.There is a rapid increase in conductivity within 5 min,and then it decreases gradually;TP removal rate and removal efficiency used for aluminum electrodes and iron electrodes are all higher than ones for the stainless steel plate electrodes,and the aluminum plate is selected as the best electrode material.When an optimum electrode gap is 25 mm,TP removal rate and removal efficiency are all high.An optimum pH value range of 4~4.5 can be obtained.The electrocoagulation process is feasible.
