广州化工
廣州化工
엄주화공
Guangzhou Chemical Industry
2015年
17期
121-123,170
,共4页
活性炭/钢渣吸附%微波诱导氧化%皂化废水%去除效果
活性炭/鋼渣吸附%微波誘導氧化%皂化廢水%去除效果
활성탄/강사흡부%미파유도양화%조화폐수%거제효과
activated carbon/slag adsorption%microwave radiation%saponification wastewater%removal efficiency
以活性炭/钢渣为吸附剂,采用微波诱导氧化法对环氧氯丙烷皂化废水进行降解,考察了活性炭-钢渣用量、 pH值、微波辐射温度、时间、功率等因素对处理效果的影响。结果表明,最佳处理条件为废水:活性炭:钢渣用量固液比为20:1:1,微波辐射功率为850 W,加热温度为100℃,加热时间为25 min, pH值为13。通过正交实验得出pH值对废水处理效果的影响最为显著。在最佳条件下对皂化废水进行连续化处理,去除效果良好。
以活性炭/鋼渣為吸附劑,採用微波誘導氧化法對環氧氯丙烷皂化廢水進行降解,攷察瞭活性炭-鋼渣用量、 pH值、微波輻射溫度、時間、功率等因素對處理效果的影響。結果錶明,最佳處理條件為廢水:活性炭:鋼渣用量固液比為20:1:1,微波輻射功率為850 W,加熱溫度為100℃,加熱時間為25 min, pH值為13。通過正交實驗得齣pH值對廢水處理效果的影響最為顯著。在最佳條件下對皂化廢水進行連續化處理,去除效果良好。
이활성탄/강사위흡부제,채용미파유도양화법대배양록병완조화폐수진행강해,고찰료활성탄-강사용량、 pH치、미파복사온도、시간、공솔등인소대처리효과적영향。결과표명,최가처리조건위폐수:활성탄:강사용량고액비위20:1:1,미파복사공솔위850 W,가열온도위100℃,가열시간위25 min, pH치위13。통과정교실험득출pH치대폐수처리효과적영향최위현저。재최가조건하대조화폐수진행련속화처리,거제효과량호。
An effective method of treating saponification wastewater was presented. The technology of microwave radiation with activated carbon and slag adsorbent was used to treat the wastewater. The effective factors such as dosage of activated carbon and slag, pH, and temperature, time and power of microwave radiation were studied. The most optimum treating conditions were as follows: microwave radiation time was 25 min, radiation power was 850 W, pH was 13, wastewater:activated carbon:slag=20:1:1. The pH treatment efficiency was the most obvious based on orthogonal experiments. Its removal efficiency was good under the optimal conditions.