重庆科技学院学报:自然科学版
重慶科技學院學報:自然科學版
중경과기학원학보:자연과학판
Journal of Chongqing University of Science and Technology:Natural Science Edition
2011年
4期
91-93
,共3页
邓松圣%雷飞东%邱正阳%李赵杰%郭广东
鄧鬆聖%雷飛東%邱正暘%李趙傑%郭廣東
산송골%뢰비동%구정양%리조걸%곽엄동
空化射流%苯酚%降解%影响因素
空化射流%苯酚%降解%影響因素
공화사류%분분%강해%영향인소
cavitation jet%phenol%degradation%influencing factor
通过实验研究进口压力、初始浓度、泵机类型和溶液酸碱度对空化射流条件下苯酚降解率的影响。研究表明,较高的进口压力,较低的苯酚初始浓度,流量较大的高压泵以及溶液液相的酸性环境都有利于苯酚的降解,进口压力为6MPa时效能比最好。
通過實驗研究進口壓力、初始濃度、泵機類型和溶液痠堿度對空化射流條件下苯酚降解率的影響。研究錶明,較高的進口壓力,較低的苯酚初始濃度,流量較大的高壓泵以及溶液液相的痠性環境都有利于苯酚的降解,進口壓力為6MPa時效能比最好。
통과실험연구진구압력、초시농도、빙궤류형화용액산감도대공화사류조건하분분강해솔적영향。연구표명,교고적진구압력,교저적분분초시농도,류량교대적고압빙이급용액액상적산성배경도유리우분분적강해,진구압력위6MPa시효능비최호。
Cavitation jet flow is utilized in the degradation of phenol,and the influences of inlet pressure of nozzle,initial concentration of phenol,style of pump machine and solution's PH value on phenol degradation are studied.The results shows that the above four factors all have important effect on the degradation of phenol,and enhancing the inlet pressure,lowing initial concentration of phenol,increasing pump machine's flux and making solution be acidic benefit the phenol degradation.Under the 6 MPa inlet pressure higher phenol degradation rate of unit consumption of energy is gained.
