1) chemical emulsification
化学乳化
2) chemical emulsion breaking
化学破乳
1.
In order to remove phenol from coking wastewater,this article discusses the main technical points of removing phenol by liquid membrane,including the process of chemical emulsion breaking,and operation conditions of batch tower.
为脱除焦化废水中的酚,本文研究了新型化学破乳法液膜脱酚的工艺,确定了搅拌塔操作条件,并实际应用于焦化厂含酚废水的处理中,结果表明该工艺具有良好的脱酚效果。
2.
It has advantages over the chemical emulsion breaking method and the organic film disposal method in less engineering investment,low running cost and stable quality of water tr.
无机陶瓷超滤膜技术已用于处理攀钢冷轧厂乳化液废水,具有处理出水水质稳定,废油含水率低回收价值高,对环境不产生二次污染,与化学破乳法和有机膜处理法比较具有工程投资少、运行费用低、出水水质稳定等优点。
3) chemical demulsification
化学破乳
1.
The chemical demulsification of crude oil emulsions(W/O emulsions) is reviewed in two parts on the basis of 55 papers published at home and abroad since 1990.
基于1990年以来国内外发表的55篇论文,对原油乳状液的化学破乳问题进行了综述。
4) chemical demulsifier
化学破乳剂
1.
A kind of high efficiency,low-selectivity and chea p compound biodemulsifier is prepared by chemical demulsifier and biodemulsifier.
为解决破乳剂的选择性强、破乳效率低的问题,采用化学破乳剂和微生物破乳剂复合的方法,研制出了广谱、高效、低成本的破乳剂,并用大庆三次采油采出液、塔河原油、南阳原油、蓬莱原油、俄罗斯混合原油进行了脱水、脱盐评价。
2.
The feasibility of demulsifying oil emulsions with a combined method of ultrasonic irradiation method and chemical demulsifier was analyzed theoretically and testified experimentally.
实验结果显示 ,化学破乳剂和超声波联合作用可以进一步提高原油的破乳脱水效率。
3.
The details of the novel nonchemical demulsifier,emulsion breaking methods and the technology have been mentioned as well.
本文主要对国内外化学破乳剂研究的新方向作了较全面的概括 ,同时对新型的非化学破乳剂、破乳方法及相关的破乳技术作了详细的论
5) microemulsifled thermo-chemistry
微乳热化学
6) chemical demulsification method
化学破乳法
1.
4 and the concent of wire drawing oil is 4%) as research object,used chemical demulsification method and through laboratory experiment,adopted electrolyte and coagulant separately to deal with the wastewater.
4,拉丝油含量4%),选用化学破乳法,通过实验室实验,分别采用电解质和混凝剂处理废液。
补充资料:工程化学障碍物(见化学障碍物)
工程化学障碍物(见化学障碍物)
engineering-chemical obstacle
习U·上日、11匕I一9 nuQXue Zhang’aiwu工程化学障碍物(engineelsng一ehemiealobstacle)见化学障碍物。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条