高校化学工程学报
高校化學工程學報
고교화학공정학보
JOURNAL OF CHEMICAL ENGINEERING OF CHINESE UNIVERSITIES
2013年
5期
755-760
,共6页
孙治谦%金有海%王振波%王磊
孫治謙%金有海%王振波%王磊
손치겸%금유해%왕진파%왕뢰
无机盐%静电聚结%破乳%极化%脉冲
無機鹽%靜電聚結%破乳%極化%脈遲
무궤염%정전취결%파유%겁화%맥충
inorganic salt%electrostatic coalescing%demulsification%polarization%impulse
为探究静电聚结破乳机理,采用显微实验研究的方法,深入考察不同无机盐浓度和种类条件下W/O乳状液分散相液滴在脉冲电场作用下的破乳聚并行为。实验发现,一定范围内,随溶于分散相无机盐浓度的增加,液滴电导率增大,极化作用力增强,迁移聚并速率加快,沉降分离效果提升。无机盐浓度过高时,极化作用力、离子冲击力激增,出现过度极化现象。电导率、界面张力、pH值和介电常数差别不大的条件下,液滴的极化效果主要取决于离子极化效应,高价盐的静电聚结速率显著增大。油水界面张力低、离子价位高的条件下,极易形成数量较多、长度极长的液链,降低了液滴的迁移聚并速率。上述研究成果为高效紧凑的静电聚结设备的开发提供了依据。
為探究靜電聚結破乳機理,採用顯微實驗研究的方法,深入攷察不同無機鹽濃度和種類條件下W/O乳狀液分散相液滴在脈遲電場作用下的破乳聚併行為。實驗髮現,一定範圍內,隨溶于分散相無機鹽濃度的增加,液滴電導率增大,極化作用力增彊,遷移聚併速率加快,沉降分離效果提升。無機鹽濃度過高時,極化作用力、離子遲擊力激增,齣現過度極化現象。電導率、界麵張力、pH值和介電常數差彆不大的條件下,液滴的極化效果主要取決于離子極化效應,高價鹽的靜電聚結速率顯著增大。油水界麵張力低、離子價位高的條件下,極易形成數量較多、長度極長的液鏈,降低瞭液滴的遷移聚併速率。上述研究成果為高效緊湊的靜電聚結設備的開髮提供瞭依據。
위탐구정전취결파유궤리,채용현미실험연구적방법,심입고찰불동무궤염농도화충류조건하W/O유상액분산상액적재맥충전장작용하적파유취병행위。실험발현,일정범위내,수용우분산상무궤염농도적증가,액적전도솔증대,겁화작용력증강,천이취병속솔가쾌,침강분리효과제승。무궤염농도과고시,겁화작용력、리자충격력격증,출현과도겁화현상。전도솔、계면장력、pH치화개전상수차별불대적조건하,액적적겁화효과주요취결우리자겁화효응,고개염적정전취결속솔현저증대。유수계면장력저、리자개위고적조건하,겁역형성수량교다、장도겁장적액련,강저료액적적천이취병속솔。상술연구성과위고효긴주적정전취결설비적개발제공료의거。
In order to investigate the mechanism of electrostatic coalescing demulsification, micro-experiment was carried out, and the demulsification and coalescing behavior of water droplets under the effect of impluse electric field in W/O emulsion with different inorganic salt type and concentration conditions was comprehensively studied. It was demonstrated that, with inorganic salt concentration increasing, electrical conductivity and polarization force of droplets increase, migrating and coalescing velocities speed up, sedimentation and separating effect raise to certain extent. However, when salt concentration is too high, the polarization force and ionic impact force increase sharply, which lead to excessive polarization. Polarization effect of water droplets mainly depends on ionic polarization effect when conductivity, interfacial tension, dielectric constant or pH value has only slight difference, and electrostatic coalescing velocity of water droplets containing high quantivalency inorganic salts increases greatly. Emulsion with low interfacial tension and large ionic quantivalency hyperpolarization can easily form large quantity and long droplet chains during impulse electrostatic coalescing process, which reduces the migrating and coalescing velocity of droplets. This work provides good foundation for further development of effective and compact electrostatic coalescing equipment.
