化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2015年
1期
99-104
,共6页
周艳民%孙中宁%谷海峰%苗壮
週豔民%孫中寧%穀海峰%苗壯
주염민%손중저%곡해봉%묘장
自吸式文丘里洗涤器%引射量%静压分布%动量传递
自吸式文丘裏洗滌器%引射量%靜壓分佈%動量傳遞
자흡식문구리세조기%인사량%정압분포%동량전체
self-priming Venturi scrubber%injection flow rate%static pressure distributions%momentum transfer
以自吸式文丘里洗涤器为研究对象,基于伯努利方程分析了影响其引射量的主要因素,并通过实验对各因素进行分析验证。结果表明,自吸式文丘里洗涤器的引射量主要取决于吸液口两侧的静压差、截面积、高度差以及液体在流动通道内的阻力系数。当文丘里洗涤器不引射液体时,液体流动通道出口截面上的静压力与喷嘴壁面处的压力相等,远高于喷嘴出口中心和出口平均压力;当文丘里洗涤器引射液体时,气液两相的动量交换作用,会在气液界面处产生额外的压力增量,并以压力波的形式向整个截面传递,导致有效的吸液压差进一步降低。当吸液压差较小时,液体的流通面积和阻力系数对引射量的影响明显,通过增大外套管与喷嘴面积比同时增大喷管出口直径的方法,一方面能够增大液体流通面积,另一方面也减小了液相流动阻力,对于改善液体引射量是有效的。
以自吸式文丘裏洗滌器為研究對象,基于伯努利方程分析瞭影響其引射量的主要因素,併通過實驗對各因素進行分析驗證。結果錶明,自吸式文丘裏洗滌器的引射量主要取決于吸液口兩側的靜壓差、截麵積、高度差以及液體在流動通道內的阻力繫數。噹文丘裏洗滌器不引射液體時,液體流動通道齣口截麵上的靜壓力與噴嘴壁麵處的壓力相等,遠高于噴嘴齣口中心和齣口平均壓力;噹文丘裏洗滌器引射液體時,氣液兩相的動量交換作用,會在氣液界麵處產生額外的壓力增量,併以壓力波的形式嚮整箇截麵傳遞,導緻有效的吸液壓差進一步降低。噹吸液壓差較小時,液體的流通麵積和阻力繫數對引射量的影響明顯,通過增大外套管與噴嘴麵積比同時增大噴管齣口直徑的方法,一方麵能夠增大液體流通麵積,另一方麵也減小瞭液相流動阻力,對于改善液體引射量是有效的。
이자흡식문구리세조기위연구대상,기우백노리방정분석료영향기인사량적주요인소,병통과실험대각인소진행분석험증。결과표명,자흡식문구리세조기적인사량주요취결우흡액구량측적정압차、절면적、고도차이급액체재류동통도내적조력계수。당문구리세조기불인사액체시,액체류동통도출구절면상적정압력여분취벽면처적압력상등,원고우분취출구중심화출구평균압력;당문구리세조기인사액체시,기액량상적동량교환작용,회재기액계면처산생액외적압력증량,병이압력파적형식향정개절면전체,도치유효적흡액압차진일보강저。당흡액압차교소시,액체적류통면적화조력계수대인사량적영향명현,통과증대외투관여분취면적비동시증대분관출구직경적방법,일방면능구증대액체류통면적,령일방면야감소료액상류동조력,대우개선액체인사량시유효적。
The main factors that affect injection performance of self-priming Venturi scrubber were analyzed based on the Bernoulli equation, the influence of these factors was further verified by experiment. Injection flow rate of self-priming Venturi scrubber depended mainly on static pressure differential, cross-sectional area, height difference and liquid channel resistance coefficient on both sides of suction port. In the case of no injection, the static pressure at outlet cross section of liquid flow was equal to the pressure at nozzle wall, higher than the average pressure and center pressure at nozzle exit. In the case of injecting liquid, an additional pressure increment was generated at gas-liquid interface because of momentum exchange. Pressure increment would spread around in the form of pressure waves to the entire cross-section, resulting in further reduction of effective pressure difference for injection. When effective injection pressure difference was limited, liquid channel area and resistance coefficient became important for injection flow. On this occasion,it was more effective to enlarge the area ratio between nozzle and sleeve and enlarge nozzle diameter, to increase liquid channel area and reduce resistance coefficient, which was effective in increasing liquid flow.
