大孔径高气速单孔气泡形成

化工学报 ›› 2008, Vol. 59 ›› Issue (9): 2220-2225.

• 多相流和计算流体力学 • 上一篇下一篇

大孔径高气速单孔气泡形成

沈雪松，沈春银，李光，戴干策

华东理工大学联合化学反应工程研究所

出版日期:2008-09-05 发布日期:2008-09-05

Bubble formation from large submerged single orifice at high gas velocity

SHEN Xuesong，SHEN Chunyin，LI Guang，DAI Gance

Online:2008-09-05 Published:2008-09-05

摘要/Abstract

摘要： 在内径为190mm的鼓泡塔内，研究了空气-去离子水系统在大孔径高气速条件下的单孔气泡形成。考察了五个不同的孔径，分别为4、8、10、15及21mm，孔口气速范围为0.8~154.8m·s^-1。以CCD摄像记录气泡的形状及尺寸，根据气泡长径比的变化，得到气泡初始形态转变时的临界孔口气速：当孔口气速低于20m·s^-1时，孔口气泡近似于球形，长径比小于1.1；当孔口气速大于50m·s^-1时，气泡呈现椭球形,长径比大于1.5。并对气泡尺寸与孔径及孔口气速进行关联,所得关联式对孔径大于3mm、孔口气速在10~80m·s^-1范围内所形成的气泡尺寸预测效果较好。

关键词:

气泡形成, 气泡形态, 大孔径, 高气速

Abstract:

The formation of bubbles generated in a bubble column with 190 mm I.D.from large orifices at high gas velocity was studied for air-deionized water system.The experiments were made with orifice diameters varying from 4 mm to 21 mm and hole gas velocity in the range of 0.8—154.8 m·s^-1.The bubble shape and bubble size were recorded by CCD camera，critical hole gas velocity for bubble deformation was derived from the transition of aspect ratio of bubbles.The results showed that bubbles were spherical when hole gas velocity was lower than 20 m·s^-1.When hole gas velocity was higher than 50 m·s^-1，the shape of bubbles changed to elliptical.A correlation equation was established for bubble size as a function of hole gas velocity and orifice diameter，and the equation predicted the bubble size well for orifice diameter larger than 3 mm and hole gas velocity from 10 m·s^-1 to 80 m·s^-1 in air-deionized water system.

Key words:

气泡形成, 气泡形态, 大孔径, 高气速

沈雪松, 沈春银, 李光, 戴干策. 大孔径高气速单孔气泡形成 [J]. 化工学报, 2008, 59(9): 2220-2225.

SHEN Xuesong, SHEN Chunyin, LI Guang, DAI Gance. Bubble formation from large submerged single orifice at high gas velocity[J]. CIESC Journal, 2008, 59(9): 2220-2225.

大孔径高气速单孔气泡形成

Bubble formation from large submerged single orifice at high gas velocity

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