化工学报 ›› 2016, Vol. 67 ›› Issue (4): 1150-1158.DOI: 10.11949/j.issn.0438-1157.20151394

• 流体力学与传递现象 • 上一篇    下一篇

静电效应对有无埋管气固鼓泡床内气泡特性的影响分析

吴迎亚, 彭丽, 蓝兴英, 高金森   

  1. 中国石油大学(北京)重质油国家重点实验室, 北京 102200
  • 收稿日期:2015-09-06 修回日期:2015-11-16 出版日期:2016-04-05 发布日期:2016-04-05
  • 通讯作者: 蓝兴英
  • 基金资助:

    国家自然科学基金项目(91334104);教育部新世纪优秀人才支持计划项目(NCET-13-1027)。

Effect of electrostatic on bubble hydrodynamics in gas-solids bubbling bed with and without immersed horizontal tubes

WU Yingya, PENG Li, LAN Xingying, GAO Jinsen   

  1. State Key Laboratory of Heavy Oil Processing, China University of Petroleum, Beijing 102200, China
  • Received:2015-09-06 Revised:2015-11-16 Online:2016-04-05 Published:2016-04-05
  • Supported by:

    supported by the National Natural Science Foundation of China (91334104) and the New Century Excellent Talents Program in University (NCET-13-1027).

摘要:

采用基于双流体模型(TFM)耦合静电模型的方法,研究颗粒的静电对有无埋管气固鼓泡床内气固流动特性和气泡特性的影响。首先在无静电场存在的条件下,利用双流体模型对自由鼓泡床和埋管鼓泡床内的流动情况进行模拟并与实验结果进行对比;进一步耦合静电模型,考察静电对自由鼓泡床和埋管鼓泡床内床层的整体性质和气泡特性的影响。研究结果表明,在无静电场条件下采用双流体模型能较好地预测自由鼓泡床和埋管鼓泡床内的气固流动状况以及气泡的平均直径和气泡的上升速度。埋管的存在使鼓泡床内气固流动发生强烈扰动,并使气泡的平均直径和气泡的上升速度均呈振荡分布。静电的存在对自由鼓泡床和埋管鼓泡床内床层的平均固含率影响不大,但对气泡分布规律影响较大,使得自由鼓泡床内气泡数目减少,而埋管鼓泡床下部区域的气泡分布比较集中,上部有大气泡出现。

关键词: 鼓泡床, 流动, 计算流体力学, 双流体模型, 静电效应, 气泡特性, 模拟

Abstract:

The present paper studied the effects of electrostatics on gas-solids hydrodynamics and bubble characteristics of gas-solids bubbling bed with and without immersed horizontal tubes by applying the two-fluid model coupling with the electrostatic model. At first, the two-fluid model without electrostatic field was adopted to simulate the hydrodynamics in the gas-solids bubbling bed with and without immersed horizontal tubes. Further coupled with the electrostatic model, the effects of electrostatics on bubble distribution characteristics in the gas-solids bubbling bed with and without the immersed horizontal tubes were investigated. The results demonstrated that in the electrostatic field conditions, the two-fluid model can be used to predict gas-solid flow conditions, the bubble diameter, and bubble riser velocity for gas-solids bubbling bed with and without immersed horizontal tubes. However, the immersed horizontal tubes in gas-solids bubbling bed caused an intense disturbance of gas-solids, making a concussion in the distribution of the bubble diameter and bubble riser velocity. The electrostatics did not have a large effect on the average solids holdup of the bed, but showed a greater impact on the bubble characteristics. The electrostatics decreased the number of bubbles of the gas-solids bubbling bed without the immersed horizontal tubes and made more number of bubbles be concentrated in the lower region of the gas-solids bubbling bed with the immersed horizontal tubes and more number of large bubbles be located in the upper part of the gas-solids bubbling bed with the immersed horizontal tubes.

Key words: bubbling bed, flow, computational fluid dynamics (CFD), two-fluid model, electrostatic effects, bubble hydrodynamics, simulation

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