CFD-PBM numerical simulation and experimental investigation of hydrodynamics in a multistage internal loop reactor with guide cones

IF 3.8 3区 工程技术 Q3 ENERGY & FUELS
Yekui Chen , Qingpeng Pan , Chaojie Li , Weiwen Wang , Jihai Duan
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引用次数: 0

Abstract

Multistage internal loop reactors demonstrate a powerful application in biological wastewater degradation and with high solid concentrations fields. Due to the complexity of the gas-liquid-solid flow, the hydrodynamic characteristics of a multistage internal loop reactor are still ambiguous. This research focuses on a self-designed multistage internal loop reactor with guide cones and investigates the hydrodynamic characteristics by combining experiment and computational fluid dynamic-population balance model (CFD-PBM) numerical simulation. Meanwhile, validating the simulation results using particle image velocimetry (PIV) technique shows that the results are plausible. The investigation results indicate that the increment in superficial gas velocity can increase the gas holdup and volumetric mass transfer coefficient and decrease the mixing time. The addition of solid particles would get the opposite effects. In addition, the effects of bubbles on particles are summarized as driving and collision, and the particles motion in the riser and downcomer is analyzed based on the above effects. Research on the flow field of the liquid phase has found that an increase in superficial gas velocity and the addition of solid particles can generate vortices. Finally, A study of the bubble size distribution reveals larger bubble sizes in the second and third-stage riser.
带导锥的多级内循环反应器流体力学的 CFD-PBM 数值模拟和实验研究
多级内循环反应器在生物废水降解和高固体浓度领域显示出强大的应用能力。由于气-液-固流动的复杂性,多级内循环反应器的流体力学特性仍不明确。本研究以自行设计的带导锥的多级内循环反应器为研究对象,通过实验和计算流体力学-人口平衡模型(CFD-PBM)数值模拟相结合的方法研究其水动力特性。同时,利用粒子图像测速(PIV)技术对模拟结果进行了验证,表明结果是可信的。研究结果表明,表层气体速度的增加可提高气体截留率和体积传质系数,并缩短混合时间。而固体颗粒的加入则会产生相反的效果。此外,气泡对颗粒的影响归纳为驱动和碰撞,并根据上述影响分析了颗粒在立管和导流管中的运动。对液相流场的研究发现,表层气体速度的增加和固体颗粒的加入会产生涡流。最后,对气泡大小分布的研究表明,第二级和第三级立管中的气泡较大。
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来源期刊
CiteScore
7.80
自引率
9.30%
发文量
408
审稿时长
49 days
期刊介绍: Chemical Engineering and Processing: Process Intensification is intended for practicing researchers in industry and academia, working in the field of Process Engineering and related to the subject of Process Intensification.Articles published in the Journal demonstrate how novel discoveries, developments and theories in the field of Process Engineering and in particular Process Intensification may be used for analysis and design of innovative equipment and processing methods with substantially improved sustainability, efficiency and environmental performance.
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