Gas-Particle Cyclonic Separation Dynamics: Modeling and Characterization

Bingtao Zhao, Dongshen Wang, Yaxin Su, Hua-lin Wang
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引用次数: 14

Abstract

As a stationary intensification processing technology, cyclonic separation has been widely used for multiphase gas-particle separation in the fields of fluidized processing, energy utilization, material synthesis and aerosol classification. The mathematical characterization of gas-particle dynamics inside a cyclone separator is vital in implementing performance prediction, structural design, parameter optimization, and/or techno-economic assessment. In past decades, significant efforts have been made to develop modeling approaches to gas-particle separation processing and dynamics inside cyclone separators. However, these modeling approaches are derived from different fundamentals of theory and method. Hence, their applicability and effectiveness have not been comprehensively validated or verified, particularly for those cyclones with varied geometrical dimensions, operating conditions, and multiphase properties. In the current review paper, various types of modeling approaches from the 1940s to the present are summarized, compared, and evaluated for gas-particle cyclonic separation dynamics, focusing on the modeling of gas flow pattern, pressure drop, and gas-particle separation behaviors including the particle cut-size and grade efficiency. The modeling for dense medium cyclones was also involved. Finally, the future outlook is highlighted to advance the modeling of gas-particle separation dynamics in cyclone separators.
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气-颗粒旋流分离动力学:建模与表征
旋流分离作为一种固定化强化处理技术,在流化处理、能源利用、材料合成和气溶胶分类等领域广泛应用于多相气相颗粒分离。旋风分离器内部气-颗粒动力学的数学表征对于实现性能预测、结构设计、参数优化和/或技术经济评估至关重要。在过去的几十年里,人们已经做出了巨大的努力来开发气-颗粒分离过程的建模方法和旋风分离器内的动力学。然而,这些建模方法来源于不同的理论和方法基础。因此,它们的适用性和有效性尚未得到全面的验证或验证,特别是对于那些具有不同几何尺寸,操作条件和多相特性的旋风。本文对20世纪40年代至今的各种气-颗粒旋流分离动力学建模方法进行了总结、比较和评价,重点介绍了气体流型、压降和气-颗粒分离行为(包括颗粒切割尺寸和分级效率)的建模。本文还讨论了重介质气旋的模拟。最后,展望了旋风分离器气-颗粒分离动力学建模的发展前景。
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