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Aerosol Science and Technology Volume 35, 2001 - Issue 5
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Original Articles

Effect of a Stick on the Flow Field in a Cyclone and the Pressure Drop Reduction Mechanism

Lian-ze Wang
,
Qi-sen Yan
&
Lin-lan Liu
Pages 909-913 | Published online: 30 Nov 2010

Citations (19)

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Read on this site (4)

Zhuwei Gao, Yaodong Wei, Zhongxin Liu, Chunman Jia, Juan Wang, Jiangyun Wang & Yu Mao. (2021) Internal Components Optimization in Cyclone Separators: Systematic Classification and Meta-analysis. Separation & Purification Reviews 50:4, pages 400-416.
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Bingtao Zhao, Dongshen Wang, Yaxin Su & Hua-Lin Wang. (2020) Gas-Particle Cyclonic Separation Dynamics: Modeling and Characterization. Separation & Purification Reviews 49:2, pages 112-142.
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Jian-Jun Wang, Lian-Ze Wang & Cheng-Wen Liu. (2005) Effect of a Stick on the Gas Turbulence Structure in a Cyclone Separator. Aerosol Science and Technology 39:8, pages 713-721.
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A.L. Gong & Lian-Ze Wang. (2004) Numerical Study of Gas Phase Flow in Cyclones with the Repds. Aerosol Science and Technology 38:5, pages 506-512.
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Articles from other publishers (15)

Ming Guo, Liu Yang, Hyungjoon Son, Dang Khoi Le, Sivakumar Manickam, Xun Sun & Joon Yong Yoon. (2024) An overview of novel geometrical modifications and optimizations of gas-particle cyclone separators. Separation and Purification Technology 329, pages 125136.
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Ming Guo, Yilin Lu, Chuanzhi Xue, Xun Sun & Joon Yong Yoon. (2023) The impact of cylinder vortex stabilizer on fluctuating turbulence characteristics of a cyclone separator based on Large Eddy Simulation. Advanced Powder Technology 34:9, pages 104149.
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Bingtao Zhao, Weifeng Qian, Huimei Li & Yaxin Su. (2022) Cyclone pressure drop reduction and its effect on gas–particle separation capability: principle, performance, and assessment. Reviews in Chemical Engineering 38:8, pages 1045-1063.
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Zihui Zhang, Sijie Dong, Kejun Dong, Li’an Hou, Wenzheng Wang, Yi Wei & Bo Wang. (2022) Experimental and numerical study of a gas cyclone with a central filter. Particuology 63, pages 47-59.
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Yumeng Zhang, Ruizhi Jin, Sijie Dong, Yanlei Wang, Kejun Dong, Yi Wei & Bo Wang. (2021) Heterogeneous condensation combined with inner vortex broken cyclone to achieve high collection efficiency of fine particles and low energy consumption. Powder Technology 382, pages 420-430.
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A Lisin, A Moliboga & N Lyovochkina. (2020) Aerodynamic model of centrifugal cleaning in a once-through cyclone. IOP Conference Series: Materials Science and Engineering 1001:1, pages 012053.
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Xun Sun & Joon Yong Yoon. (2018) Multi-objective optimization of a gas cyclone separator using genetic algorithm and computational fluid dynamics. Powder Technology 325, pages 347-360.
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Xun Sun, Sung Kim, Seung Deok Yang, Hyun Soo Kim & Joon Yong Yoon. (2017) Multi-objective optimization of a Stairmand cyclone separator using response surface methodology and computational fluid dynamics. Powder Technology 320, pages 51-65.
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P.A. Funk. (2015) Reducing cyclone pressure drop with evasés. Powder Technology 272, pages 276-281.
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Lian-Ze Wang & Ji-Ming Wang. (2012) Experimental study of the drag reduction and separation efficiency for a new hydrocyclone with a Reducing Pressure Drop Stick. Separation and Purification Technology 98, pages 7-15.
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D. I. Misyulya. (2012) New designs of devices for a decrease in power consumption of cyclone dust collectors. Russian Journal of Non-Ferrous Metals 53:1, pages 67-72.
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D. I. Misyulya, V. V. Kuz’min & V. A. Markov. (2010) Reduction of hydraulic drag of cyclones. Russian Journal of Applied Chemistry 83:10, pages 1827-1830.
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C. W. Liu, L. Z. Wang & Q. S. Liu. (2006) Experimental Study and Analysis on Drag Reduction Mechanisms of Reducing Pressure Drop Stick in a Cyclone Separator. Chemical Engineering & Technology 29:4, pages 495-503.
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B. Zhao. (2005) Experimental Investigation of Flow Patterns in Cyclones with Conventional and Symmetrical Inlet Geometries. Chemical Engineering & Technology 28:9, pages 969-972.
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R.B. Xiang & K.W. Lee. (2005) Numerical study of flow field in cyclones of different height. Chemical Engineering and Processing: Process Intensification 44:8, pages 877-883.
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