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Particulate Science and Technology
An International Journal
Volume 31, 2013 - Issue 2
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Original Articles

Modeling and Analysis of Solids Friction Factor for Fluidized Dense Phase Pneumatic Conveying of Powders

Niranjana Behera ITMMEC, Indian Institute of Technology, Delhi, Hauz Khas, New Delhi, IndiaCorrespondence[email protected]
,
Vijay K. Agarwal ITMMEC, Indian Institute of Technology, Delhi, Hauz Khas, New Delhi, India
,
Mark Jones Centre for Bulk Solids and Particulate Technologies, School of Engineering, University of Newcastle, Callaghan New South Wales, Australia
&
Kenneth C. Williams Centre for Bulk Solids and Particulate Technologies, School of Engineering, University of Newcastle, Callaghan New South Wales, Australia
Pages 136-146 | Published online: 11 Mar 2013

Citations (16)

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Read on this site (5)

Niranjana Behera, Yassin Alkassar, Vijay K. Agarwal & R. K. Pandey. (2023) Fluidized dense phase pneumatic conveying: a review. Particulate Science and Technology 41:2, pages 277-296.
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J.S. Shijo & Niranjana Behera. (2021) Review and analysis of solids friction factor correlations in fluidized dense phase conveying. Tribology - Materials, Surfaces & Interfaces 15:1, pages 1-9.
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Hongtu Zhang, Botao Li, Jian Zhang & Jianping Wei. (2021) Pressure drop characteristic of dilute negative pressure pneumatic conveying. Particulate Science and Technology 39:1, pages 101-107.
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Kapil Sharma, S. S. Mallick & Anu Mittal. (2021) An evaluation of testing and modeling procedure for solids friction factor for fluidized dense-phase pneumatic conveying of fine powders. Particulate Science and Technology 39:1, pages 62-73.
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Kapil Sharma, Soumya. S. Mallick, Anu Mittal & Peter Wypych. (2020) Modelling solids friction for fluidized dense-phase pneumatic conveying. Particulate Science and Technology 38:4, pages 391-403.
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Articles from other publishers (11)

Jiawei Zhou, Han Ba, Xiangyu Yan & Linjian Shangguan. (2023) Solid friction coefficient in a horizontal straight pipe of pneumatic conveying. Chemical Engineering Research and Design 196, pages 577-587.
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Haifeng Lu, Hu Ruan, Xiaolei Guo & Haifeng Liu. (2023) Study on friction and conveying characteristics of the pneumatic logistics transmission system. Powder Technology 417, pages 118282.
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Shijo JS & Niranjana Behera. (2022) Statistical analysis of fuidized dense phase conveying of fine particles. Powder Technology 404, pages 117441.
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Shijo J.S.Niranjana Behera. (2021) Performance prediction of pneumatic conveying of powders using artificial neural network method. Powder Technology 388, pages 149-157.
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Shijo J.S.Niranjana Behera. (2020) Modelling and analysis of flow of powders through long pipelines. World Journal of Engineering 17:5, pages 709-718.
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Kapil Sharma, S.S. Mallick & Anu Mittal. (2020) A study of energy loss due to particle to particle and wall collisions during fluidized dense-phase pneumatic transport. Powder Technology 362, pages 707-716.
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Yassin Alkassar, Vijay K. Agarwal, Niranjana Behera, Mark G. Jones & R.K. Pandey. (2019) Transient characteristics of fine powder flows within fluidized dense phase pneumatic conveying systems. Powder Technology 343, pages 629-643.
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Rashmi Dhurandhar, Jyoti Prakash Sarkar & Bimal Das. (2018) The recent progress in momentum, heat and mass transfer studies on pneumatic conveying: a review. Heat and Mass Transfer 54:9, pages 2617-2634.
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Baldeep Kaur, Anu Mittal, Soumendu Jana, S.S. Mallick & Peter Wypych. (2018) Stability and phase space analysis of fluidized-dense phase pneumatic transport system. Powder Technology 330, pages 190-200.
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Peng Lu, Peijie Yang, Xingwen Zheng, Xiaoping Chen & Changsui Zhao. (2017) Pilot-Scale Experimental Study on Phase Diagrams of Pressurized Pneumatic Conveying with Pulverized Coal. Energy & Fuels 31:9, pages 10260-10266.
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Baldeep Kaur, Anu Mittal, Peter Wypych, S.S. Mallick & Soumendu Jana. (2017) On developing improved modelling and scale-up procedures for pneumatic conveying of fine powders. Powder Technology 305, pages 270-278.
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