Citations (21)
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Read on this site (10)
Gourav Saluja, S. S. Mallick & Sujay Karmakar. (2024) Modeling minimum transport boundary for pneumatic conveying of powders. Particulate Science and Technology 42:3, pages 418-426.
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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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Atul Sharma & S. S. Mallick. (2021) An investigation into pressure drop through bends in pneumatic conveying systems. Particulate Science and Technology 39:2, pages 180-191.
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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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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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Longwang Yue & Kong Fah Tee. (2019) Innovative design of pneumatic conveying and foreign substance cleaning and dust removal system. Australian Journal of Mechanical Engineering 17:3, pages 209-218.
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A. Mittal, S. S. Mallick & P. W. Wypych. (2016) An investigation into the transition of flow mechanism during fluidized dense-phase pneumatic conveying of fine powders. Particulate Science and Technology 34:1, pages 23-32.
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Niranjana Behera, VijayK. Agarwal, Mark Jones & KennethC. Williams. (2013) Modeling and Analysis of Solids Friction Factor for Fluidized Dense Phase Pneumatic Conveying of Powders. Particulate Science and Technology 31:2, pages 136-146.
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S.S. Mallick & P.W. Wypych. (2011) On Improving Scale-Up Procedures for Dense-Phase Pneumatic Conveying of Powders. Particulate Science and Technology 29:5, pages 407-427.
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Articles from other publishers (11)
Jialiang Cai, Jiang Xu, Minghao You, Cai Liang, Daoyin Liu, Jiliang Ma & Xiaoping Chen. (2023) Flow characteristics and pattern transition of different pipe diameters in pneumatic conveying for gasifier. Chemical Engineering Research and Design 189, pages 282-295.
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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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Santosh Kumar Senapati & Sukanta Kumar Dash. (2021) Computation of pressure drop for dilute gas–solid suspension across thin and thick orifices. Particuology 55, pages 209-221.
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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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Jiawei Zhou, Xiaoming Han, Shuangxi Jing & Yu Liu. (2020) Efficiency and stability of lump coal particles swirling flow pneumatic conveying system. Chemical Engineering Research and Design 157, pages 92-103.
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J. Heng, T.H. New & P.A. Wilson. (2019) Application of an Eulerian granular numerical model to an industrial scale pneumatic conveying pipeline. Advanced Powder Technology 30:2, pages 240-256.
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Lokesh Rohilla, Vivek Garg, S.S. Mallick & Gautam Setia. (2018) An experimental investigation on the effect of particle size into the flowability of fly ash. Powder Technology 330, pages 164-173.
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Niranjana Behera, Vijay K. Agarwal & Mark G. Jones. (2015) A model of solids friction factor for fluidized dense phase pneumatic conveying. Powder Technology 284, pages 403-410.
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Federico M. Berruti & Cedric L. Briens. (2013) Novel intermittent solid slug feeder for fast pyrolysis reactors: Fundamentals and modeling. Powder Technology 247, pages 95-105.
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Chunhui He, Xianmei Chen, Jianhao Wang, Hongliang Ni, Yupeng Xu, Haijun Zhou, Yuanquan Xiong & Xianglin Shen. (2012) Conveying characteristics and resistance characteristics in dense phase pneumatic conveying of rice husk and blendings of rice husk and coal at high pressure. Powder Technology 227, pages 51-60.
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