Citations (42)
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Yatindra Kumar & D. R. Kaushal. (2024) Economic particulate transport performance analysis of k-epsilon models in highly concentrated slurry through pipelines. Particulate Science and Technology 42:4, pages 668-687.
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Matheus D. B. Oliveira, Bruno E. P. Ferreira & Cristiana B. Maia. (2024) Scale up validation tests for Buckingham Pi theorem applied to leaf test experiments for iron ore slurry. Drying Technology 42:6, pages 997-1008.
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Mohsen Monadi & Mirali Mohammadi. (2023) Sedimentation in heavy laden urban combined sewer conduits using a multi-phase Eulerian-Eulerian model. Urban Water Journal 20:8, pages 979-994.
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Marwane Elkarii, Radouan Boukharfane, Saad Benjelloun & Chakib Bouallou. (2023) A CFD-based surrogate model for predicting slurry pipe flow pressure drops. Particulate Science and Technology 41:3, pages 432-442.
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Mengda Zhang, Yong Kang, Wei Wei, Deng Li & Ting Xiong. (2021) CFD investigation of the flow characteristics of liquid–solid slurry in a large-diameter horizontal pipe. Particulate Science and Technology 39:6, pages 712-725.
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Mani Kanwar Singh, Satish Kumar & Dwarikanath Ratha. (2020) Computational analysis on disposal of coal slurry at high solid concentrations through slurry pipeline. International Journal of Coal Preparation and Utilization 40:2, pages 116-130.
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Rasel A. Sultan, M. Aziz Rahman, Sayeed Rushd, Sohrab Zendehboudi & Vassilios C. Kelessidis. (2019) Validation of CFD model of multiphase flow through pipeline and annular geometries. Particulate Science and Technology 37:6, pages 685-697.
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Navneet Kumar, Manoj Kumar Gopaliya & D. R. Kaushal. (2019) Experimental investigations and CFD modeling for flow of highly concentrated iron ore slurry through horizontal pipeline. Particulate Science and Technology 37:2, pages 232-250.
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Articles from other publishers (34)
Tanuj Joshi, Om Parkash, Ralph Kristoffer B. Gallegos & Gopal Krishan. (2024) Computational investigation of transportation and thermal characteristics in a bi-modal slurry flow through a horizontally placed pipe bend. Powder Technology, pages 119879.
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Tanuj Joshi, Om Parkash, Ralph Kristoffer B. Gallegos & Gopal Krishan. (2024) Parametric investigation of slurry transport: Computational insight into the impact of particle composition and Prandtl numbers. Physics of Fluids 36:2.
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Yue Feng, Yiming Lei, Meng Zheng, Zhixuan Li, Ning Zhao, Jianqiang Ren & Lide Fang. (2023) Flow regime and critical deposition velocity of liquid–solid two-phase flow in pipeline: Progress and perspectives. Physics of Fluids 35:10.
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Minxi Zhang, Yangliuer Chen, Mingzhi Li, Rui Wang & Guoliang Yu. (2023) Reducing transport resistance in highly concentrated fine-grained slurry pipelines by vibration-induced fluidization. Ocean Engineering 286, pages 115562.
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N. V. K. Reddy, J. K. PothalR. BarikP. K. Senapati. (2023) Pipeline Slurry Transportation System: An Overview. Journal of Pipeline Systems Engineering and Practice 14:3.
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Zeineb Ghoudi, Fayssal Benkhaldoun, Federico Piscaglia & Noureddine Hajjaji. (2023) Towards the modeling of the effect of turbulent water batches on the flow of slurries in horizontal pipes using CFD. European Journal of Mechanics - B/Fluids 100, pages 208-222.
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Tanuj Joshi, Om Parkash & Gopal Krishan. (2023) Estimation of energy consumption and transportation characteristics for slurry flow through a horizontal straight pipe using computational fluid dynamics. Physics of Fluids 35:5.
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Mohsen Sadeghi, Somasekhara Goud Sontti, Enzu Zheng & Xuehua Zhang. (2023) Computational fluid dynamics (CFD) simulation of three–phase non–Newtonian slurry flows in industrial horizontal pipelines. Chemical Engineering Science 270, pages 118513.
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Tanuj Joshi, Om Parkash, Anarghya Ananda Murthy & Gopal Krishan. (2023) Numerical investigation of Bi-model slurry transportation in a straight pipe. Results in Engineering 17, pages 100858.
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Tanuj Joshi, Om Parkash, Gopal Krishan & Anarghya A. Murthy. (2023) Numerical investigation of Bi-model slurry transportation through horizontal pipe bend. Powder Technology 418, pages 118284.
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Mukund Kumar & Gaurav Kumar. (2023) Numerical prediction of slurry flows through 90° bend pipelines. Materials Today: Proceedings.
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Tanuj Joshi, Om Parkash & Gopal Krishan. (2023) Slurry flow characteristics through a horizontal pipeline at different Prandtl number. Powder Technology 413, pages 118008.
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Tanuj Joshi, Om Parkash & Gopal Krishan. (2022) Numerical Investigation of Slurry Pressure Drop at Different Pipe Roughness in a Straight Pipe Using CFD. Arabian Journal for Science and Engineering 47:12, pages 15391-15414.
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Weihuang Liu, Yanping He, Mingzhi Li, Chao Huang & Yadong Liu. (2022) Effect of drag models on hydrodynamic behaviors of slurry flows in horizontal pipes. Physics of Fluids 34:10.
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Tanuj Joshi, Om Parkash & Gopal Krishan. (2022) CFD modeling for slurry flow through a horizontal pipe bend at different Prandtl number. International Journal of Hydrogen Energy 47:56, pages 23731-23750.
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Amit K. Thakur, Rahul Kumar, Nilanjana Banerjee, Pranava Chaudhari & Gajendra Kumar Gaurav. (2022) Hydrodynamic modeling of liquid-solid flow in polyolefin slurry reactors using CFD techniques – A critical analysis. Powder Technology 405, pages 117544.
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Weihuang Liu, Yanping He, Mingzhi Li, Yadong Liu & Chao Huang. (2022) Effect of specularity coefficient on hydrodynamic behaviors of slurry flows in horizontal pipes. Ocean Engineering 246, pages 110617.
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Guorui Feng, Zehua Wang, Tingye Qi, Xianjie Du, Jun Guo, Haochen Wang, Xudong Shi & Xiaoze Wen. (2022) Effect of velocity on flow properties and electrical resistivity of cemented coal gangue-fly ash backfill (CGFB) slurry in the pipeline. Powder Technology 396, pages 191-209.
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Weihuang Liu, Yanping He, Mingzhi Li, Qianyi Chen, Yadong Liu & Chao Huang. (2021) Computational fluid dynamics modeling of slurry flow in horizontal pipes: Effect of specularity coefficient on hydraulic gradient. Ocean Engineering 238, pages 109625.
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Thijs SchoutenCees van RheeGeert Keetels. (2021) Two-phase modelling for sediment water mixtures above the limit deposit velocity in horizontal pipelines. Journal of Hydrology and Hydromechanics 69:3, pages 263-274.
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Artur Bartosik. (2021) Numerical Modelling of Heat Transfer in Fine Dispersive Slurry Flow. Energies 14:16, pages 4909.
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G. V. Messa, M. Malin & V. Matoušek. (2021) Parametric study of the $${\beta }$$-$${\sigma }$$ two-fluid model for simulating fully suspended slurry flow: effect of flow conditions. Meccanica 56:5, pages 1047-1077.
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Om PARKASH, Arvind KUMAR & Basant SİKARWAR. (2021) ANALYTICAL AND COMPARATIVE INVESTIGATION OF PARTICULATE SIZE EFFECT ON SLURRY FLOW CHARACTERISTICS USING COMPUTATIONAL FLUID DYNAMICS. Journal of Thermal Engineering 7:1, pages 220-239.
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R. Ramirez, E. Avila, L. Lopez, A. Bula & J. Duarte Forero. (2020) CFD characterization and optimization of the cavitation phenomenon in dredging centrifugal pumps. Alexandria Engineering Journal 59:1, pages 291-309.
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Om PARKASH. (2020) FLOW CHARACTERIZATION OF MULTI-PHASE PARTICULATE SLURRY IN THERMAL POWER PLANTS USING COMPUTATIONAL FLUID DYNAMICS. Journal of Thermal Engineering 6:1, pages 187-203.
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Gianandrea Vittorio Messa & Václav Matoušek. (2020) Analysis and discussion of two fluid modelling of pipe flow of fully suspended slurry. Powder Technology 360, pages 747-768.
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Kanwar Pal Singh, Arvind Kumar & Deo Raj Kaushal. (2019) Pressure drop calculation for fly ash slurry using rheological model. World Journal of Engineering 16:6, pages 751-767.
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Rahul Tarodiya & Bhupendra K. Gandhi. (2019) Numerical simulation of a centrifugal slurry pump handling solid-liquid mixture: Effect of solids on flow field and performance. Advanced Powder Technology 30:10, pages 2225-2239.
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Xiong Ting, Sape A. Miedema & Chen Xiuhan. (2019) Comparative analysis between CFD model and DHLLDV model in fully-suspended slurry flow. Ocean Engineering 181, pages 29-42.
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Kanwar Pal Singh, Arvind Kumar & Deo Raj Kaushal. 2019. Advances in Fluid and Thermal Engineering. Advances in Fluid and Thermal Engineering
337
345
.
Ming-zhi Li, Yan-ping He, Ya-dong Liu & Chao Huang. (2018) Hydrodynamic simulation of multi-sized high concentration slurry transport in pipelines. Ocean Engineering 163, pages 691-705.
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Avi Uzi & Avi Levy. (2018) Flow characteristics of coarse particles in horizontal hydraulic conveying. Powder Technology 326, pages 302-321.
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Jatinder Pal Singh, Satish Kumar & S.K. Mohapatra. (2017) Modelling of two phase solid-liquid flow in horizontal pipe using computational fluid dynamics technique. International Journal of Hydrogen Energy 42:31, pages 20133-20137.
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Deo Raj Kaushal, Arvind Kumar, Yuji Tomita, Shigeru Kuchii & Hiroshi Tsukamoto. (2017) Flow of Bi-modal Slurry through Horizontal Bend. KONA Powder and Particle Journal 34:0, pages 258-274.
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