Details

Title

Numerical Simulation of Coal Suspension Sedimentation

Journal title

Archives of Mining Sciences

Yearbook

2016

Numer

No 1

Publication authors

Divisions of PAS

Nauki o Ziemi

Publisher

Committee of Mining PAS

Date

2016

Identifier

ISSN 0860-7001

References

Rostami (2011), Numerical modeling on inlet aperture effects on flow pattern in primary settling tanks Modelling, Applied Mathematical. ; Bajcar (2011), Sedimentation efficiency of two continuously operating circular settling tanks with different inlet - and outlet arrangements, Chemical Engineering Journal, 178. ; Tory (1996), Sedimentation of small particles in a viscous fluid, Computational Mechanics Publications, 281. ; Branny (2010), Usage of Fluent Application in the Process of Numerical Calculation of Barium Sulphate Deposits Flow Through the Jankowice and Pniowek Coal Mines Settling Tanks Vol No, Arch Min Sci, 55, 501. ; Gicala (2011), Modelowanie numeryczne przepływów wielofazowych z fazą dyspersyjną Podstawy teoretyczne i zastosowanie Instytut Techniki Górniczej KOMAG, Gliwice. ; Bürger (2001), Sedimentation and suspension flows : Historical perspective and some recent developments Vol Iss, Journal of Engineering Mathematics, 41. ; Tryggavason (2011), Direct numerical simulations of gas - liquid multiphase flows Cambridge Univ, Pr. ; Bargiel (2006), Simulation of sedimentation and fluidization of polydisperse suspensions via a Markov model, Chem Eng J, 61. ; Kołodziejczyk (2012), Modeling of sedimentation in lamella settling tanks with the application of numerical methods vol no, Polish Journal of Environmental Studies, 21, 190. ; Kynch (1952), A theory of sedimentation Faraday Soc, Trans, 48, 166. ; Samaras (2010), A CFD - based simulation study of a large scale flocculation tank for potable water treatment, Chemical Engineering, 162. ; Bustos (1999), Sedimentation and Thickening : Phenomenological Foundation and Mathematical Theory, Springer. ; Goula (2008), A CFD methodology for the design of sedimentation tanks in potable water treatment, Chemical Engineering Journal, 140. ; Kołodziejczyk (2011), The modelling of laboratory multiflux settling tank work vol no, Polish Journal of Environmental Studies, 20, 130. ; Bajcar (2010), Influence of flow field on sedimentation efficiency in a circular settling tank with peripheral inflow and central effluent and Processing, Chemical Engineering. ; Malcher (2012), Influence of polymer - surfactant aggregates on fluid flow vol, Bioelectrochemistry, 87, 42, doi.org/10.1016/j.bioelechem.2012.01.011 ; Lundberg (2008), A review of some exsisting drag models describing the interaction between phases in a bubbling fluidized bed th Scand Simulation and Modeling Oslo University College Oslo Norway, Proc Conf. ; Kołodziejczyk (2014), Numerical simulations of polydispersed suspension sedimentation in ANSYS CFX vol no, Polish Journal of Environmental Studies, 23, 1003. ; Bandrowski (2001), Sedymentacja zawiesin Zasady i projektowanie Politechniki Sląskiej Gliwice, Wyd. ; Xanthos (2011), et Performance Assessment of Secondary Settling Tanks Using CFD Modeling, Water Resources Management, 25, doi.org/10.1007/s11269-010-9620-1 ; Banaś (2004), a Computer simulations of the sedimentation process model which considers internal interactions among solid phase particles vol Iss Part, Inzynieria Chemiczna i Procesowa, 25, 665. ; Banaś (2004), The dependence of sedimentation efficiency on suspension concentration i Proc, Inż Chem, 25. ; Surowiak (2014), Methodology of Calculation the Terminal Settling Velocity Distribution of Spherical Particles for High Values of the Reynold s Number Arch No, Min Sci, 59, 269. ; Blaschke (2009), Przeróbka węgla kamiennego - wzbogacanie grawitacyjne Gospodarki Surowcami Mineralnymi i Energią PAN Kraków, Wyd.

DOI

10.1515/amsc-2016-0005

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