Article information
2012 , Volume 17, ¹ 2, p.3-12
Miloshevic H., Petkovic D., Kontrec N., Rychkov A.D.
Mathematical modelling of the process of making fireproof protective coverings by two-phase jets
The mathematical modelling of the process of making fireproof protective coatings reduces to the consideration of a problem of the interaction of a two-phase turbulent jet with a plane wall. The second phase represents a fine-fraction mixture of the coke and magnesite particles, and when impinging on the wall they can both stick to it and reflect from it. The reflected particles near the wall interact with the carrier gas and with the impinging particles thus forming a narrow layer of particles with the increased particles concentration, which is usually called as a screening layer. The computation of such a flow in a jet was performed within the framework of a continual model. For the description of gas flow the averaged Navier - Stokes equation system and k - ε − model of turbulence have been used.
[full text] Keywords: numerical modelling, two-phase flows, fireproof protective coatings, combustion of coal particles, steel-melting converters
Author(s): Miloshevic Hranislav Dr. , Professor Office: Faculty of natural science and mathematics Address: 38220, Serbia, Kosovska Mitrovica, I.L. Ribar bb
Phone Office: (38111) 2146464 E-mail: ytlad@eunet.rs Petkovic D. Dr. , Professor Office: Pristina University Address: Serbia, Kosovska Mitrovica, Kosovska Mitrovica, I.L. Ribar bb
Kontrec Natasa Position: engineer Office: University of Prishtina in Kosovska Mitrovica Address: 038200, Serbia, Kosovska Mitrovica, I.L. Ribar bb
E-mail: natasa_radenkovic@yahoo.com Rychkov Aleksandr Dmitrievich Dr. , Professor Position: Leading research officer Address: 63009, Russia, Novosibirsk, I.L. Ribar bb
Phone Office: (383) 330 86 56 E-mail: rych@ict.nsc.ru
Bibliography link: Miloshevic H., Petkovic D., Kontrec N., Rychkov A.D. Mathematical modelling of the process of making fireproof protective coverings by two-phase jets // Computational technologies. 2012. V. 17. ¹ 2. P. 3-12
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