Models of Turbulent Transport and Transfer of Disperse Phase Mass in Liquids

Models of Turbulent Transport and Transfer of Disperse Phase Mass in Liquids

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Laptev A.G.

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Farakhov T.M.

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Kazan State Power Engineering University

Models of Turbulent Transport and Transfer of Disperse Phase Mass in Liquids

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Abstract

Using the theory of turbulent migration of particles and boundary layer models, expressions for calculation of particle transport coefficients and of mass transfer within the continuous phase are obtained. Various cases of turbulent direct flow of particles through the carrier turbulent medium are considered: smooth and rough channel; channel filled with fine random packing and apparatuses with mechanical mixing. Examples of calculation of mass transfer from droplets and solid particles are included and their agreement with experimental data of other authors is demonstrated.

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15 Cites in Article

Reference Format

D Alekseev,N Nikolaev,A Laptev (2005). Integrated treatment of sewer systems at industrial enterprises using the jet flotation method.
L Braginskii,V Begachev,V Barabash (1984). Mixing in liquid media: physical fundamentals and engineering calculation methods.
S Dyakonov,N Sosnovskaya,L Klinova (1982). Investigation of diffusion boundary layers by the holographic interferometry method.
A Kagan,A Pushnov (2013). Comparative characteristics of industrial packings for heat-and mass-exchange processes.
L Klinova,N Sosnovskaya,S Dyakonov (1987). Mathematical modeling of the equilibrium between nitrogen(II) and (IV) oxides in the combined process of metals extraction from the spent catalysts.
A Laptev (2005). Transport models and liquid extraction efficiency.
A Laptev (2007). Models of boundary layer and calculations of heat and mass transfer processes.
A Laptev,V Elizarov,S Dyakonov (1993). Mathematical modeling of mass transfer during mixing of two-phase media.
A Laptev,R Misbakhov,E Lapteva (2013). Numerical simulation of mass transfer in the liquid phase of the bubble layer of a thermal deaerator.
A Laptev,N Nikolaev,M Basharov (2011). CHAPTER 3 EXPERIMENTAL METHODS OF STUDYING HEAT AND MASS TRANSFER INTENSIFICATION.
E Lapteva,T Farakhov (2013). Mathematical models and calculation of heat and mass transfer characteristics of apparatuses.
A Laptev,T Farakhov (2013). Mathematical models of momentum transfer in the boundary layer.
A Laptev,T Farakhov,O Dudarovskaya (2012). Models of turbulent viscosity and mixing in channels and packed flow-through mixers.
E Mednikov (1981). Turbulent transport and deposition of aerosols.
S Oryol (1988). Dissolution of a solid particle in a stirred liquid.

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Funding

No external funding was declared for this work.

Conflict of Interest

The authors declare no conflict of interest.

Ethical Approval

No ethics committee approval was required for this article type.

Data Availability

Not applicable for this article.

How to Cite This Article

?????? ???????? ???????????. 2014. \u201cModels of Turbulent Transport and Transfer of Disperse Phase Mass in Liquids\u201d. Global Journal of Research in Engineering - C: Chemical Engineering GJRE-C Volume 14 (GJRE Volume 14 Issue C2).

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GJRE Volume 14 Issue C2

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Journal Specifications

Crossref Journal DOI 10.17406/gjre

Print ISSN 0975-5861

e-ISSN 2249-4596

Keywords

direct flow dissolution extraction mass transfer mixing momentum transfer turbulence

Submission ReceivedDecember 15, 2013
Peer Review Double Blind
Handling Editor
Accepted January 2, 2014
Published January 15, 2014

Version of record

v1.2

Issue date

September 30, 2014

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Article Matrices

Total Score: 102

Country: Unknown

Subject: Global Journal of Research in Engineering - C: Chemical Engineering

Authors: Laptev A.G., Farakhov T.M. (PhD/Dr. count: 0)

View Count (all-time): 253

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Publish Date: 2014 09, Tue

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Total Views: 4565

Total Downloads: 2250

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