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Multiphase flow dynamics. 3, Turbulence, gas absorption and release, diesel fuel properties

Author: Nikolay Ivanov Kolev
Publisher: Berlin ; New York : Springer, ©2007.
Edition/Format:   eBook : Document : English : 1st edView all editions and formats
Summary:
Volume 3 is devoted to selected Chapters of the multiphase fluid dynamics that are important for practical applications. The state of the art of the turbulence modeling in multiphase flows is presented. As introduction, some basics of the single-phase boundary layer theory including some important scales and flow oscillation characteristics in pipes and rod bundles are presented. Then the scales characterizing the  Read more...
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Genre/Form: Electronic books
Additional Physical Format: Print version:
Kolev, Nikolay Ivanov.
Multiphase flow dynamics. 3, Turbulence, gas absorption and release, diesel fuel properties.
Berlin ; New York : Springer, ©2007
(DLC) 2002075843
(OCoLC)50034795
Material Type: Document, Internet resource
Document Type: Internet Resource, Computer File
All Authors / Contributors: Nikolay Ivanov Kolev
ISBN: 9783540714439 354071443X 3540714421 9783540714422 1280937254 9781280937255
OCLC Number: 426031049
Description: 1 online resource (1 volume) : illustrations (some color)
Contents: Some Basics of the Single-Phase Boundary Layer Theory --
to Turbulence of Multi-Phase Flows --
Sources for Fine Resolution Outside the Boundary Layer --
Source Terms for k-epsModels in Porous Structures --
Influence of the Interfacial Forces on the Turbulence Structure --
Particle-eddy Interactions --
Two group k-eps models --
Set of benchmarks for verification of k-eps models in system computer codes --
Simple algebraic models for eddy viscosity in bubbly flow --
Large eddy simulations --
Solubility of O2, N2, H2 and CO2 in Water --
Transient solution and dissolution of gasses in liquid flows --
Thermodynamic and transport properties of diesel fuel.
Other Titles: Turbulence, gas absorption and release, diesel fuel properties
Responsibility: Nikolay I. Kolev.

Abstract:

Volume 3 is devoted to selected Chapters of the multiphase fluid dynamics that are important for practical applications. The state of the art of the turbulence modeling in multiphase flows is presented. As introduction, some basics of the single-phase boundary layer theory including some important scales and flow oscillation characteristics in pipes and rod bundles are presented. Then the scales characterizing the dispersed flow systems are presented. The description of the turbulence is provided at different level of complexity: simple algebraic models for eddy viscosity, algebraic models based on the Boussinesq hypothesis, modification of the boundary layer share due to modification of the bulk turbulence, modification of the boundary layer share due to nucleate boiling. Then the role of the following forces on the matematical description of turbulent flows is discussed: the lift force, the lubrication force in the wall boundary layer, and the dispersion force. A pragmatic generalization of the k-eps models for continuous velocity field is proposed containing flows in large volumes and flows in porous structures. Method of haw to derive source and sinks terms for multiphase k-eps models is presented. A set of 13 single- and two phase benchmarks for verification of k-eps models in system computer codes are provided and reproduced with the IVA computer code as an example of the application of the theory. This methodology is intendet to help other engineers and scientists to introduce this technology step-by-step in their own engineering practice. In many practical application gases are solved in liquids under given conditions, released under other conditions and therefore affecting technical processes for good of for bad. Useful information on the solubility of oxygen, nitrogen, hydrogen and carbon dioxide in water under large interval of pressures and temperatures is collected, and appropriate mathematical approximation functions are provided. In addition methods for computation of the diffusion coefficients are described. With this information solution and dissolution dynamics in multiphase fluid flows can be analyzed. For this purpose the non-equilibrium absorption and release on bubble, droplet and film surfaces under different conditions is mathematically described. In order to allow the application of the theory from all the three Volumes also to processes in combustion engines a systematic set of internally consistent state equations for diesel fuel gas and liquid valid in broad range of changing pressure and temperature are provided.

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