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010   $a9786611379032
010   $a981-277-431-9
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100   $a20060923d2006      uy             0
101 0 $aeng
135   $aur|||||||||||
181   $ctxt
182   $cc
183   $acr
200 10$aParticles, bubbles & drops$b[electronic resource] $etheir motion, heat and mass transfer /$fE. E. Michaelides
210   $aHackensack, NJ $cWorld Scientific$dc2006
215   $axiii, 410 p. $cill
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a981-256-648-1 
311   $a981-256-647-3 
320   $aIncludes bibliographical references (p. 373-406) and index.
327   $a1. Introduction. 1.1. Historical background. 1.2. Terminology and nomenclature. 1.3. Examples of applications in science and technology -- 2. Fundamental equations and characteristics of particles, bubbles and drops. 2.1. Fundamental equations of a continuum. 2.2. Conservation equations for a single particle, bubble or drop. 2.3. Characteristics of particles, bubbles and drops. 2.4. Discrete and continuous size distributions -- 3. Low Reynolds number flows. 3.1. Conservation equations. 3.2. Steady motion and heat/mass transfer at creeping flow. 3.3. Transient, creeping flow motion. 3.4 Transient heat/mass transfer at creeping flow. 3.5. Hydrodynamic force and heat transfer for a spheroid at creeping flow. 3.6. Steady motion and heat/mass transfer at small Re and Pe. 3.7. Transient hydrodynamic force at small Re. 3.8. Transient heat/mass transfer at small Pe -- 4. High Reynolds number flows. 4.1. Flow fields around rigid and fluid spheres. 4.2. Steady hydrodynamic force and heat transfer. 4.3. Transient hydrodynamic force. 4.4. Transient heat transfer -- 5. Non-spherical particles, bubbles and drops. 5.1. Transport coefficients of rigid particles at low Re. 5.2. Hydrodynamic force for rigid particles at high Re. 5.3. Heat transfer for rigid particles at high Re. 5.4. Non-spherical bubbles and drops -- 6. Effects of rotation, shear and boundaries. 6.1. Effects of relative rotation. 6.2. Effects of flow shear. 6.3. Effects of boundaries. 6.4. Constrained motion in an enclosure. 6.5. Effects of boundaries on bubble and drop deformation. 6.6. A note on the lift force in transient flows -- 7. Effects of turbulence. 7.1. Effects of free stream turbulence. 7.2. Turbulence modulation. 7.3. Drag reduction. 7.4. Turbulence models for immersed objects. 7.5. Heat transfer in pipelines with particulates. 7.6. Turbophoresis and wall deposition. 7.7. Turbulence and coalescence of viscous spheres -- 8. Electro-kinetic, thermo-kinetic and porosity effects. 8.1. Electrophoresis. 8.2. Brownian motion. 8.3. Thermophoresis. 8.4. Porous particles -- 9. Effects of higher concentration and collisions. 9.1. Interactions between dispersed objects. 9.2. Effects of concentration. 9.3. Collisions of spheres. 9.4. Collisions with a wall-mechanical effects. 9.5. Heat transfer during wall collisions -- 10. Molecular and statistical modeling. 10.1. Molecular dynamics. 10.2. Stokesian dynamics. 10.3. Statistical methods -- 11. Numerical methods-CFD. 11.1 Forms of Navier-Stokes equations used in CFD. 11.2. Finite difference method. 11.3. Spectral and finite-element methods. 11.4. The Lattice-Boltzmann method. 11.5. The force coupling method. 11.6. Turbulent flow models. 11.7. Potential flow-boundary integral method.
606   $aBubbles$xMathematical models
606   $aDrops$xMathematical models
606   $aMultiphase flow$xMathematical models
606   $aParticles$xMathematical models
608   $aElectronic books.
615  0$aBubbles$xMathematical models.
615  0$aDrops$xMathematical models.
615  0$aMultiphase flow$xMathematical models.
615  0$aParticles$xMathematical models.
676   $a620.1/064
700   $aMichaelides$b Efstathios$0862988
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910451915803321
996   $aParticles, bubbles & drops$91926478
997   $aUNINA