| CO2 | Editorial Board | |
| 1-24 | The rheology of suspensions and its relation to phenomenological theories for non-newtonian fluids | Dominique Barthés-Biesel, Andreas Acrivos |
| 25-56 | The motion of a closely-fitting sphere in a fluid-filled tube | Peter M. Bungay, Howard Brenner |
| 57-71 | On the low reynolds number motion of two droplets | S. Haber, G. Hetsroni, A. Solan |
| 73-88 | Particles migration in laminar boundary layer flow | S. Einav, S. L. Lee |
| 89-101 | Particle-gas-surface interactions in collection devices | S. L. Soo |
| 103-122 | The local structure of gas fluidized beds —I. A statistically based measuring system | J. Werther, O. Molerus |
| 123-138 | The local structure of gas fluidized beds —II. The spatial distribution of bubbles | J. Werther, O. Molerus |
| 139-171 | Some recent results and development in gas-liquid flow: a review | G. F. Hewitt, J. A. Bouré |
| 173-193 | The onset of slugging in horizontal stratified air-water flow | Graham B. Wallis, John E. Dodson |
| 195-341 | Rheology of a dilute suspension of axisymmetric Brownian particles | Howard Brenner |
| 343-371 | The motion of suspended particles almost in contact | R. G. Cox |
| 373-381 | Experiments on the effective viscosity of concentrated suspensions of solid spheres | Avinoam Nir, Andreas Acrivos |
| 383-393 | Transient flow redistribution in annular two-phase flow | P. Hutchinson, P. B. Whalley, G. F. Hewitt |
| 395-409 | Jump conditions and entropy sources in two-phase systems. Local instant formulation | J. M. Delhaye |
| 411-436 | The effect of hydrodynamic coupling on the axisymmetric drainage of thin films | X. B. Reed Jr., E. Riolo, S. Hartland |
| 437-464 | The effect of hydrodynamic coupling on the thinning of a film between a drop and its homophase | X. B. Reed Jr., E. Riolo, S. Hartland |
| 465-486 | Extensional flow behavior of polymer solutions and particle suspensions in a spinning motion | C. B. Weinberger, J. D. Goddard |
| 487-490 | Dispersion of a solute in a micropolar pipe flow | Goodarz Ahmadi |
| 607-622 | The effect of a magnetic field on the rheodynamic behavior of ferromagnetic suspensions | D. Spasojević, T.F. Irvine, N. Afgan |
| 623-645 | An experimental study of plane bubbles rising at inclination | C.C. Maneri, N. Zuber |
| 647-669 | The analysis of a mechanism of liquid replenishment and draining in horizontal two-phase flow | M.W.E. Coney |
| 671-682 | An analysis of film flow and its application to condensation in a horizontal tube | D. Butterworth |
| 683-695 | Experimental coating and heat transfer studies in a vibrating fluidized bed | N. Abuaf, C. Gutfinger |
| 697-714 | Film condensation of multicomponent mixtures | Yehuda Taitel, Abraham Tamir |
| 715-726 | Velocity measurements in a two-phase turbulent jet | J. Popper, N. Abuaf, G. Hetsroni |
| 727-742 | Bounding principles for two-phase flow systems | S. W. Hopke, J. C. Slattery |
| 743-752 | Settling of an axially symmetric body in a viscous stratified fluid | Y. Zvirin, R. S. Chadwick |
| 753-769 | Velocity of sound in two-phase media | W. Gregor, H. Rumpf |
| 771-791 | Dryout in serpentine evaporators | S. A. Fisher, S. K. W. Yu |
| 793-816 | Drop trajectory predictions and their importance in the design of spray dryers | W. H. Gauvin, S. Katta, F. H. Knelman |
| 817-844 | Treatment of nonlinear terms in the numerical solution of partial differential equations for multiphase flow in porous media | A. Settari, K. Aziz |
| 845-850 | A comparison of some void-fraction relationships for co-current gas-liquid flow | D. Butterworth |
| 851-856 | Boundary layer growth on continuously formed surfaces | C. J. Clark, N. Dombrowski |
| 857 | An analysis of film flow and its application to condensation in a horizontal tube : | |
| i-iv | Volume Contents and Author Index |
| IFC | Editorial Board | |
| 1-8 | Some properties of multi-fluid stokes flows | A.M.J. Davis, M.E. O'Neill, K.B. Ranger |
| 9-17 | Hydrodynamic and thermal characteristics of a two-phase transpiration cooling system | A.V. Luikov, V.A. Maiorov, L.L. Vasiliev |
| 19-33 | Methods for calculating tracer distribution in multiphase plug flow systems | J. Reiss, J. Dayan, D. Rappaport |
| 35-49 | Downwards co-current annular flow | D.R. Webb, G.F. Hewitt |
| 51-66 | Horizontal bubble flow | T.L. Holmes, T.W.F. Russell |
| 67-78 | One-dimensional particle velocity probability densities measured in turbulent gas-particle duct flow | C.R. Carlson, R.L. Peskin |
| 79-95 | Liquid velocity distribution in two-phase bubble flow | Y. Sato, K. Sekoguchi |
| 97-104 | Multicomponent extraction with backmixing | L. Boyadzhiev, G. Angelov |
| 105-112 | The effect of deformation on the effective conductivity of a dilute suspension of drops in the limit of low particle peclet number | T. J. McMillen, L. G. Leal |
| 113-138 | Breakup of extending liquid threads | T. Mikami, R. G. Cox, S. G. Mason |
| 139-152 | Propagation of pressure waves in two-phase flow | Yasuo Mori, Kunio Hijikata, Atsutomo Komine |
| 153-169 | Laminar jet contraction and velocity distribution in immiscible liquid-liquid systems | H. Yu, G. F. Scheele |
| 171-182 | Heat and mass transfer in the vicinity of an evaporating droplet | J.Montlucon |
| 183-190 | Destabilization of film boiling by means of a thermal resistance | F. Moreaux, J. C. Chevrier, G. Beck |
| 191-212 | The applicability of dynamic-similarity criteria to isothermal, liquid-gas, two-phase flows without mass transfer | A. K. Chesters |
| 213-218 | Deposition of particles from a gas flowing parallel to a surface | G. C. Gardner |
| 219 | A one-day symposium: “Measurement of particulate pollutants in gas streams” |
| 365-377 | Closed streamline flows past small rotating particles: Heat transfer at high péclet numbers | G.G. Poe, Andreas Acrivos |
| 379-395 | Instability waves and the origin of bubbles in fluidized beds: Part 1: Experiments | M.M. El-Kaissy, G.M. Homsy |
| 397-410 | Hydrodynamics of thin liquid films. Rate of thinning of emulsion films from pure liquids | I.B. Ivanov, T.T. Traykov |
| 411-433 | Evaporation of binary mixtures in upward annular flow | R.A.W. Shock |
| 435-451 | Flow of two liquids in sloping tubes: An analogue of high pressure steam and water | G.C. Gardner, J. Kubie |
| 453-464 | Propagation of a pressure wave in two-phase flow with very high void fraction | Y. Mori, K. Huikata, T. Ohmori |
| 465-470 | Particle velocities in vertical pneumatic conveying systems | G. Dixon |
| 471-475 | Droplet size resulting from breakup of liquid at gas-liquid interfaces of liquid-submerged subsonic and sonic gas jets | T.C. Chawla |
| 476 | Erratum |
| 89-116 | Transient and statistical measurement techniques for two-phase flows: A critical review | Owen C. Jones Jr., Jean-Marc Delhaye |
| 117-122 | The stability of gas-flow over a stagnant liquid in a pipe and the onset of slugging | J. M. Fitremann |
| 123-139 | Flow of a particulate suspension in the wake of a circular cylinder | D. L. Fenton, J. J. Stukel |
| 141-145 | Measurement of the local particle concentration in fully turbulent duct flow | D. L. Fenton, J. J. Stukel |
| 147-169 | Stokes flow past finite coaxial clusters of spheres in a circular cylinder | S. Leichtberg, R. Pfeffer, S. Weinbaum |
| 171-180 | A simulation model for two- and three-phase agitated systems | S. Jakubowsky, S. Sideman |
| 181-195 | Condensation of ammonia by homogeneous nucleation in supersonic nozzles | Philippe Mathieu |
| 197-198 | Thermo-fluid dynamic theory of two-phase flow : by M. Ishii. 1975. Eyrolles, Collection de la Direction des Etudes et Recherches d'Electricité de France. | |
| 199 | Call for papers | |
| 199-200 | Proceedings of the LDA-Symposium Copenhagen 1975 |
| 201-222 | The lateral migration of solid particles in a laminar flow near a plane | R.G. Cox, S.K. Hsu |
| 223-234 | Numerical calculations of two-phase turbulent round jet | H. Danon, M. Wolfshtein, G. Hetsroni |
| 235-241 | A note on the centrifugal scaling of horizontal, isothermal, liquid-gas flows without mass transfer | A.K. Chesters |
| 243-253 | A study of particle motion induced by two-dimensional liquid oscillations | R.A. Herringe |
| 255-261 | Time dependent analysis of the evolution of the distribution of drop sizes of liquid droplets in a free-molecule stream | N. Bellomo, S. Larosa |
| 263-272 | Aerodynamic behavior of liquid sprays | P.H. Rothe, J.A. Block |
| 273-283 | The wavy aspect of a horizontal co-current air-water film flow and the transport phenomena | V. Pimsner, P. Toma |
| 285-298 | Slurry flow metering by pressure differential devices | R.A. Herringe |
| 299-303 | Motion of a vaporizing droplet in a constant cross flow | C.K. Law |
| 304 | A new opportunity for academic space experiments |
| 305-318 | Motion of miscible and immiscible fluids in closed horizontal and vertical ducts | G.C. Gardner |
| 319-331 | Rate of deposition of droplets in annular two-phase flow | D.D. McCoy, T.J. Hanratty |
| 333-340 | On the theorems for local volume averaging of multiphase systems | W.G. Gray, P.C.Y. Lee |
| 341-351 | Turbulence modulation in two-phase jets | A.M. Al Taweel, J. Landau |
| 353-366 | Flow of two liquids in a helix: an analogue of high pressure helical boilers | J. Kubie, G.C. Gardner |
| 367-381 | Bubble chains in large diameter gas fluidized beds | J. Werther |
| 383-397 | Liquid flow patterns about barbotage bubbles | S.A. Barakat, G.E. Sims |
| 399 | Solid-liquid separation 6–9 September 1977 |
| 237-262 | The dynamics and dissolution of gas bubbles in a viscoelastic fluid | E. Zana, L. G. Leal |
| 263-277 | The circular disk straddling the interface of a two-phase flow | K. B. Ranger |
| 279-302 | Modes of bubble growth in the slow-formation regime of nucleate pool boiling | A. K. Chesters |
| 303-322 | Acoustic wave propagation in a flowing liquid-vapour mixture | K. H. Ardron, R. B. Duffey |
| 323-337 | A two-fluid model for critical vapour-liquid flow | K. H. Ardron |
| 339-355 | Longitudinal diffusion in a flow through a tube | V. I. Maron |
| 357-381 | The slow motion of two spherical particles along their line of centres | E. Rushton, G.A. Davies |
| 383-396 | Configurations of gas-liquid two-phase bubbles in immiscible liquid media | Yasuhiko H. Mori |
| 397-404 | Pressure drop and solids distribution of air-solids mixture in horizontal unsymmetric branches | Y. Morikawa, T. Kondo, T. Hiramoto |
| 405-412 | Time-average local thickness measurement in falling liquid film flow | Ronald P. Salazar, Ekkehard Marschall |
| 413-425 | Heat transfer to non-newtonian laminar falling liquid films with smooth wave free gas—liquid interface | V.Narayana Murthy, P.K. Sarma |
| 427-431 | The calculation of dryout in a rod bundle—a comparison of experimental and calculated results | P.B. Whalley |
| 433-434 | The slow motion of two touching fluid spheres along their line of centers: addendum | F.A. Morrison Jr., L.D. Reed |
| 435 | 1978 International conference on physicochemical hydrodynamics (The Levich Conference) |
| IFC | Editorial Board | |
| 1-15 | Condensation of steam on water in turbulent motion | R.M. Thomas |
| 17-37 | The structure of bubbly flow through venturis | N.T. Thang, M.R. Davis |
| 39-58 | An experimental study of choked foam flows in a convergent-divergent' nozzle | N. Sandhu, G.J. Jameson |
| 59-78 | Dispersion in annular climbing film flow | A. Roukens de Lange |
| 79-85 | Particle sizing by capillary hydrodynamic chromatography | Michael E. Mullins, Clyde Orr |
| 87-99 | Velocity profiles and form of a laminar jet in immiscible liquid-liquid systems | Peter Gospodinov, Stefan Radev, Ivan Penchev |
| 101 | 1979 Symposium on instrumentation and control for fossil energy processes |
| 103-112 | Droplet deposition in an annular geometry | P. W. James, P. Hutchinson |
| 113-129 | Predicting the deposit velocity for horizontal turbulent pipe flow of slurries | A. D. Thomas |
| 131-141 | Incompleteness of the flashing of a supersaturated liquid and sonic ejection of the produced phases | C. Lackme |
| 143-148 | On the rotation of a rotlet or sphere in the presence of an interface | M. E. O'Neill, K. B. Ranger |
| 149-152 | Two spheres rotating perpendicular to an interface | P. van Den Driessche |
| 153-158 | On the effect of P | W. T. Sha, S. L. Soo |
| 159-164 | On the form of the pressure terms in the momentum and energy equations of two-phase flow models | J. A. Bouré |
| 165-167 | Two phase heat transfer in steady and transient states |
| 169-183 | The slow rotation of an axisymmetric solid submerged in a fluid with a surfactant surface layer—I The rotating disk in a semi-infinite fluid | R. Shail |
| 185-199 | Boundary layer in compressible flow of wet water vapour | Wojciech Studzi |
| 201-209 | Onset of slugging in horizontal ducts | G. C. Gardner |
| 211-217 | The effect of swirl on critical heat flux in annular two-phase flow | P. B. Whalley |
| 219-224 | Critical heat flux of saturated natural convection boiling in a space bounded by two horizontal co-axial disks and heated from below | Y. Katto, Y. Kosho |
| 225-228 | The theory of the gas-lift pump: A rejoinder | S. A. K. Jeelani, K. V. Kasipati Rao, G. R. Balasubramanian |
| 229-230 | Bubbles, drops and particles : R. Clift, J.R. Grace and M.E. Weber. Academic Press, 1978. 380 pp | L. G. Leal |
| 231 | Basic mechanisms in two-phase flow and heat transfer : 1980 Winter Annual Meeting 16–21 November 1980 Chicago Fluids Engineering Division Heat Transfer Division |
| 233-242 | The analysis of virtual mass effects in two-phase flow | D. Drew, L. Cheng, R. T. Lahey Jr. |
| 243-264 | Application of general constitutive principles to the derivation of multidimensional two-phase flow equations | Donald A. Drew, Richard T. Lahey Jr |
| 265-279 | Method of characteristics solutions for non-equilibrium transient flow-boiling | R. L. Ferch |
| 281-291 | Transition boiling data of water on inconel surface under forced convective conditions | S. C. Cheng, H. Ragheb |
| 293-299 | Void-fraction relationships for upward flow of saturated, steam-water mixtures | H. S. Isbin, David Biddle |
| 301-312 | Dust entrainment in a shock-induced, turbulent air flow | K. Bracht, W. Merzkirch |
| 313-325 | Fluid-to-fluid modeling and correlation of flow boiling crisis in horizontal tubes | M. Merilo |
| 327-339 | The presence of slug flow in horizontal two-phase flow | J. Kubie |
| 341-352 | The stratified flow of gas and non-newtonian liquid in horizontal pipes | Nigel I. Heywood, Michael E. Charles |
| 353-385 | Spatial averaging in the mechanics of heterogeneous and dispersed systems | R. I. Nigmatulin |
| 387-393 | Attached and free eddies in stokes flow | S. H. Smith |
| IFC | Editorial Board | |
| iii | Foreword | G. Hetsroni |
| 1-24 | Separated flow models—I. Analysis of the averaged and local instantaneous formulations | S. Banerjee, A.M.C. Chan |
| 25-40 | One-dimensional models for transient gas-liquid flows in ducts | W.T. Hancox, R.L. Ferch, W.S. Liu, R.E. Nieman |
| 41-50 | Condensation heat transfer: Comments on non-equilibrium temperature profiles and the engineering calculation of mass transfer | A.F. Mills |
| 51-67 | Some condensation studies pertinent to LWR safety | S.G. Bankoff |
| 69-95 | The boiling crisis in nuclear reactor safety and performance | T.G. Theofanous |
| 97-112 | Critical two-phase flow | Graham B. Wallis |
| 113-129 | Condensation-driven fluid motions | James A. Block |
| 131-137 | Some observations on the status of two-phase critical flow models | H.S. Isbin |
| 139-156 | Advanced optical instrumentation methods | G.F. Hewitt, P.B. Whalley |
| 157-168 | Multiphase flow prediction in power-system equipment and components | D. Brian Spalding |
| 169-171 | Announcement |
| 387-397 | Flow pattern characterization in two phase flow by electrical conductance probe | Dvora Barnea, Ovadia Shoham, Yehuda Taitel |
| 399-410 | Fractional vapour content of a liquid pool through which vapour is bubbled | G.C Gardner |
| 411-423 | The mechanism of air bubble entrainment in self-aerated flow | P. Volkart |
| 425-439 | One-dimensional water vapor expansion with condensation at higher pressures | R. Puzyrewski, W. Studzinski |
| 441-471 | Impulsive motion of a suspension: Effect of antisymmetric stresses and particle rotation | Hans Immich |
| 473-490 | A steady laminar flow of a suspension in a channel | I. Rubinstein |
| 491-494 | An on-line hold up or quality meter for two phase flow | P.L. Spedding, J.J.J. Chen |
| 495-498 | The effect of separation on drag and torque in stokes flow | K.B. Ranger, J.M. Dorrepaal |
| i-v | List of contents and author index | |
| 499-521 | A general model for unconfined bubble plumes from extended sources | A.K. Chesters, M. Van Doorn, L.H.J. Goossens |
| 523-551 | Multivariate hydrodynamic analysis of boiling channel flow stability from inherent noise measurements | T.M. Romberg, N.W. Rees |
| 553-561 | Correlation of turbulent flow rate-pressure drop data for non-newtonian solutions and slurries in pipes | A.K.M.A. Quader, W.L. Wilkinson |
| 563-574 | Small amplitude pressure wave in subsonic and supersonic bubble flows in convergent-divergent nozzles | H. Nakagawa, Y. Mori, K. Hijikata |
| 575-582 | Critical heat flux of saturated convective boiling on uniformly heated plates in a parallel flow | Y. Katto, C. Kurata |
| 583-588 | The transverse migration of bubbles influenced by walls in vertical bubbly flow | I. Ẑun |
| 589-590 | Thermal Analysis of Pressurized Water Reactors: L.S. Tong and J. Weisman, 2nd Edn. | Neil E. Todreas |
| 129-149 | The upward flow of air betweem two waterfalls: An unusual choked flow problem | H.C. Simpson, D.H. Rooney, M. Megahed |
| 151-166 | Wavelike motion of particulate slugs in a horizontal pneumatic pipeline | Y. Tomita, T. Jotaki, H. Hayashi |
| 167-177 | Momentum and heat transfer in two-phase bubble flow—I. Theory | Y. Sato, M. Sadatomi, K. Sekoguchi |
| 179-190 | Momentum and heat transfer in two-phase bubble flow—II. A comparison between experimental data and theoretical calculations | Y. Sato, M. Sadatomi, K. Sekoguchi |
| 191-210 | Pressure distribution in bubbly flow through venturis | N.T. Thang, M.R. Davis |
| 211-219 | Two-phase two-component interface drag coefficients in separated phase flows | W.R. Martindale, R.V. Smith |
| 221-234 | The hydrodynamic wall effect for a disperse system | P. Brunn |
| 235-239 | Adiabatic steam-water annular flow in an annular geometry | P.S. Andersen, J. Würtz |
| 241-243 | Comment on “Adiabatic steam-water annular flow in an annular geometry” by P.S. Andersen and J. Würtz | P.B. Whalley, P. Hutchinson |
| 363-383 | Instability of stationary and uniformly moving cylindrical fluid bodies—I. Newtonian systems | Wei-Kuo Lee, Raymond W. Flumerfelt |
| 385-400 | Instability of stationary and uniformly moving cylindrical fluid bodies—II. Viscoelastic threads and experimental observations | Wei-Kuo Lee, Kuo-Liang Yu, Raymond W. Flumerfelt |
| 401-422 | Investigation of droplet deposition from a turbulent gas stream | E.N. Ganić, K. Mastanaiah |
| 423-437 | Two-phase hydrodynamic experiments with axial flow through seven-rod clusters | D.R.H. Beattie, K.R. Lawther |
| 439-460 | Characteristics of laser-doppler signals from bubbles | W.W. Martin, A.H. Adbelmessih, J.J. Liska, F. Durst |
| 461-473 | Turbulence viscosity in vertical adiabatic gas-liquid flow | R. van der Welle |
| 475-477 | Two phase flow in equipment | |
| 477-478 | Nineteenth annual meeting of the society of engineering science October 27–29, 1982 University of Missouri-Rolla Rolla, Missouri, U.S.A. |
| 479-492 | The influence of rotation in slow viscous flows | S. H. Smith |
| 493-505 | The constitutive equation of a dilute suspension of spherical microcapsules | D. Barthes-Biesel, V. Chhim |
| 507-520 | Verification of multicomponent mass transfer models for condensation inside a vertical tube | D. R. Webb, R. G. Sardesai |
| 521-543 | The prediction of two-phase mixture level and hydrodynamically-controlled dryout under low flow conditions | K. H. Sun, R. B. Duffey, C. M. Peng |
| 545-554 | Turbulent heat transfer to dilute aqueous suspensions of titanium dioxide in pipes | A. K. M. A. Quader, W. L. Wilkinson |
| 555-561 | Continuous measurement of the density of flowing slurries | Roland Clift, Diana H. Manning Clift |
| 93-124 | On the development of an objective flow regime indicator | M.A. Vince, R.T. Lahey Jr. |
| 125-146 | On the motion of particles in turbulent duct flows | S.L. Lee, F. Durst |
| 147-163 | Hydrodynamics of a bubble formed at vent pipe exit | Chia-Lin Chen, Vijay K. Dhir |
| 165-181 | CHF of forced convection boiling in uniformly heated vertical tubes: Experimental study of HP-regime by the use of refrigerant 12 | Y Katto, S Yokoya |
| 183-187 | An approximate method for analyzing nonequilibrium acoustic phenomena in atmospheric fog | P. Chandran |
| 189-191 | Bases of two-phase flow |
| 459-473 | Two-phase measurements of saltating turbulent boundary layer flow | B.R. White |
| 475-490 | Experimental study of vortex emission behind bluff obstacles in a gas liquid vertical two-phase flow | J-P. Hulin, C. Fierfort, R. Coudol |
| 491-507 | The effect of flow patterns on two-phase flow in a T | B.J. Azzopardi, P.B. Whalley |
| 509-524 | Flow pattern transition for gas-liquid flow in a vertical rod bundle | P. Venkateswararao, R. Semiat, A.E. Dukler |
| 525-542 | On the calculation of wall temperatures in the post dryout heat transfer region | R.A. Moose, E.N. Ganić |
| 543-551 | Arbitrary motion of an elliptic disc at a fluid interface | A. Falade |
| 553-558 | Axisymmetric flow driven by a surface tension gradient at a mobile interface | Paul J. Sides |
| 559-564 | Inertia and surface tension effects in newtonian liquid jets | J.S. Vrentas, C.M. Vrentas |
| 565-568 | Spray-bubbling transition on sieve trays | J.J.J. Chen, P.F.Y. Wong, W.K. Kwan |
| 569 | 3rd multi-phase flow and heat transfer symposium-workshop | |
| 570 | Announcement |
| IFC | Editorial Board | |
| 1-34 | Single-exposure neutron tomography of two-phase flow | E.M.A. Hussein, D.A. Meneley, S. Banerjee |
| 35-61 | Vortices in bubbly two-phase flow | Thomas L. Cook, Francis H. Harlow |
| 63-77 | Development and validation of boundaries for circumferential isothermality in horizontal boiler tubes | Avram Bar-Cohen, Zvi Ruder, Peter Griffith |
| 79-98 | Prediction of the initiation of slugs with linear stability theory | P.Y. Lin, T.J. Hanratty |
| 99-114 | Structure of turbulent bubbly jets—I. Methods and centerline properties | T-Y. Sun, G.M. Faeth |
| 115-126 | Structure of turbulent bubbly jets—II. Phase property profiles | T-Y. Sun, G.M. Faeth |
| 127-133 | On the temperature jump in liquid-liquid direct-contact heat exchangers | Grant Johnson, Ekkehard Marschall |
| 135-144 | An integral procedure for a two-phase boundary layer in laminar film condensation | Akira Nakayama, Hitoshi Koyama |
| 359-386 | The effect of particles on wall turbulence | D. Kaftori, G. Hetsroni, S. Banerjee |
| 387-410 | Computations of boiling flows | Damir Juric, Grétar Tryggvason |
| 411-430 | Fluid displacement by high Reynolds number bubble motion in a thin gap | J. W. M. Bush, I. Eames |
| 431-452 | A study of the bubble-to-slug transition in vertical gas-liquid flow in columns of different diameter | H. Cheng, J. H. Hills, B. J. Azzorpardi |
| 453-478 | Asymptotic analysis of vortex flows in suspensions | R. Prud'homme, L. Gottesdiener, E. Dodemand, P. Kuentzmann |
| 479-498 | NUMERICAL STUDY OF THE BEHAVIOR OF A BUBBLE ATTACHED TO A TIP IN A NONUNIFORM ELECTRIC FIELD | H. J. Cho, I. S. Kang, Y. C. Kweon, M. H. Kim |
| 499-521 | Boundary layer modeling of granular flow in the transverse plane of a partially filled rotating cylinder | A. A. Boateng |
| 693-720 | The influence of particle rotation on wake stability at particle Reynolds numbers, ReP | J. L. Best |
| 721-737 | Two-fluid model studies for high density two-phase liquid metal vertical flows | P. Satyamurthy, N. S. Dixit, T. K. Thiyagarajan, N. Venkatramani, A. M. Quraishi, A. Mushtaq |
| 739-755 | Transient simulation of two-phase flows in pipes | J. M. Masella, Q. H. Tran, D. Ferre, C. Pauchon |
| 757-774 | Holdup Propagation Predicted by Steady-state Drift Flux Models | H. Asheim, E. Grødal |
| 775-792 | Two-phase pressure drop and phase distribution at reduced tee junctions | L. C. Walters, H. M. Soliman, G. E. Sims |
| 793-823 | Electrophoretic motion of a charged spherical particle normal to a planar dielectric wall | Y. Hao, S. Haber |
| 825-854 | Characteristics of flowrate transients in slug flow | M. J. S. King, C. P. Hale, C. J. Lawrence, G. F. Hewitt |
| 855-866 | Pressure wave speeds from the characteristics of two fluids, two-phase hyperbolic equation system | Sung-Jae Lee, Keun-Shik Chang, Kyungdoo Kim |
| 867-887 | Force balance in a turbulent particulate channel flow | Koji Fukagata, Said Zahrai, Fritz H. Bark |
| 889-912 | Temporal properties of secondary drop breakup in the bag breakup regime | W. -H. Chou, G. M. Faeth |
| 913-945 | On the Lagrangian turbulent dispersion models based on the Langevin equation | Jacek Pozorski, Jean-Pierre Minier |
| 947-960 | Flow patterns during boiling in a narrow space between two vertical surfaces | J. Bonjour, M. Lallemand |
| 961-974 | Wavespeed and volumetric fraction in core annular flow | A. C. Bannwart |
| 975-1004 | A two-fluid model for stratified flows with curved interfaces | N. Brauner, D. Moalem Maron, J. Rovinsky |
| 1005-1023 | Mathematical model and numerical simulation of the settling of flocculated suspensions | R. Bürger, F. Concha |
| 1025-1055 | Evaluation of equilibrium and non-equilibrium evaporation models for many-droplet gas-liquid flow simulations | R. S. Miller, K. Harstad, J. Bellan |
| 1057-1078 | A novel centrifugal gas–liquid separator for catching intermittent flows | M. Creutz, D. Mewes |
| 1079-1103 | Direct Numerical Simulation of Droplet Collisions in a Turbulent Channel Flow. Part I: collision algorithm | M. Chen, K. Kontomaris, J. B. McLaughlin |
| 1105-1138 | Direct Numerical Simulation of Droplet Collisions in a Turbulent Channel Flow. Part II: collision rates | M. Chen, K. Kontomaris, J. B. McLaughlin |
| 1139-1161 | Viscous liquid film flows over a periodic surface | Yu. Ya. Trifonov |
| 1163-1182 | Formation of inhomogeneities in two-phase low-Mach-number compressible turbulent fluid flows | T. Elperin, N. Kleeorin, I. Rogachevskii |
| 1183-1203 | Pressure gradient in horizontal liquid–liquid flows | P. Angeli, G. F. Hewitt |
| 1205-1244 | The analysis of void wave propagation in adiabatic monodispersed bubbly two-phase flows using an ensemble-averaged two-fluid model | J. -W. Park, D. A. Drew, R. T. Lahey Jr. |
| 1-14 | Viscous resuspension in a bidensity suspension | Anubhav Tripathi, Andreas Acrivos |
| 15-33 | A computational study of the inertial lift on a sphere in a linear shear flow field | P. Cherukat, J. B. McLaughlin, D. S. Dandy |
| 35-61 | Area tensors for modeling microstructure during laminar liquid-liquid mixing | E. D. Wetzel, C. L. Tucker III |
| 63-85 | Foam control using a fluidized bed of hydrophobic particles | C. Mata, D. D. Joseph |
| 87-108 | On the role of turbulence in the phenomenological theory of plane and axisymmetric air-bubble plumes | I. Brevik, R. Kluge |
| 109-138 | Downward bubbly gas–liquid flow in a vertical pipe | O. N. Kashinsky, V. V. Randin |
| 139-154 | Particle interaction with the wall surface in two-phase gas–solid particle flow | A. V. Nguyen, C. A. J. Fletcher |
| 155-173 | Sensitivity study on double-sensor conductivity probe for the measurement of interfacial area concentration in bubbly flow | Q. Wu, M. Ishii |
| 175-182 | Three-dimensional oscillation of bubbly flow in a vertical cylinder | K. Kuwagi, H. Ozoe |
| 187-200 | Direct numerical simulation of particle-turbulence interaction | C. Li, A. Mosyak, G. Hetsroni |
| 201-228 | Post-treatment for phase detection probes in non uniform two-phase flows | A. Cartellier |
| 229-256 | Single and double optical probes in air-water two-phase flows: real time signal processing and sensor performance | E. Barrau, N. Rivière, Ch. Poupot, A. Cartellier |
| 257-305 | A polydisperse model for bubbly two-phase flow around a surface ship | P. M. Carrica, D. Drew, F. Bonetto, R. T. Lahey Jr |
| 307-320 | A numerical study of sedimentation by dripping instabilities in viscous fluids | G. W. Bergantz, J. Ni |
| 321-347 | Effects of entrainment and deposition mechanisms on annular dispersed two-phase flow in a converging nozzle | S. Ho Kee King, G. Piar |
| 349-364 | Cavity outflow from a nearly horizontal pipe | W. H. Hager |
| 365-376 | Prediction of holdup, axial pressure gradient and wall shear stress in wavy stratified and stratified/atomization gas/liquid flow | N. A. Vlachos, S. V. Paras, A. J. Karabelas |
| 559-574 | The sedimentation velocity of dilute suspensions of nearly monosized spheres | R. Di Felice |
| 575-598 | Two-way coupled particle-laden mixing layer. Part 1: Linear instability | X. -L. Tong, L. -P. Wang |
| 599-637 | Two-point description of two-fluid turbulent mixing—I. Model formulation | M. J. Steinkamp, T. T. Clark, F. H. Harlow |
| 639-682 | Two-point description of two-fluid turbulent mixing—II. Numerical solutions and comparisons with experiments | M. J. Steinkamp, T. T. Clark, F. H. Harlow |
| 683-704 | Derivation of Forchheimer terms and their verification by application to waves propagation in porous media | A. Levy, D. Levi-Hevroni, S. Sorek, G. Ben-Dor |
| 705-713 | The force on a growing bubble in potential flow | J. D. Sherwood |
| 715-737 | Simple models of Coriolis-influenced axisymmetric particle-driven gravity currents | Marius Ungarish, Herbert E Huppert |
| 739-751 | The inertial lift on an oscillating sphere in a linear shear flow | Evgeny S. Asmolov, J. B. McLaughlin |
| IX-X | Index | |
| 1521-1543 | Analysis of dryout in horizontal and inclined tubes | A. Mosyak, G. Hetsroni |
| 1545-1559 | Experimental investigation of the impaction of water droplets on cylindrical objects | L. S. Hung, S. C. Yao |
| 1561-1573 | Explosive boiling of a liquid droplet | M. Shusser, D. Weihs |
| 1575-1599 | Stochastic simulations of particle-laden isotropic turbulent flow | Farzad Mashayek |
| 1601-1618 | Characteristics of film condensation of supersaturated steam–air mixture on a flat plate | Hie Chan Kang, Moo Hwan Kim |
| 1619-1643 | Grid-averaged Lagrangian LES model for multiphase turbulent flow | Kazuo Nadaoka, Yasuo Nihei, Hiroshi Yagi |
| 1645-1655 | The flow characteristics of an interactive particle at low Reynolds numbers | R. C. Chen, Y. N. Lu |
| 1-15 | Shear-induced particle resuspension in settling polydisperse concentrated suspension | Anat Shauly, Amir Wachs, Avinoam Nir |
| 17-44 | Influence of shear and elongation on drop deformation in convergent–divergent flows | Roger E. Khayat, A. Luciani, L. A. Utracki, F. Godbille, J. Picot |
| 45-66 | The behaviour of gas bubbles in a turbulent liquid metal magnetohydrodynamic flow: Part I: Dispersion in quasi-two-dimensional magnetohydrodynamic turbulence | S. Eckert, G. Gerbeth, O. Lielausis |
| 67-82 | The behaviour of gas bubbles in a turbulent liquid metal magnetohydrodynamic flow: Part II: Magnetic field influence on the slip ratio | S. Eckert, G. Gerbeth, O. Lielausis |
| 83-97 | Effective thermal conductivities of a single species and a binary mixture of granular materials | Shu-San Hsiau |
| 99-123 | Modelling two-phase equilibrium in three-dimensional porous microstructures | F. S. Magnani, P. C. Philippi, Z. R. Liang, C. P. Fernandes |
| 125-145 | Osmophoresis in a dilute suspension of spherical vesicles | Huan J. Keh, Hung J. Tu |
| 531-547 | Evaporation waves in flashing processes | E. Hahne, G. Barthau |
| 549-581 | Validation of electrical-impedance tomography for measurements of material distribution in two-phase flows | D. L. George, J. R. Torczynski, K. A. Shollenberger, T. J. O’Hern, S. L. Ceccio |
| 583-607 | Experimental study of the air–water shear flow in a hydraulic jump | H. Chanson, T. Brattberg |
| 609-633 | Effect of dispersion characteristics on particle temperature in an idealized nonpremixed reacting jet | D. J. Glaze, S. H. Frankel |
| 635-661 | Heavy particle dispersion in inhomogeneous, anisotropic, turbulent flows | Xi-Qing Chen |
| 663-715 | Characterization of fluidization regimes by time-series analysis of pressure fluctuations | F. Johnsson, R. C. Zijerveld, J. C. Schouten, C. M. van den Bleek, B. Leckner |
| 1063-1093 | Thermohydrodynamic characteristics of two-phase flow in a heated capillary | Y. P. Peles, L. P. Yarin, G. Hetsroni |
| 1095-1115 | A steady state, one dimensional, model for boiling two phase flow in triangular micro-channel | Y. P. Peles, S. Haber |
| 1117-1140 | Flow structure in horizontal oil–water flow | P. Angeli, G. F. Hewitt |
| 1141-1181 | On bubbles rising in line | M. C. Ruzicka |
| 1183-1208 | Hydrodynamics of three-dimensional waves in laminar falling films | Philipp Adomeit, Ulrich Renz |
| 1209-1234 | Development of a new spray/wall interaction model | Seong Hyuk Lee, Hong Sun Ryou |
| 1565-1582 | Studies of wispy-annular flow using transient pressure gradient and optical measurements | N. J. Hawkes, C. J. Lawrence, G. F. Hewitt |
| 1583-1607 | Experiments on particle dispersion in a plane wake | Y. Yang, C. T. Crowe, J. N. Chung, T. R. Troutt |
| 1609-1619 | A mathematical model for steam-driven jet pump | Nabil Beithou, Hikmet S. Aybar |
| 1621-1644 | Linear analysis of the temporal instability of axisymmetrical non-Newtonian liquid jets | Günter Brenn, Zhengbai Liu, Franz Durst |
| 1645-1673 | Wall and interfacial shear stress in pressure driven two-phase laminar stratified pipe flow | D. Biberg, G. Halvorsen |
| 1675-1706 | An all-pressure fluid drop model applied to a binary mixture: heptane in nitrogen | K. Harstad, J. Bellan |
| 1707-1736 | Numerical simulation of dilute turbulent gas–solid flows | C. K. K. Lun |
| 527-552 | Turbulence modulation by dispersed solid particles in rotating channel flows | Yingkang Pan, Toshitsugu Tanaka, Yutaka Tsuji |
| 553-578 | Experimental study of bubble injection in a turbulent boundary layer | C. Gabillet, C. Colin, J. Fabre |
| 579-596 | Experimental investigation of the velocity field induced by a Taylor bubble rising in stagnant water | R. van Hout, A. Gulitski, D. Barnea, L. Shemer |
| 597-615 | Statistical description of the bubble cloud resulting from the injection of air into a turbulent water jet | C. Martínez-Bazán, J. L. Montañés, J. C. Lasheras |
| 617-634 | The flow in and around air-bubble plumes | I. Brevik, Ø. Kristiansen |
| 635-663 | Segregation of granular flow in the transverse plane of a rolling mode rotating drum | Y. L. Ding, R. Forster, J. P. K. Seville, D. J. Parker |
| 665-697 | Dispersion in multiphase flow through porous media | S. Bekri, P. M. Adler |
| 699-706 | An analytical model for nucleate pool boiling with surfactant additives | I. Sher, G. Hetsroni |
| 1075-1090 | Turbulence modification by particles in a horizontal pipe flow | Camilla Ljus, Bert Johansson, Alf-Erik Almstedt |
| 1091-1123 | Macroscale balance relations for bulk, interfacial and common line systems in multiphase flows through porous media on the basis of molecular considerations | A. I. Murdoch, S. M. Hassanizadeh |
| 1125-1147 | Drop fragment distributions under shear with inertia | Y. Renardy, V. Cristini, J. Li |
| 1149-1175 | Thermocapillary motion of a fluid droplet parallel to two plane walls | Huan J. Keh, Po Y. Chen, Li S. Chen |
| 1177-1204 | Modeling of phase inversion phenomenon in two-phase pipe flows | Neima Brauner, Amos Ullmann |
| 1205-1222 | Finite element method simulation of turbulent wavy core–annular flows using a k | T. Ko, H. G. Choi, R. Bai, D. D. Joseph |
| 1223-1234 | Improving gas–liquid contacting in bubble columns by vibration excitement | R. Krishna, J. Ellenberger |
| 1235-1247 | Gas–liquid two-phase flow in micro-channels | W. L. Chen, M. C. Twu, C. Pan |
| 1589-1616 | Two-phase laminar flow in a heated microchannels | L. P. Yarin, L. A. Ekelchik, G. Hetsroni |
| 1617-1629 | Effect of pipe diameter on the drop size in a horizontal annular gas–liquid flow | A. Al-Sarkhi, T. J. Hanratty |
| 1631-1657 | Quasi-steady deformation and drag of uncontaminated liquid drops | B. T. Helenbrook, C. F. Edwards |
| 1659-1686 | Modeling foamy oil flow in porous media | D. D. Joseph, A. M. Kamp, R. Bai |
| 1687-1696 | Lateral migration in sheared suspensions: a case study of the ‘diffusion’ model | S. Haber, H. Brenner |
| 1697-1717 | Solids concentration profiles and pressure drop in pipeline flow of multisized particulate slurries | D. R. Kaushal, Yuji Tomita |
| 869-891 | A locally implicit improvement of the equilibrium Eulerian method | Jim Ferry, Sarma L. Rani, S. Balachandar |
| 893-926 | Deposition of inertia-dominated particles inside a turbulent boundary layer | Mansoo Shin, D. S. Kim, Jin W. Lee |
| 927-941 | Numerical analysis of the continuum formulation for the initial evolution of mixing layers with particles | Djamel Lakehal, Chidambaram Narayanan |
| 943-957 | Equilibrium position for a particle in a horizontal shear flow | Zhi-Gang Feng, Efstathios E. Michaelides |
| 959-982 | The effect of particle interactions on the sedimentation process of non-cohesive particles | Zu-Jia Xu, Efstathios E. Michaelides |
| 983-1015 | Numerical simulation of buoyant mixture flows | M. S. Nigam |
| 1017-1038 | Direct numerical simulation of particle wall transfer and deposition in upward turbulent pipe flow | Cristian Marchioli, Andrea Giusti, Maria Vittoria Salvetti, Alfredo Soldati |
| 1039 | Fundamental of multiphase flow modeling |
| 1551-1563 | Boiling in capillary tubes | G. Hetsroni, M. Gurevich, A. Mosyak, E. Pogrebnyak, R. Rozenblit, L. P. Yarin |
| 1565-1581 | Multi-holdups in co-current stratified flow in inclined tubes | A. Ullmann, M. Zamir, S. Gat, N. Brauner |
| 1583-1604 | Stratified laminar countercurrent flow of two liquid phases in inclined tubes | A. Ullmann, M. Zamir, Z. Ludmer, N. Brauner |
| 1605-1624 | Power law and composite power law friction factor correlations for laminar and turbulent gas–liquid flow in horizontal pipelines | F. García, R. García, J. C. Padrino, C. Mata, J. L. Trallero, D. D. Joseph |
| 1625-1642 | Permeabilities of unsaturated fractal porous media | Boming Yu, Jianhua Li, Zhihua Li, Mingqing Zou |
| 1643 | Publishers note |
| 1645-1667 | Fluctuations of particle concentration in a turbulent two-phase shear layer | Y. Hardalupas, S. Horender |
| 1669-1683 | Direct steam generation in parallel pipes | Sivan Natan, Dvora Barnea, Yehuda Taitel |
| 1685-1717 | A model for simulating gas bubble entrainment in two-phase horizontal slug flow | M. Bonizzi, R. I. Issa |
| 1719-1747 | On the simulation of three-phase slug flow in nearly horizontal pipes using the multi-fluid model | M. Bonizzi, R. I. Issa |
| 1749-1757 | Effects of a drag reducing polymer on stratified gas–liquid flow in a large diameter horizontal pipe | Seunghyun Baik, Thomas J. Hanratty |
| 1759-1769 | Transient gravity-driven countercurrent two-phase liquid–liquid flow in horizontal and inclined pipes | Yuri V. Fairuzov |
| 1771-1792 | Forced convective boiling heat transfer in microtubes at low mass and heat fluxes | Tzu-Hsiang Yen, Nobuhide Kasagi, Yuji Suzuki |
| 1793-1816 | Evaluation of the equilibrium Eulerian approach for the evolution of particle concentration in isotropic turbulence | Sarma L. Rani, S. Balachandar |
| 1817-1831 | Self-lubricated transport of aqueous foams in horizontal conduits | M. I. Briceño, D. D. Joseph |
| 1833-1856 | Dispersed multiphase flow with air-driven runback of a liquid layer at a moving boundary | G. F. Naterer |
| 1857-1874 | Single bubble growth in saturated pool boiling on a constant wall temperature surface | Han Choon Lee, Byung Do Oh, Sung Won Bae, Moo Hwan Kim |
| 1-26 | Average stress in a Stokes suspension of disks | A. Prosperetti |
| 27-50 | Preferential concentration of particles in a fully developed turbulent square duct flow | C. M. Winkler, Sarma L. Rani, S. P. Vanka |
| 51-66 | Modeling a turbulent fibre suspension flowing in a planar contraction: The one-dimensional headbox | James A. Olson, Ian Frigaard, Candice Chan, Jari P. Hämäläinen |
| 67-87 | Flocculation in simulations of sheared fiber suspensions | Leonard H. Switzer, Daniel J. Klingenberg |
| 89-103 | What is entrainment in vertical two-phase churn flow? | B. J. Azzopardi, E. Wren |
| 105 | Announcement for Short Courses | |
| 106 | Fluidization XI Present and future for fluidization Engineering |
| 239-272 | Modelling of gas entrainment from Taylor bubbles. Part A: Slug flow | N. Brauner, A. Ullmann |
| 273-290 | Modelling of gas entrainment from Taylor bubbles. Part B: A stationary bubble | N. Brauner, A. Ullmann |
| 291-310 | An investigation on void fraction of vapor–liquid two-phase flow for smooth and microfin tubes with R134a at adiabatic condition | Shigeru Koyama, Joodong Lee, Ryuuichirou Yonemoto |
| 311-325 | An experimental study of condensation heat transfer inside a mini-channel with a new measurement technique | Jeong Seob Shin, Moo Hwan Kim |
| 327-345 | Focus on the dispersed phase boundary conditions at the wall for irregular particle bouncing | A. Tanière, M. Khalij, B. Oesterlé |
| 347-349 | Two-Phase Flow: Theory and Applications, Clement Kleinstreuer; Taylor and Francis, New York, London, 512 pages, $125, ISBN 1-59169-000-5 | M. J. McCready |
| 351-368 | Scaling two-phase flows to Mars and Moon gravity conditions | K. M. Hurlbert, L. C. Witte, F. R. Best, C. Kurwitz |
| 369-393 | Surface morphology reconstruction of free falling films at high Reynolds numbers | L. G. Touglidis, T. D. Karapantsios, N. A. Vlachos, A. I. Balouktsis |
| 395-417 | Experimental study of flash atomization of binary hydrocarbon liquids | T. Gemci, K. Yakut, N. Chigier, T. C. Ho |
| 419-428 | Hydrodynamics of particle segregation in fluidized beds | Dinesh Gera, Madhava Syamlal, Thomas J. O'Brien |
| 429 | Announcement |
| 431-454 | A 2-D model of Rayleigh instability in capillary tubes––surfactant effects | D. Campana, J. Di Paolo, F. A. Saita |
| 455-480 | The force–moments on a deforming body introduced impulsively into an inviscid incompressible fluid with uniform vorticity | C. A. Catlin |
| 481-498 | Single- and two-phase turbulent mixing rate between adjacent subchannels in a vertical 2 × 3 rod array channel | M. Sadatomi, A. Kawahara, K. Kano, Y. Sumi |
| 499-520 | Break-up dynamics and drop size distributions created from spiralling liquid jets | D. C. Y. Wong, M. J. H. Simmons, S. P. Decent, E. I. Parau, A. C. King |
| 521-550 | A theoretical model for gas–liquid slug flow in down inclined ducts | A. Dyment, A. Boudlal |
| 1051-1069 | Drag reduction in horizontal annular two-phase flow | R. L. J. Fernandes, B. M. Jutte, M. G. Rodriguez |
| 1071-1091 | Investigation of thermocapillary convective patterns and their role in the enhancement of evaporation from pores | Cosimo Buffone, Khellil Sefiane |
| 1093-1119 | Flow characteristics in hydraulically equilibrium two-phase flows in a vertical 2 × 3 rod bundle channel | M. Sadatomi, A. Kawahara, K. Kano, S. Tanoue |
| 1121-1138 | Experimental investigation of interparticle collision rate in particulate flow | Changfu You, Hailiang Zhao, Yi Cai, Haiying Qi, Xuchang Xu |
| 1139-1169 | Shock wave reflection from a wedge in a dusty gas | O. Igra, G. Hu, J. Falcovitz, B. Y. Wang |
| 1171-1173 | Book review | Rolf D. Reitz |
| 1175-1175 | Corrigendum to ‘Preliminary observations of a particle lift force in horizontal slurry flow’ [International Journal of Multiphase Flow 30 (2004) 199–216] | Charles S. Campbell, Francisco Avila-Sequra, Zhiwu Liu |
| 1177-1192 | Effect of miscibility on the linear instability of two-fluid channel flow | Rama Govindarajan |
| 1193-1211 | The influences of wave height on the interfacial friction in annular gas–liquid flow under normal and microgravity conditions | Zhaolin Wang, Kamiel S. Gabriel, Devon L. Manz |
| 1213-1234 | Experimental detection of bubble–bubble interactions in a wall-sliding bubble swarm | Atsuhide Kitagawa, Kazuyasu Sugiyama, Yuichi Murai |
| 1235-1257 | On preferential diffusion of binary component liquid droplets evaporating in a two-phase mixing layer | Kishore K. Varanasi, Herek L. Clack, Richard S. Miller |
| 1259-1270 | Flow regimes for horizontal two-phase flow of CO2 in a heated narrow rectangular channel | Rin Yun, Yongchan Kim |
| 1271-1278 | Approximate solutions of non-Newtonian flows over a swarm of bubbles | Dongmin Sun, Jianting Zhu |
| 1279-1310 | Stability of a liquid jet into incompressible gases and liquids | T. Funada, D.D. Joseph, S. Yamashita |
| 1311-1336 | Concentration profiles in a turbulent suspension when gravity is not affecting deposition | Yoichi Mito, Thomas J. Hanratty |
| 1337-1367 | On the locomotion of a drop, induced by the internal secretion of surfactant | Dina Tsemakh, Olga M. Lavrenteva, Avinoam Nir |
| 1369-1388 | Numerical modeling and experimental measurements of a high speed solid-cone water spray for use in fire suppression applications | S.S. Yoon, J.C. Hewson, P.E. DesJardin, D.J. Glaze, A.R. Black, R.R. Skaggs |
| 1389-1417 | Mechanisms for selective radial dispersion of microparticles in the transitional region of a confined turbulent round jet | Fabio Sbrizzai, Roberto Verzicco, Marco F. Pidria, Alfredo Soldati |
| 1419-1420 | First announcement and call for papers. 5th international symposium on multiphase flow, heat mass transfer and energy conversion |
| 1421-1449 | Onset of flow instability in a heated capillary tube | G. Hetsroni, L.P. Yarin, E. Pogrebnyak |
| 1451-1484 | Experimental investigation and theoretical modeling of liquid entrainment in a horizontal tee with a vertical-up branch | K.B. Welter, Q. Wu, Y. You, K. Abel, D. McCreary, S.M. Bajorek, J.N. Reyes Jr |
| 1485-1508 | Direct numerical simulations of two-layer viscosity-stratified flow | Qing Cao, Kausik Sarkar, Ajay K. Prasad |
| 1-24 | Gas entrainment by a liquid film falling around a stationary Taylor bubble in a vertical tube | J.P. Kockx, F.T.M. Nieuwstadt, R.V.A. Oliemans, R. Delfos |
| 25-51 | Venturi-assisted liquid removal from the sump of a gas well | J.D. Sherwood, D.I.H. Atkinson |
| 53-68 | Hydrodynamically interacting droplets at small Reynolds numbers | W. Holländer, S.K. Zaripov |
| 69-92 | Modeling droplet collision and coalescence in an icing wind tunnel and the influence of these processes on droplet size distribution | László E. Kollár, Masoud Farzaneh, Anatolij R. Karev |
| 93-114 | On model equations for particle dispersion in inhomogeneous turbulence | Michael W. Reeks |
| 115-140 | The liquid deposition fraction of sprays impinging vertical walls and flowing films | C. Weiss |
| 141-154 | Optical fibre probe measurements of bubbly flow in hydraulic jumps | F. Murzyn, D. Mouaze, J.R. Chaplin |
| 263-284 | Gas absorption into a drop in the presence of an acoustic field | A. Muginstein, M. Fichman, C. Gutfinger |
| 285-301 | Hot-film anemometry in bubbly flow I: bubble–probe interaction | Judith Rensen, Stefan Luther, Joris de Vries, Detlef Lohse |
| 302-317 | Pulsating, buoyant bubbles close to a rigid boundary and near the null final Kelvin impulse state | E.A. Brujan, A. Pearson, J.R. Blake |
| 318-336 | Characteristics of fiber suspension flow in a rectangular channel | Hanjiang (John) Xu, Cyrus K. Aidun |
| 337-357 | Investigation of slug flow characteristics in the valley of a hilly-terrain pipeline | E. Al-Safran, C. Sarica, H.-Q. Zhang, J. Brill |
| 358-370 | An empirical correlation for calculating steam–water two-phase pressure drop in uniformly heated vertical round tubes | A. Olekhnovitch, A. Teyssedou, P. Tye, R. Felisari |
| 675-705 | Volume averaging for the analysis of turbulent spray flows | William A. Sirignano |
| 706-722 | Micro-fabricated electrolytic micro-bubblers | S. Lee, W. Sutomo, C. Liu, E. Loth |
| 723-738 | Modeling of droplet collision-induced breakup process | Gwon Hyun Ko, Hong Sun Ryou |
| 739-756 | A computational analysis of the hydrodynamic instability of a liquid jet focused into a converging microchannel | S. Hardt, F. Jiang, F. Schönfeld |
| 757-766 | Two-phase flow regime maps for air-lift pump vertical upward gas–liquid flow | V.C. Samaras, D.P. Margaris |
| 767-768 | International Journal of Multiphase Flow 31 (2005) 93 | T. Elperin, N. Kleeorin, I. Rogachevskii |
| 769-770 | Letter to the Editor | M. Reeks |
| 771-792 | Air–water counter-current slug flow data in vertical-to-horizontal pipes containing orifice type obstructions | A. Teyssedou, E.N. Önder, P. Tye |
| 793-808 | Particle mixing in a sheared granular flow | Shu-San Hsiau, Li-Shin Lu, Juin-Chung Chen, Wen-Lung Yang |
| 809-823 | Effect of particle size distribution on pressure drop and concentration profile in pipeline flow of highly concentrated slurry | D.R. Kaushal, Kimihiko Sato, Takeshi Toyota, Katsuya Funatsu, Yuji Tomita |
| 824-842 | Experimental study of single bubble motion in a liquid metal column exposed to a DC magnetic field | C. Zhang, S. Eckert, G. Gerbeth |
| 843-866 | Direct numerical simulation of a particle-laden mixing layer with a chemical reaction | Takenobu Michioka, Ryoichi Kurose, Kouichi Sada, Hisao Makino |
| 867 | Corrigendum to “Volume averaging for the analysis of turbulent spray flows” [International Journal of Multiphase Flow 31 (2005) 675–705] | William A. Sirignano |
| 869-896 | Co-current stratified gas–liquid downflow—Influence of the liquid flow field on interfacial structure | J.S. Lioumbas, S.V. Paras, A.J. Karabelas |
| 897-920 | On thermodynamic closures for two-phase flow with interfacial area concentration transport equation | Olivier Séro-Guillaume, Nicolas Rimbert |
| 921-939 | Study of a free surface in open-channel water flows in the regime from “weak” to “strong” turbulence | Sergey Smolentsev, Reza Miraghaie |
| 940-956 | Effect of near-wall turbulence enhancement on the mechanisms of particle deposition | Lorenzo Botto, Chidambaram Narayanan, Marco Fulgosi, Djamel Lakehal |
| 957-967 | Confined fluidized bed—model and experiments | L. Moldavsky, A. Goldshtein, K. Shuster, M. Fichman, D. Pnueli, M. Shapiro, C. Gutfinger |
| I | Call for papers |
| 969-995 | Shock wave refraction patterns at interfaces | R.R. Nourgaliev, S.Y. Sushchikh, T.N. Dinh, T.G. Theofanous |
| 996-1014 | History force on a sphere in a weak linear shear flow | L. Wakaba, S. Balachandar |
| 1015-1035 | Application of a level set method for simulation of droplet collisions | Sébastien Tanguy, Alain Berlemont |
| 1036-1048 | Comparison of results from DNS of bubbly flows with a two-fluid model for two-dimensional laminar flows | Souvik Biswas, Asghar Esmaeeli, Gretar Tryggvason |
| 1049-1058 | Void fraction invariance properties of condensation flow inside a capillary glass tube | Béatrice Médéric, Pascal Lavieille, Marc Miscevic |
| 1059-1062 | Motion of a spherical liquid drop in a high-speed airstream | Daniel D. Joseph |
| 1243 | Academician: Vladimir Nakoryakov | |
| 1244-1275 | Numerical simulation of a supersonic gas–solid flow over a blunt body: The role of inter-particle collisions and two-way coupling effects | A.N. Volkov, Yu.M. Tsirkunov, B. Oesterlé |
| 1276-1303 | Composite power law holdup correlations in horizontal pipes | F. García, R. García, D.D. Joseph |
| 1304-1328 | Development of co-current air–water flow in a vertical pipe | D. Lucas, E. Krepper, H.-M. Prasser |
| 1329-1336 | On improving mass conservation of level set by reducing spatial discretization errors | R.R. Nourgaliev, S. Wiri, N.T. Dinh, T.G. Theofanous |
| 1337-1341 | Report on a symposium on “Computational approaches to disperse multiphase flow” | S. Balachandar, A. Prosperetti |
| I-X | Volume Contents and Author Index |
| 1-19 | Heat transfer to air–water annular flow in a horizontal pipe | R. Zimmerman, M. Gurevich, A. Mosyak, R. Rozenblit, G. Hetsroni |
| 20-50 | Liquid jet in a high Mach number air stream | T. Funada, D.D. Joseph, M. Saitoh, S. Yamashita |
| 51-81 | Counter-current gas–liquid flow in a vertical narrow channel—Liquid film characteristics and flooding phenomena | E.I.P. Drosos, S.V. Paras, A.J. Karabelas |
| 82-105 | Closure relations for two-fluid models for two-phase stratified smooth and stratified wavy flows | A. Ullmann, N. Brauner |
| 106-131 | Analysis of the flow in inhomogeneous particle beds using the spatially averaged two-fluid equations | Andreas ten Cate Sankaran Sundaresan |
| 132-157 | Numerical modeling and experimental measurements of water spray impact and transport over a cylinder | S.S. Yoon, P.E. DesJardin, C. Presser, J.C. Hewson, C.T. Avedisian |
| 159-182 | Bubble growth in saturated pool boiling in water and surfactant solution | G. Hetsroni, A. Mosyak, E. Pogrebnyak, I. Sher, Z. Segal |
| 183-207 | Review of two-phase flow and flow boiling of mixtures in small and mini channels | Lixin Cheng, Dieter Mewes |
| 208-231 | Experimental study of pool temperature effects on nucleate pool boiling | Jeongbae Kim, Byung Do Oh, Moo Hwan Kim |
| 232-247 | On the drag reduction for the two-phase horizontal pipe flow of highly viscous non-Newtonian liquid/air mixtures: Case of lubricating grease | M.J. Ruiz-Viera, M.A. Delgado, J.M. Franco, M.C. Sánchez, C. Gallegos |
| 248-268 | Averaging of particle data from phase Doppler anemometry in unsteady two-phase flow: Validation by numerical simulation | Tobias Bergenblock, Bo Leckner, Fabrice Onofri, René Occelli, Lounès Tadrist |
| 269-284 | Stepped chutes: Pre-aeration and spray reduction | Michael Pfister, Willi H. Hager, Hans-Erwin Minor |
| 285-310 | Potential flow of viscous fluids: Historical notes | Daniel D. Joseph |
| 311-322 | Influence of gas injection on phase inversion in an oil–water flow through a vertical tube | M. Descamps, R.V.A. Oliemans, G. Ooms, R.F. Mudde, R. Kusters |
| 323-343 | Experimental study on oil–water flow in horizontal and slightly inclined pipes | O.M.H. Rodriguez, R.V.A. Oliemans |
| 344-364 | Large eddy simulation of droplet dispersion for inhomogeneous turbulent wall flow | I. Vinkovic, C. Aguirre, S. Simoëns, M. Gorokhovski |
| 365-384 | A filtered mass density function approach for modeling separated two-phase flows for LES I: Mathematical formulation | M.D. Carrara, P.E. DesJardin |
| 385-388 | Comments on “A turbulent diffusion model for particle dispersion and deposition in horizontal tube flow” | C.F. Torres, R.S. Mohan, O. Shoham |
| CO2 | Editorial Board | |
| 527-552 | Slug initiation and evolution in two-phase horizontal flow | Priscilla M. Ujang, Christopher J. Lawrence, Colin P. Hale, Geoffrey F. Hewitt |
| 553-567 | An inverse dispersed multiphase flow model for liquid production rate determination | S. Guet, O.M.H. Rodriguez, R.V.A. Oliemans, N. Brauner |
| 568-592 | Flow instability and transient flow patterns inside intercrossed silicon microchannel array in a micro-timescale | J.L. Xu, W. Zhang, Q.W. Wang, Q.C. Su |
| 593-605 | Effect of a liquid dispersed phase on the wall flow structure in static mixer | J. Legrand, K. Hirech, A. Arhaliass |
| 606-622 | An experimental investigation of the motion of single bubbles under a slightly inclined surface | A. Perron, L.I. Kiss, S. Poncsák |
| 623-642 | Shock tube study of the dynamical behavior of granular materials | A. Britan, G. Ben-Dor |
| CO2 | Editorial Board | |
| 643-660 | A DNS study of laminar bubbly flows in a vertical channel | Jiacai Lu, Souvik Biswas, Gretar Tryggvason |
| 661-676 | Spontaneous radial capillary impregnation across a bank of aligned micro-cylinders – Part I: Theory and model development | V. Neacsu, A. Abu Obaid, S.G. Advani |
| 677-691 | Spontaneous radial capillary impregnation across a bank of aligned micro-cylinders. Part II: Experimental investigations | V. Neacsu, A. Abu Obaid, S.G. Advani |
| 692-716 | Effect of feedback and inter-particle collisions in an idealized gas–liquid annular flow | Yoichi Mito, Thomas J. Hanratty |
| 717-738 | The formation of a liquid bridge during the coalescence of drops | S.P. Decent, G. Sharpe, A.J. Shaw, P.M. Suckling |
| 739-753 | Numerical simulation of fluid–particle hydrodynamics in a rectangular spouted vessel | P.A. Shirvanian, J.M. Calo, G. Hradil |
| CO2 | Editorial Board | |
| 1311-1325 | Motion of singles bubbles moving under a slightly inclined surface through stationary liquids | A.L. Perron, L.I. Kiss, S. Poncsák |
| 1326-1339 | On the influence of near-wall forces in particle-laden channel flows | B. Arcen, A. Tanière, B. Oesterlé |
| 1340-1353 | Two-phase flow distribution of air–water annular flow in a parallel flow heat exchanger | Nae-Hyun Kim, Tae-Ryong Sin |
| 1354-1369 | Variation of fiber orientation in turbulent flow inside a planar contraction with different shapes | M. Parsheh, M.L. Brown, C.K. Aidun |
| 1370-1385 | Self-aeration and turbulence in a stepped channel: Influence of cavity surface roughness | M. Takahashi, C.A. Gonzalez, H. Chanson |
| 1386-1396 | Turbulence attenuation by small particles in the absence of gravity | W.Hwang, J.K. Eaton |
| 1397-1404 | Characterization and classification of fluidization regimes by non-linear analysis of pressure fluctuations | F.X. Llauró, M.F. Llop |
| CO2 | Editorial Board | |
| 1-39 | Towards large eddy simulation of isothermal two-phase flows: Governing equations and a priori | E. Labourasse, D. Lacanette, A. Toutant, P. Lubin, S. Vincent, O. Lebaigue, J.-P. Caltagirone, P. Sagaut |
| 40-50 | The influence of thermal expansion flow on droplet evaporation | Michael Shusser |
| 51-66 | New model for single spherical particle settling velocity in power law (visco-inelastic) fluids | Subhash N. Shah, Youness El Fadili, R.P. Chhabra |
| 67-85 | Effect of secondary flow on droplet distribution and deposition in horizontal annular pipe flow | J.M.C. van ’t Westende, R.J. Belt, L.M. Portela, R.F. Mudde, R.V.A. Oliemans |
| 86-100 | Pressure calculations in disperse and continuous multiphase flows | Duan Z. Zhang, W. Brian VanderHeyden, Qisu Zou, Nely T. Padial-Collins |
| 101-107 | Trajectory mechanism for particle deposition in annular flows | Yoichi Mito, Thomas J. Hanratty |
| I-X | List of Contents and Author Index for Volume 32 (2006) |
| CO2 | Editorial Board | |
| 109-133 | An interface-capturing method for incompressible two-phase flows. Validation and application to bubble dynamics | Thomas Bonometti, Jacques Magnaudet |
| 134-146 | Multiphase drag reduction: Effect of eliminating slugs | R.J. Wilkens, D.K. Thomas |
| 147-163 | Skin friction reduction by large air bubbles in a horizontal channel flow | Yuichi Murai, Hiroshi Fukuda, Yoshihiko Oishi, Yoshiaki Kodama, Fujio Yamamoto |
| 164-181 | Dynamical features of the solid motion in gas–solid risers | Satish Bhusarapu, Miryan Cassanello, Muthanna H. Al-Dahhan, Milorad P. Dudukovic, Steven Trujillo, Timothy J. O’Hern |
| 182-206 | Low-Reynolds-number motion of a deformable drop between two parallel plane walls | Andrew J. Griggs, Alexander Z. Zinchenko, Robert H. Davis |
| 207-216 | Phase split of liquid–liquid two-phase flow at a horizontal T-junction | L. Yang, B.J. Azzopardi |
| 217-226 | Interfacial friction correlations for the two-phase flow across tube bundle | Zeljko R. Simovic, Sanja Ocokoljic, Vladimir D. Stevanovic |
| IFC | Editorial Board | |
| 347-370 | Comparison of void fraction correlations for different flow patterns in horizontal and upward inclined pipes | Melkamu A. Woldesemayat, Afshin J. Ghajar |
| 371-393 | Experimental analysis of local void fractions measurements for boiling hydrocarbons in complex geometry | L. Aprin, P. Mercier, L. Tadrist |
| 394-410 | Consistency issues of Lagrangian particle tracking applied to a spray jet in crossflow | Mirko Salewski, Laszlo Fuchs |
| 411-431 | Two-phase flow in a horizontal equal-sided impacting tee junction | A.M.F. El-Shaboury, H.M. Soliman, G.E. Sims |
| 432-447 | Measurements of rivulet flow between parallel vertical plates | Glenn E. McCreery, Paul Meakin, Donald M. McEligot |
| 448-468 | Pendant drop thread dynamics of particle-laden liquids | Roy J. Furbank, Jeffrey F. Morris |
| IFC | Editorial Board | |
| 469-483 | Natural convection boiling of water and surfactants in narrow horizontal annular channels | G. Hetsroni, A. Mosyak, E. Pogrebnyak, Z. Segal |
| 484-497 | Three phase liquid–liquid–gas flows in 5.6 mm and 7 mm inner diameter pipes | Adrian Wegmann, Julia Melke, Philipp Rudolf von Rohr |
| 498-509 | Three-phase upward flow in a vertical pipe | Fadel F. Erian, Leonard F. Pease III |
| 510-524 | Coupling level set/VOF/ghost fluid methods: Validation and application to 3D simulation of the primary break-up of a liquid jet | T. Ménard, S. Tanguy, A. Berlemont |
| 525-544 | Spray impact onto flat and rigid walls: Empirical characterization and modelling | Davood Kalantari, Cameron Tropea |
| 545-556 | A parametric study of droplet deformation through a microfluidic contraction: Shear thinning liquids | D.J.E. Harvie, M.R. Davidson, J.J. Cooper-White, M. Rudman |
| 557-573 | Validation of a numerical model for the simulation of an electrostatic powder coating process | U. Shah, C. Zhang, J. Zhu, F. Wang, R. Martinuzzi |
| IFC | Editorial Board | |
| 575-594 | Pressure recovery of two-phase flow across sudden expansions | Wael H. Ahmed, Chan Y. Ching, Mamdouh Shoukri |
| 595-615 | On the role of droplets in cocurrent annular and churn-annular pipe flow | J.M.C. van ’t Westende, H.K. Kemp, R.J. Belt, L.M. Portela, R.F. Mudde, R.V.A. Oliemans |
| 616-637 | Assessment of filtered gas–solid momentum transfer models via a linear wave propagation speed test | Juray De Wilde, Denis Constales, Geraldine J. Heynderickx, Guy B. Marin |
| 638-657 | Interfacial drag of two-phase flow in porous media | Werner Schmidt |
| 658-674 | Mathematical expression of pressure gradient in the flow of spherical capsules less dense than water | Ismail Teke, Deniz Ulusarslan |
| 675-689 | Shear-thinning fluids flow in fixed and fluidised beds | L. Broniarz-Press, P. Agacinski, J. Rozanski |
| IFC | Editorial Board | |
| 809-821 | Experimental investigation of post-dryout heat transfer in annulus with spacers | Henryk Anglart, Per Persson |
| 822-832 | Subcooled flow boiling of R-134a in vertical channels of small diameter | Claudi Martín-Callizo, Björn Palm, Wahib Owhaib |
| 833-848 | Efficient calculation of the history force at finite Reynolds numbers | A.J. Dorgan, E. Loth |
| 849-872 | Experimental estimation of particle flow fluctuations in dense unsteady two-phase flow using phase Doppler anemometry | Tobias Bergenblock, Fabrice Onofri, Bo Leckner, Lounès Tadrist |
| 873-896 | A new predictive model for fragmenting and non-fragmenting binary droplet collisions | Achuth Munnannur, Rolf D. Reitz |
| 897-903 | Millifluidic as a versatile reactor to tune size and aspect ratio of large polymerized objects | W. Engl, M. Tachibana, P. Panizza, R. Backov |
| 904-920 | Effect of ambient pressure on penetration of a diesel spray | I.V. Roisman, Lucio Araneo, C. Tropea |
| IFC | Editorial Board | |
| 921-934 | Flow of pulp fibre suspension and slurries: A review | Heping Cui, John R. Grace |
| 935-947 | Effect of temperature gradient on Marangoni condensation heat transfer for ethanol–water mixtures | Shen-Hua Hu, Jun-Jie Yan, Jin-Shi Wang, Yang Li, Ji-Ping Liu |
| 948-969 | Studies on two-phase co-current air/non-Newtonian shear-thinning fluid flows in inclined smooth pipes | Jing-yu Xu, Ying-xiang Wu, Zai-hong Shi, Li-yun Lao, Dong-hui Li |
| 970-986 | Interaction between Taylor bubbles rising in stagnant non-Newtonian fluids | R.G. Sousa, A.M.F.R. Pinto, J.B.L.M. Campos |
| 987-1005 | Experimental study of turbulence-induced coalescence in aerosols | P. Duru, D.L. Koch, C. Cohen |
| 1006-1022 | Kinetic modeling of particles in stratified flow – Evaluation of dispersion tensors in inhomogeneous turbulence | Roar Skartlien |
| 1023-1044 | Fractal analysis of atomizing liquid flows | Sébastien Grout, Christophe Dumouchel, Jean Cousin, Hans Nuglisch |
| IFC | Editorial Board | |
| 1045-1073 | On the surface equations in two-phase flows and reacting single-phase flows | Christophe Morel |
| 1074-1087 | An experimental study of the regimes of motion of spheres falling or ascending freely in a Newtonian fluid | C.H.J. Veldhuis, A. Biesheuvel |
| 1088-1110 | Bubble clustering and trapping in large vortices. Part 1: Triggered bubbly jets investigated by phase-averaging | Rade Ž. Milenković, Beat Sigg, George Yadigaroglu |
| 1111-1125 | Bubble clustering and trapping in large vortices. Part 2: Time-dependent trapping conditions | Rade Ž. Milenković, Beat Sigg, George Yadigaroglu |
| 1126-1139 | A fractal analysis of subcooled flow boiling heat transfer | Boqi Xiao, Boming Yu |
| IFC | Editorial Board | |
| 1 | Editorial | Andrea Prosperetti |
| 2-12 | Pressure drop caused by flow area changes in capillaries under low flow conditions | Toufik Y. Chalfi, S.M. Ghiaasiaan |
| 13-28 | An investigation of falling liquid films on a vertical heated/cooled plate | Feng Zhang, You-Ting Wu, Jiao Geng, Zhi-Bing Zhang |
| 29-41 | Verification of a model to predict the influence of particle inertia and gravity on a decaying turbulent particle-laden flow | G. Ooms, C. Poelma, P. Poesio, MJ.B.M. Pourquie, J. Westerweel |
| 42-60 | Instability of a viscoelastic liquid jet with axisymmetric and asymmetric disturbances | Zhihao Liu, Zhengbai Liu |
| 61-75 | Purely irrotational theories for the viscous effects on the oscillations of drops and bubbles | J.C. Padrino, T. Funada, D.D. Joseph |
| 76-101 | Behaviour of macroscopic rigid spheres in lid-driven cavity flow | S.J. Tsorng, H. Capart, D.C. Lo, J.S. Lai, D.L. Young |
| 102-109 | Deformation of a compound drop through a contraction in a pressure-driven pipe flow | Chunfeng Zhou, Pengtao Yue, James J. Feng |
| IFC | Editorial Board | |
| 227-240 | Theoretical analysis of capillary-driven nanoparticulate slurry flow during a micromold filling process | A. Mawardi, Y. Xiao, R. Pitchumani |
| 241-259 | Bag breakup of nonturbulent liquid jets in crossflow | C.-L. Ng, R. Sankarakrishnan, K.A. Sallam |
| 260-271 | Accounting for finite-size effects in simulations of disperse particle-laden flows | S.V. Apte, K. Mahesh, T. Lundgren |
| 272-282 | Disturbance growth in two-fluid channel flow: The role of capillarity | Philip Yecko |
| 283-302 | Combined multi-direct forcing and immersed boundary method for simulating flows with moving particles | Zeli Wang, Jianren Fan, Kun Luo |
| 303-311 | Two-phase flow pattern identification using continuous hidden Markov model | Ali Mahvash, Annie Ross |
| 312-321 | NMR imaging of fluid pathways during drainage of softwood in a pressure membrane chamber | G. Almeida, S. Leclerc, P. Perre |
| 322-324 | Experimental analysis of local void fraction measurements for boiling hydrocarbons in complex geometry – Discussion | Hubert Chanson |
| IFC | Editorial Board | |
| 523-546 | Quasi-steady shape and drag of deformable bubbles and drops | E. Loth |
| 547-558 | On the use of Csanady’s formulae in a turbulent gas–solid channel flow | B. Arcen, A. Tanière |
| 559-566 | Slip between the phases in two-phase water–oil flow in a horizontal pipe | Jerzy Hapanowicz |
| 567-579 | Multi-resolution analysis of wavelet transform on pressure fluctuations in an L-valve | T.-Y. Yang, L.-P. Leu |
| 580-589 | Linear resonance in viscous films on inclined wavy planes | A. Wierschem, V. Bontozoglou, C. Heining, H. Uecker, N. Aksel |
| 590-601 | Elongated bubbles in microchannels. Part I: Experimental study and modeling of elongated bubble velocity | Bruno Agostini, Rémi Revellin, John R. Thome |
| 602-613 | Elongated bubbles in microchannels. Part II: Experimental study and modeling of bubble collisions | Rémi Revellin, Bruno Agostini, John R. Thome |
| IFC | Editorial Board | |
| 713-722 | Slow motion of a slip spheroid along its axis of revolution | H.J. Keh, Y.C. Chang |
| 723-733 | Direct numerical simulation of particle dispersion in a turbulent jet considering inter-particle collisions | Jie Yan, Kun Luo, Jianren Fan, Yutaka Tsuji, Kefa Cen |
| 734-747 | Falling film flow along steep two-dimensional topography: The effect of inertia | V. Bontozoglou, K. Serifi |
| 748-766 | A filtered mass density function approach for modeling separated two-phase flows for LES II: Simulation of a droplet laden temporally developing mixing layer | M.D. Carrara, P.E. DesJardin |
| 767-785 | Bubble and liquid turbulence characteristics of bubbly flow in a large diameter vertical pipe | M.E. Shawkat, C.Y. Ching, M. Shoukri |
| 786-807 | Bubble migration in a turbulent boundary layer | S. Tran-Cong, J.L. Marié, R.J. Perkins |
| IFC | Editorial Board | |
| 411-416 | Direct numerical simulation of stationary particles in homogeneous turbulence decay: Application of the k–ε | J.D. Schwarzkopf, C.T. Crowe, J.J. Riley, S. Wetchagarun, P. Dutta |
| 417-426 | Effects of incompressible surfactant on thermocapillary interactions of spherical drops | Michael A. Rother |
| 427-438 | On the quenching of steel and zircaloy spheres in water-based nanofluids with alumina, silica and diamond nanoparticles | Hyungdae Kim, Gregory DeWitt, Thomas McKrell, Jacopo Buongiorno, Lin-wen Hu |
| 439-449 | A growth model for dynamic slugs in gas–liquid horizontal pipes | U. Kadri, M.L. Zoeteweij, R.F. Mudde, R.V.A. Oliemans |
| 450-467 | Dynamics of annular gas–liquid two-phase swirling jets | George A. Siamas, Xi Jiang, Luiz C. Wrobel |
| 468-483 | Experimental study on a non-dilute two-phase coflowing jet: Dynamics of particles in the near flow field | Luis M. Cerecedo, Luis Aísa, Javier Ballester |
| IFC | Editorial Board | |
| 93-99 | A review of research on cylindrical particulate flows | Jianzhong Lin, Xiaoyu Liang |
| 100-108 | Advances in studies on two-phase turbulence in dispersed multiphase flows | L.X. Zhou |
| 109-118 | A review of multiscale CFD for gas–solid CFB modeling | Wei Wang, Bona Lu, Nan Zhang, Zhansheng Shi, Jinghai Li |
| 119-126 | Research on multiphase flows in Thermo-Energy Engineering Institute of Southeast University | Zhengbiao Peng, Zhulin Yuan, Tie Li, Jie Cai, Xuan Wu, Fengxian Fan |
| 127-134 | Direct numerical simulation of particulate flows with a fictitious domain method | Zhaosheng Yu, Xueming Shao |
| 135-143 | Two-phase flow and pool boiling heat transfer in microgravity | Jian-fu Zhao |
| 144-151 | Nanoparticle-laden flows via moment method: A review | Mingzhou Yu, Jianzhong Lin |
| I | Announcement |
| IFC | Editorial Board | |
| 439-448 | Modeling of three-phase heavy oil–water–gas bubbly flow in upward vertical pipes | O. Cazarez, D. Montoya, A.G. Vital, A.C. Bannwart |
| 449-459 | Instability in gravity-driven flow over uneven permeable surfaces | J.P. Pascal, S.J.D. D’Alessio |
| 460-466 | Two-phase flow laden with spherical particles in a microcapillary | Young Won Kim, Jung Yul Yoo |
| 467-480 | Single-beam gamma densitometry measurements of oil–water flow in horizontal and slightly inclined pipes | W.A.S. Kumara, B.M. Halvorsen, M.C. Melaaen |
| 481-490 | Sedimentation of bidisperse suspensions | Robert Dorrell, Andrew J. Hogg |
| 491-502 | Dynamic pressure based prediction of spray cooling heat transfer coefficients | Bahman Abbasi, Jungho Kim, Andre Marshall |
| 503-512 | Flow around a contaminated fluid sphere | A. Saboni, S. Alexandrova, M. Mory |
| IFC | Editorial Board | |
| 513-532 | Simulation of liquid jet primary breakup: Dynamics of ligament and droplet formation | J. Shinjo, A. Umemura |
| 533-548 | Measurement accuracy of a mono-fiber optical probe in a bubbly flow | Jiří Vejražka, Marek Večeř, Sandra Orvalho, Philippe Sechet, Marek C. Ruzicka, Alain Cartellier |
| 549-557 | Flooding in two-phase counter-current flows: Numerical investigation of the gas–liquid wavy interface using the Navier–Stokes equations | Yu.Ya. Trifonov |
| 558-569 | A diffuse-interface approach to two-phase isothermal flow of a Van der Waals fluid near the critical point | A. Pecenko, J.G.M. Kuerten, C.W.M. van der Geld |
| 570-587 | Time and spatially resolved measurements of interfacial waves in vertical annular flow | R.J. Belt, J.M.C. Van’t Westende, H.M. Prasser, L.M. Portela |
| 588-597 | Experimental investigation of two-phase discharge from a stratified region through a small branch mounted on an inclined wall | J.T. Bartley, H.M. Soliman, G.E. Sims |
| IFC | Editorial Board | |
| 691-706 | PTV experiments of subcooled boiling flow through a vertical rectangular channel | C.E. Estrada-Perez, Y.A. Hassan |
| 707-719 | Laminar bubbly flow in an open capillary channel in microgravity | Abdelkader Salim, Catherine Colin, Aleksander Grah, Michael E. Dreyer |
| 720-737 | Full-scale two-phase flow measurements on Athena research vessel | James P. Johansen, Alejandro M. Castro, Pablo M. Carrica |
| 738-754 | Performance comparison of artificial neural networks and expert systems applied to flow pattern identification in vertical ascendant gas–liquid flows | E.S. Rosa, R.M. Salgado, T. Ohishi, N. Mastelari |
| 755-768 | An application of the wavelet analysis technique for the objective discrimination of two-phase flow patterns | Van Thai Nguyen, Dong Jin Euh, Chul-Hwa Song |
| IFC | Editorial Board | |
| 769-779 | Fundamentals of migrating multi-block lattice Boltzmann model for immiscible mixtures in 2D geometries | Hassan Farhat, Joon Sang Lee |
| 780-792 | Enhanced nucleate boiling on copper micro-porous surfaces | Mohamed S. El-Genk, Amir F. Ali |
| 793-797 | Recognition of gas–liquid two-phase flow patterns based on improved local binary pattern operator | Wenyin Zhang, Frank Y. Shih, Ningde Jin, Yinfeng Liu |
| 798-814 | Convective transport of air bubbles in strong hydraulic jumps | Hubert Chanson |
| 815-824 | Planar laser-induced fluorescence (PLIF) measurements of liquid film thickness in annular flow. Part I: Methods and data | D. Schubring, A.C. Ashwood, T.A. Shedd, E.T. Hurlburt |
| 825-835 | Planar laser-induced fluorescence (PLIF) measurements of liquid film thickness in annular flow. Part II: Analysis and comparison to models | D. Schubring, T.A. Shedd, E.T. Hurlburt |
| 836-846 | A re-examination of the data of Lockhart–Martinelli | Xiaozhou Cui, John J.J. Chen |