Search results for "multiphase"

showing 3 items of 43 documents

The Origin of Non-thermal Fluctuations in Multiphase Flow in Porous Media

2021

Core flooding experiments to determine multiphase flow in properties of rock such as relative permeability can show significant fluctuations in terms of pressure, saturation, and electrical conductivity. That is typically not considered in the Darcy scale interpretation but treated as noise. However, in recent years, flow regimes that exhibit spatio-temporal variations in pore scale occupancy related to fluid phase pressure changes have been identified. They are associated with topological changes in the fluid configurations caused by pore-scale instabilities such as snap-off. The common understanding of Darcy-scale flow regimes is that pore-scale phenomena and their signature should have a…

displacementMaterials science010504 meteorology & atmospheric sciencesScale (ratio)fluctuations0208 environmental biotechnologyRELATIVE PERMEABILITYThermal fluctuations02 engineering and technologymultiphaseHAINES JUMPSPRESSUREEnvironmental technology. Sanitary engineering01 natural sciencesPhysics::Fluid DynamicsFLUID DISPLACEMENTFIELDWETTABILITYTD1-10660105 earth and related environmental sciencesWater Science and TechnologyCoalescence (physics)Science & TechnologySTATE 2-PHASE FLOWMultiphase flowfractional flow analysispore scaleMechanicsBreakupCURRENT SPONTANEOUS IMBIBITIONPORE-SCALECapillary number020801 environmental engineeringFlow (mathematics)GASPhysical SciencesWater ResourcesRelative permeabilityFrontiers in Water
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EXPERIMENTAL INVESTIGATION OF DILUTE SOLID-LIQUID SUSPENSION IN AN UNBAFFLED STIRRED VESSELS BY A NOVEL PULSED LASER BASED IMAGE ANALYSIS TECHNIQUE

2009

The availability of experimental information on solid distribution inside stirred tanks is a topic of great importance in several industrial applications. The measurement of solid particle distribution in turbulent multiphase flow is not simple and the development of suitable measurement techniques is still in progress. In this work a novel non-intrusive technique for measuring particle concentration fields in solid-liquid systems is employed. The technique makes use of a laser sheet, a high sensitivity digital camera for image acquisition and a Matlab procedure for post-processing the acquired images. Experimental data are here obtained for the case of an unbaffled stirred tank. Stable tor…

lcsh:Computer engineering. Computer hardwareSettore ING-IND/25 - Impianti Chimicilcsh:TP155-156lcsh:TK7885-7895lcsh:Chemical engineeringThe availability of experimental information on solid distribution inside stirred tanks is a topic of great importance in several industrial applications. The measurement of solid particle distribution in turbulent multiphase flow is not simple and the development of suitable measurement techniques is still in progress. In this work a novel non-intrusive technique for measuring particle concentration fields in solid-liquid systems is employed. The technique makes use of a laser sheet a high sensitivity digital camera for image acquisition and a Matlab procedure for post-processing the acquired images. Experimental data are here obtained for the case of an unbaffled stirred tank. Stable toroidal attractors for particles are observed under given circumstances. Their existence consistency and extension depends on particle type fluid properties tank geometry and impeller velocity.Chemical Engineering Transactions
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Evaluation of a lattice-Boltzmann method for mercury intrusion porosimetry simulations

2004

We have simulated intrusion of a non-wetting liquid into pores of varying shape and size. Simulations were based on the lattice-Boltzmann method and the Shan–Chen multiphase model. The liquid–solid contact angle for pores with circular cross-section was found to be equal to that for pores with square cross-section, and constant even for small pore sizes if the discretised shape of the circular cross-section was taken into account. For comparison, contact angle was also determined for a liquid column descending in a capillary tube, and the results were found to be consistent. Application of the method to mercury intrusion porosimetry is discussed.

mercury intrusion porosimetrywettingShan-Chen multiphase modelComputer Networks and CommunicationsComputer scienceCapillary actionLattice Boltzmann methodsPorosimetryMechanicsSquare (algebra)Physics::Fluid DynamicsContact angleHardware and ArchitectureWettinglattice-BoltzmannMercury intrusion porosimetryConstant (mathematics)SoftwareFuture Generation Computer Systems
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