Experiments on Drop Coalescence in Liquid/Liquid Systems

Slides:

Advertisements

Similar presentations

Sticky Water Taiwan Hsieh, Tsung-Lin. Question When a horizontal cylinder is placed in a vertical stream of water, the stream can follow the cylinder's.

Advertisements

Motion In Two Dimensions can be considered constant.

Page 24 #10 If the stone had been kicked harder, the time it took to fall would be unchanged.

Bouncing Liquid Jets James Bomber, Dr. Thomas Lockhart Department of Physics and Astronomy, University of Wisconsin - Eau Claire

Two-Phase Flow in Vertical Wells Notes to Accompany Week 5 Lab—Vertical Two-Phase Flow Multi-Phase Flow in Wells (see also PPS Ch. 7, pp 184 onward)

Regents Physics – Mr. Rockensies

5.6 Projectiles Launched at an Angle

Projectile Motion Motion in two dimensions © 2006 Certiport.com.

Scalar-Vector Interaction for better Life …… P M V Subbarao Professor Mechanical Engineering Department I I T Delhi Vector Analysis : Applications to.

A Numerical Simulation of the Vortex Ring Field Incurred by A Round Jet Rui Wang Advisor: Dr. Robin Shandas Department of Mechanical Engineering University.

CE 230-Engineering Fluid Mechanics Lecture # 4and5 Fluid properties (2)

Projectile Motion. Horizontal and Vertical Motion  Position, velocity and acceleration are vectors.  These vectors can be separated into components.

Analysis of multi-plane PIV measurements in a turbulent boundary layer: large scale structures, coupled and decoupled motions Ivan Marusic, Nick Hutchins,

WAFER EDGE EFFECTS CONSIDERING ION INERTIA IN CAPACITIVELY COUPLED DISCHARGES* Natalia Yu. Babaeva and Mark J. Kushner Iowa State University Department.

Minimization of Profile Losses : Local Modifications of Blade Profile

A battleship simultaneously fires two shells with the same initial speed at enemy ships. If the shells follow the parabolic trajectories shown, which trajectory.

Presented by Sudiptya Banerjee

Lesson 12 Laminar Flow - Slot Flow

Notes and Explanations

Quality of Curve Fitting P M V Subbarao Professor Mechanical Engineering Department Suitability of A Model to a Data Set…..

Aerodynamic measurement of high-speed base flows Background The separated wake at the base of cylindrical bodies presents a number of challenges to aerodynamic.

Introduction to Projectile Motion

Physics Lesson 6 Projectile Motion

Forces and the Laws of Motion

© 2010, TSI Incorporated Global Sizing Velocimetry (GSV)

Experimental Investigation of Limit Cycle Oscillations in an Unstable Gas Turbine Combustor* Timothy C. Lieuwen ^ and Ben T. Zinn # School of Aerospace.

CMP Modeling – Current Status Goal is to develop a comprehensive CMP model that complements experimental program Begin with hydrodynamic slurry flow model.

TWO DIMENSIONAL AND VARIED MOTION Projectile Motion The Pendulum.

Mining Turbulence Data Ivan Marusic Department of Aerospace Engineering and Mechanics University of Minnesota Collaborators: Victoria Interrante, George.

Bubble Bouncing on Solid/Free Surfaces M.R. Brady, D.P. Telionis – Engineering Science and Mechanics P.P. Vlachos – Mechanical Engineering R.-H. Yoon,

Vertical and Horizontal Shifts of Graphs.  Identify the basic function with a graph as below:

©2002 Regents of University of Minnesota Simulation of surfactant mechanics within a volume-of-fluid method Ashley James Department of Aerospace Engineering.

1 NUMERICAL AND EXPERIMENTAL STUDIES OF THIN-LIQUID-FILM WALL PROTECTION SCHEMES S.I. ABDEL-KHALIK AND M. YODA G. W. Woodruff School of Mechanical Engineering.

Evolution of vorticity from the endwall boundary layer P M V Subbarao Professor Mechanical Engineering Department Methods to Estimate Enhanced Losses along.

Thermal annealing effect of tetrahedral amorphous carbon films deposited by filtered vacuum arc Youngkwang Lee *†,Tae-Young Kim*†, Kyu Hwan Oh†, Kwang-Ryeol.

Present MEIC IR Design Status Vasiliy Morozov, Yaroslav Derbenev MEIC Detector and IR Design Mini-Workshop, October 31, 2011.

CN3124E – Particle Technology

Gravity and Air Resistance. Free Fall When falling the only force acting on an object is gravity Type of force when in free fall: unbalanced force Objects.

Design of Port Injection Systems for SI Engines

Projectile Motion AP Physics B.

Design and analysis of a Scramjet combustion Chamber

Large Booster and Collider Ring

Projectile Motion Part 2.

Review Questions Chapter 3

Physical Aspects of Flotation

Sunny Ri Li, Nasser Ashgriz

Conceptual Physics 11th Edition

Projectile Motion.

An Novel Approach the Prediction of Drop Breakup in Hydrocyclones

CI2 – Inviscid Strong Vortex-Shock Wave Interaction

7th Annual MIPSE Graduate Student Symposium, Ann Arbor, Michigan

Estimation of Profile Losses

Joelle Frechette, Chemical and Biomolecular Engineering Department

PES 1000 – Physics in Everyday Life

Fundamentals of Convection

STATICS (ENGINEERING MECHANICS-I)

Projectile Motion.

AN EXPERIMENTAL STUDY OF FLOW AROUND SURFACE-MOUNTED PYRAMIDS

VORTICITY AND CIRCULATION WITHIN TWIN JETS ISSUING INTO A CROSSFLOW

Collider Ring Optics & Related Issues

Projectile Motion AP Physics B.

Lattice Boltzmann Simulation of Water Transport in Gas Diffusion Layers of PEMFCs with Different Inlet Conditions Seung Hun Lee1, Jin Hyun Nam2,*, Hyung.

Frog What angle is the frog jumping at? Why does this make sense?

Air-conditioner -IDU Air-conditioner 2D Simplified model for Analysis.

Experimental techniques of the study of vortex structures caused by point injection on the leading edge of the oblique wing Tolkachev S.N. Gorev V.N. Zharkova.

BELLWORK 1/04/17 What is a projectile?.

BELLWORK 1/04/17 What is a projectile?.

Projectile Motion.

Joelle Frechette, Chemical and Biomolecular Engineering Department

PROJECTILE MOTION.

Presentation transcript:

Experiments on Drop Coalescence in Liquid/Liquid Systems Ellen K. Longmire and Jungyong Kim Department of Aerospace Engineering and Mechanics, University of Minnesota Collisions between pairs of water/glycerin drops in silicone oil were investigated by varying initial injection angles to control the eventual collision angles. Simultaneous dual-field PIV measurements were obtained in index-matched fluids to characterize coalescence and rebounding behavior. The larger field captured trajectories, and the smaller field captured the thin film region between the colliding drops. Experiments were performed for Weber numbers [We] in the range of 1-50 and collision angles of 15-80 degrees below the horizontal. The drops coalesced for We > 11 and rebounded for We < 11, and this boundary was found to be insensitive to collision angle over the range examined. Vortex ring interaction and strong drop deformation due to inertia were both found to be important precursors to coalescence. The collision angle affected the eventual location of film rupture, with the rupture location moving higher in the thin film region as the collision angle increased. The film rupture location correlated closely with the location of maximum downward velocity in the thin film. Rebound We = 11,  = 34, Coalescence We = 22,  = 34, Coalescence We = 21,  = 17, Coalescence We = 21,  = 40,