Replacement Rates of Initially Hydrocarbon-Filled Microscopic Cavities with Water

Larson, Hans Christian

01 June 2019

Wetting behaviors influence many aspects of life and industry from consumer product goods to oil recovery to cosmetics. While the traditional solid-liquid-vapor (SLV) system has been studied for many years now, wetting transitions in the solid-liquid-liquid (SLL) system has remained relatively unexplored. The purpose of this work is to bring light to the wetting transition of the solid-liquid-liquid system and to understand the replacement rates of initially hydrocarbon-filled microscopic cavities with water and the factors affecting these rates. Factors studied were viscosity, density, diffusion related properties, and surface related properties in both hydrocarbon-saturated and hydrocarbon-non-saturated conditions. Cylindrical microscopic cavities were etched in a silicon wafer, filled with various organic solvents dyed with fluorophores, then submerged in water. Through fluorescence microscopy techniques, the transition or replacement rates of the initially hydrocarbon-filled cavities with water in both hydrocarbon-saturated and hydrocarbon-absent water conditions are observed. Among the factors we investigated, namely viscosity, density, surface chemistry, and diffusive flux (composed of solubility and diffusivity), diffuse flux dominated replacement rates in hydrocarbon-absent water conditions. By using hydrocarbon-saturated water, diffusive flux was minimized, allowing for deeper investigation of other factors. In the hydrocarbon-saturated scenario, replacement rates are largely affected by initial fluid motion, specific cavity geometry, and cavity penetration mechanisms. Image analysis reveals the geometry of the oils in the cavities and shows how the transition from hydrocarbon-fully-filled to hydrocarbon-partially-filled states occurs in the SLL system.

wetting transition

cavity replacement

contact angle

surface tension

interfacial tension

surface behavior

Chemical Engineering

Engineering

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Cui, Yunluan

14 August 2009

No description available.

Biology

poroid basidiomycetes

basidiospore

Buller's drop

surface tension catapult mechanism

spore morpholgoy

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Tian, Yuan, TIAN

08 June 2018

No description available.

Physics

Polymers

Materials Science

work of adhesion

surface tension

MD simulation

networks

soft materials

EXPERIMENTAL AND COMPUTATIONAL STUDY OF NUCLEATE POOL BOILING HEAT TRANSFER IN AQUEOUS SURFACTANT AND POLYMER SOLUTIONS

ZHANG, JUNTAO

31 March 2004

No description available.

Engineering, Mechanical

interfacial phenomena

dynamic surface tension

wettability

bubble dynamics

level set method

enhancement

Thermo-mechanical Behavior of Glass Based Seals for Solid Oxide Fuel Cells

Singh, Sandeep

January 2010

No description available.

Materials Science

Glass Seals

Glass Composites

Sessile Drop

Surface Tension

Viscosity

Creep

Effects of Interfacial and Viscous Properties of Pure Liquids and Polymeric Solutions on Drop Spread Dynamics

Ravi, Vishaul

20 April 2012

No description available.

Chemistry

Surface Tension

liquid droplet impact

Horizontal surfaces

recoil

experimental

non-newtonian

A Parametric Investigation of Gas Bubble Growth and Pinch-Off Dynamics from Capillary-Tube Orifices in Liquid Pools

Kalaikadal, Deepak Saagar

08 October 2012

No description available.

Mechanics

Bubble Dynamics

Dynamic Surface Tension

Bubble Necking

Surfactants

Theoretical Model

Multi-phase Flows

Nucleate Pool Boiling Heat Transfer in Aqueous Surfactant Solutions

Wasekar, Vivek Mahadeorao

11 October 2001

No description available.

Engineering, Mechanical

pool boiling

aqueous surfactant solutions

dynamic surface tension

marangoni convection

liquid vapor interface

On Computational Modeling of Dynamic Drop-Surface Interactions During Post-Impact Spreading of Water and Aqueous Surfactant Solution

Bokil, Shrikant A.

21 October 2013

No description available.

Mechanics

Dynamic Drop-Surface Interactions

Computational Modeling

drop impact

surfactant

surface tension

Bubble Growth from Submerged Orifices: Investigating the Influence of Surface Wettability, Liquid Properties, and Design Conditions

Manoharan, Sanjivan

January 2016

No description available.

Mechanics

Mechanical Engineering

Bubble dynamics

Surface Wettability

Contact Angle

Chamber volume

Surfactant

Dynamic Surface Tension