Andrew White
Research Interests: emulsions and mixing, surfactants and interfacial phenomena, microfluidics
Email: [email protected]
Major Professor: Dr. Thomas Ward III
Papers and Presentations:
A.R. White, T. Ward. Pattern search methods for pendant drops: Algorithms for rapid determination of surface tension and surfactant transport parameters. Colloids Surf. A 485 (2015) p. 1-10.
Y.-L. Wang, A.R. White, T. Ward. Pressure-driven microfluidic flow-focusing of air through a surfactant-doped dilute polymer liquid. Microfluid Nanofluidics 18 (2015) p. 343-356.
A.R. White, T. Ward. Constant pressure gas-driven displacement of a shear-thinning liquid in a partially filled radial Hele-Shaw cell: Thin films, bursting and instability. J. Non-Newtonian Fluid 206 (2014) p. 18-28.
A.R. White, T. Ward. CO2 sequestration in a radial Hele-Shaw cell via an interfacial chemical reaction.Chaos 22 (2012) 037114.
T. Ward, A.R. White. Gas-driven displacement of a liquid in a partially filled radial Hele-Shaw cell. Phys. Rev. E 83 (2011) 046316.
Bio:
I come from North Carolina where I did a BS ('11) in mechanical engineering at NC State and also interned two years at Advanced Liquid Logic (Acquired by Illumina) who developed electrowetting technology for lab-on-a-chip applications. I've since received an MS ('13) in engineering mechanics here at ISU and am working on a PhD in the same. Outside of school I enjoy disc golf, snowboarding, and occasionally reading.
Email: [email protected]
Major Professor: Dr. Thomas Ward III
Papers and Presentations:
A.R. White, T. Ward. Pattern search methods for pendant drops: Algorithms for rapid determination of surface tension and surfactant transport parameters. Colloids Surf. A 485 (2015) p. 1-10.
Y.-L. Wang, A.R. White, T. Ward. Pressure-driven microfluidic flow-focusing of air through a surfactant-doped dilute polymer liquid. Microfluid Nanofluidics 18 (2015) p. 343-356.
A.R. White, T. Ward. Constant pressure gas-driven displacement of a shear-thinning liquid in a partially filled radial Hele-Shaw cell: Thin films, bursting and instability. J. Non-Newtonian Fluid 206 (2014) p. 18-28.
A.R. White, T. Ward. CO2 sequestration in a radial Hele-Shaw cell via an interfacial chemical reaction.Chaos 22 (2012) 037114.
T. Ward, A.R. White. Gas-driven displacement of a liquid in a partially filled radial Hele-Shaw cell. Phys. Rev. E 83 (2011) 046316.
Bio:
I come from North Carolina where I did a BS ('11) in mechanical engineering at NC State and also interned two years at Advanced Liquid Logic (Acquired by Illumina) who developed electrowetting technology for lab-on-a-chip applications. I've since received an MS ('13) in engineering mechanics here at ISU and am working on a PhD in the same. Outside of school I enjoy disc golf, snowboarding, and occasionally reading.