James Sprittles
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Coalescence Wetting Flow through Porous Media Bubble Formation Pinch Off Wetting
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2017

Fundamental solutions to the regularised 13-moment equations: efficient computation of three-dimensional kinetic effects.
R. Claydon, A. Shrestha, A.S. Rana, J.E. Sprittles & D.A. Lockerby. Journal of Fluid Mechanics (Rapid Communications), 833, R4 (Open Source).

Kinetic effects in dynamic wetting.
J.E. Sprittles. Physical Review Letters, 118, 114502 (Open Source).

2016

Capillary breakup of a liquid bridge: identifying regimes and transitions.
Y. Li and J.E. Sprittles. Journal of Fluid Mechanics, 797, 29-59 (Open Source).

Dynamic measurements and simulations of airborne picolitre-droplet coalescence in holographic optical tweezers.
B.R. Bzdek, L. Collard, J.E. Sprittles, A.J. Hudson and J.P. Reid. Journal of Chemical Physics, 145, 054502 (Open Source).

2015

Air entrainment in dynamic wetting: Knudsen effects and the influence of ambient air pressure.
J.E. Sprittles. Journal of Fluid Mechanics, 769, 444-481. arXiv Link.

The formation of a bubble from a submerged orifice.
J.A. Simmons, J.E. Sprittles and Y.D. Shikhmurzaev. European Journal of Mechanics B/Fluids, 53, 24-36. arXiv Link.

2014

How coalescing drops jump.
R. Enright, N. Miljkovic, J.E. Sprittles, K. Nolan, R. Mitchell and E.N. Wang. ACS Nano, 8, 10352–10362.

A parametric study of the coalescence of liquid drops in a viscous gas.
J.E. Sprittles and Y.D. Shikhmurzaev. Journal of Fluid Mechanics, 753, 279-306. arXiv Link.

Dynamics of liquid drops coalescing in the inertial regime.
J.E. Sprittles and Y.D. Shikhmurzaev. Physical Review E, 89, 063006. arXiv Link.

The coalescence of liquid drops in a viscous fluid: interface formation model.
J.E. Sprittles and Y.D. Shikhmurzaev. Journal of Fluid Mechanics, 751, 480-499. arXiv Link.

2013

Drop spreading and penetration into pre-wetted powders.
J.O. Marston, J.E. Sprittles, Y. Zhu, E.Q. Li, I.U. Vakarelski and S.T. Thoroddsen. Powder Tech., 239, 128-136.

Finite element simulation of dynamic wetting flows as an interface formation process.
J.E. Sprittles and Y.D. Shikhmurzaev. Journal of Computational Physics, 233, 34-65. arXiv Link.

Dynamic contact angle of a liquid spreading on an unsaturated wettable porous substrate.
Y.D. Shikhmurzaev and J.E. Sprittles. Journal of Fluid Mechanics, 715, 273-282. arXiv Link.

2012

Coalescence of liquid drops: different models versus experiments.
J.E. Sprittles and Y.D. Shikhmurzaev. Physics of Fluids, 24, 122105. arXiv Link.

The dynamics of liquid drops and their interaction with solids of varying wettabilities.
J.E. Sprittles and Y.D. Shikhmurzaev. Physics of Fluids, 24, 082001. arXiv Link.

Anomalous dynamics of capillary rise in porous media.
Y.D. Shikhmurzaev and J.E. Sprittles. Physical Review E, 86, 016306. arXiv Link.

Wetting front dynamics in an isotropic porous medium.
Y.D. Shikhmurzaev and J.E. Sprittles. Journal of Fluid Mechanics, 694, 399-407. arXiv Link.

Finite element framework for describing dynamic wetting phenomena.
J.E. Sprittles and Y.D. Shikhmurzaev. Int. Journal for Num. Meth. in Fluids, 68, 1257-1298. arXiv Link.

2011

Viscous flow in domains with corners: Numerical artifacts, their origin and removal.
J.E. Sprittles and Y.D. Shikhmurzaev. Comp. Meth. in App. Mech. and Eng., 200, 1087-1099 arXiv Link.

Viscous flow in corner regions: Singularities and hidden eigensolutions.
J.E. Sprittles and Y.D. Shikhmurzaev. Int. Journal for Num. Meth. in Fluids, 65, 372-382. arXiv Link.

2009

A continuum model for the flow of thin liquid films over intermittentlty chemically patterned surfaces.
J.E. Sprittles and Y.D. Shikhmurzaev. The Eur. Phys. Journal Special Topics, 166, 159-163. arXiv Link.

2007

Viscous flow over a chemically patterned surface.
J.E. Sprittles and Y.D. Shikhmurzaev. Physical Review E, 76, 021602. arXiv Link.