Thermally Induced Aggregation of Rigid Spheres on a Liquid Surface

Authors

Eric Forgoston, Montclair State UniversityFollow
Leo Hentschker, Montclair State University
Siobhan Soltau, Montclair State University
Patrick Truitt, Hypres, Inc.
Ashuwin Vaidya, Montclair State UniversityFollow

Document Type

Article

Publication Date

1-8-2016

Journal / Book Title

Physics Letters A

Abstract

Fluids provide the optimal setting to explore natural patterns far from thermodynamic equilibrium. Experiments suggest that randomly dispersed particles on a liquid surface tend to aggregate on the surface of liquid over time, and the process is enhanced by an increase in the temperature of the liquid. We show that the agglomeration radii increases monotonically with temperature up until the point where all particles in the system form a single, large aggregate. The aggregation dynamics is related to changes in the material properties of the liquid including its viscosity and surface tension as well as the convection driven flow generated on the fluid surface. In this article we compare our experimental observations with analytical asymptotic results. The analytical arguments are seen to agree well with the experimental observations.

DOI

10.1016/j.physleta.2015.10.033

MSU Digital Commons Citation

Forgoston, Eric; Hentschker, Leo; Soltau, Siobhan; Truitt, Patrick; and Vaidya, Ashuwin, "Thermally Induced Aggregation of Rigid Spheres on a Liquid Surface" (2016). Department of Applied Mathematics and Statistics Faculty Scholarship and Creative Works. 129.
https://digitalcommons.montclair.edu/appliedmath-stats-facpubs/129

Published Citation

Forgoston, E., Hentschker, L., Soltau, S., Truitt, P., & Vaidya, A. (2016). Thermally induced aggregation of rigid spheres on a liquid surface. Physics Letters A, 380(1-2), 227-231.