12 research outputs found
Transient electrohydrodynamic flow with concentration dependent fluid properties: modelling and energy-stable numerical schemes
Transport of electrolytic solutions under influence of electric fields occurs
in phenomena ranging from biology to geophysics. Here, we present a continuum
model for single-phase electrohydrodynamic flow, which can be derived from
fundamental thermodynamic principles. This results in a generalized
Navier-Stokes-Poisson-Nernst-Planck system, where fluid properties such as
density and permittivity depend on the ion concentration fields. We propose
strategies for constructing numerical schemes for this set of equations, where
solving the electrochemical and the hydrodynamic subproblems are decoupled at
each time step. We provide time discretizations of the model that suffice to
satisfy the same energy dissipation law as the continuous model. In particular,
we propose both linear and non-linear discretizations of the electrochemical
subproblem, along with a projection scheme for the fluid flow. The efficiency
of the approach is demonstrated by numerical simulations using several of the
proposed schemes
Physics of Ionic Conduction in Narrow Biological and Artificial Channels
The book reprints a set of important scientific papers applying physics and mathematics to address the problem of selective ionic conduction in narrow water-filled channels and pores. It is a long-standing problem, and an extremely important one. Life in all its forms depends on ion channels and, furthermore, the technological applications of artificial ion channels are already widespread and growing rapidly. They include desalination, DNA sequencing, energy harvesting, molecular sensors, fuel cells, batteries, personalised medicine, and drug design. Further applications are to be anticipated.The book will be helpful to researchers and technologists already working in the area, or planning to enter it. It gives detailed descriptions of a diversity of modern approaches, and shows how they can be particularly effective and mutually reinforcing when used together. It not only provides a snapshot of current cutting-edge scientific activity in the area, but also offers indications of how the subject is likely to evolve in the future