Andrey V. Kuznetsov

TL;DR: A minimal model for a traffic jam in an axon is developed based on a macroscopic (hydrodynamic) approach to modeling of highway traffic and on a Macroscopic model of molecular-motor-assisted transport of intracellular organelles on microtubules.

TL;DR: In this article, a fully developed Couette flow through a composite channel, partially filled with a clear fluid and partially with a fluid-saturated porous medium, is considered, and a boundary layer solution for the velocity and temperature fields is obtained.

TL;DR: A three-dimensional transient finite-volume model of in vivo skin electroporation is developed to emphasize the importance of representing the skin's composite layers and to illustrate the underlying relationships between the physical parameters of the composite makeup of the skin and resulting thermal damage potential.

TL;DR: The sensitivity coefficients that are obtained characterize how strongly three observables (the tau concentration, average tau velocity, and the percentage of tau bound to microtubules) depend on model parameters.

TL;DR: In this article, the authors formulated the problem as a combined conductive-convective-radiative problem in which radiative heat transfer is treated as a diffusion process and showed that the variation of conductivity with temperature above that of the cold boundary leads to an increase in the critical Rayleigh number (based on the conductivity of the fluid at that boundary temperature).