Momentum and Mass Fluxes in a Gas Confined between Periodically Structured Surfaces at Different Temperatures
arXiv:1103.0142 · doi:10.1103/PhysRevE.84.016304
Abstract
It is well known that in a gas-filled duct or channel along which a temperature gradient is applied, a thermal creep flow is created. Here we show that a mass and momentum flux can also be induced in a gas confined between two parallel structured surfaces at different temperatures, i.e. \textit{orthogonal} to the temperature gradient. We use both analytical and numerical methods to compute the resulting fluxes. The momentum flux assumes its maximum value in the free-molecular flow regime, the (normalized) mass flux in the transition flow regime. The discovered phenomena could find applications in novel methods for energy-conversion and thermal pumping of gases.
6 pages, 5 figures, updated fig.5, updated text for the numerical method