Predicting enhanced mass flow rates in gas microchannels using nonkinetic models
Author(s)
Dadzie, S. Kokou; Brenner, Howard
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Different nonkinetic approaches are adopted in this paper towards theoretically predicting the experimentally observed phenomenon of enhanced mass flow rates accompanying pressure-driven rarefied gas flows through microchannels. Our analysis utilizes a full set of mechanically consistent volume-diffusion hydrodynamic equations, allowing complete, closed-form, analytical solutions to this class of problems. As an integral part of the analysis, existing experimental data pertaining to the subatmospheric pressure dependence of viscosity were analyzed. The several nonkinetic approaches investigated were (1) pressure-dependent viscosity exponent model, (2) slip-velocity models, and (3) volume diffusion model. We explored the ability to predict the gas's mass flow rate over the full range of Knudsen numbers, including furnishing a physically sound interpretation of the well-known Knudsen minimum observed in the mass flow rate. Matching of a pressure-dependent viscosity model, one that follows the standard temperature-viscosity power law and its supporting single momentum diffusion mechanism, did not allow an accurate interpretation of the data. Rather, matching of this model with the flow rate was found to mismatch the experimental pressure dependence of the viscosity. An additional transport mechanism model, one based on volume diffusion, offered a comprehensive understanding of the Knudsen minimum, while also resulting in excellent agreement with experimental data well into the transition regime (up to a Knudsen number of 5).
Date issued
2012-09Department
Massachusetts Institute of Technology. Department of Chemical EngineeringJournal
Physical Review E
Publisher
American Physical Society
Citation
Dadzie, S., and Howard Brenner. “Predicting Enhanced Mass Flow Rates in Gas Microchannels Using Nonkinetic Models.” Physical Review E 86.3 (2012). © 2012 American Physical Society
Version: Final published version
ISSN
1539-3755
1550-2376