We studied the choked flow behavior of gas flow in a single microchannel at inlet pressures of up to 2.2 MPa. Fair agreement was obtained between the basic compressible flow theory, known as Fanno flow, numerical simulations, and experiments for the mass flow rate dependency on the inlet pressure. Investigation of the effect of varying the inlet temperature on the choked flow behavior revealed that the power law scaling of the maximum flow rate on the temperature varies with inlet pressure. This was suggested, using numerical simulations, to be a result of heat loss to the environment.

Topics
Ideal gas, Engineering thermodynamics, Newtonian mechanics, Physics of gases, Thermodynamic states and processes, Microfabrication, Chemical elements, Microchannel, Fluid flows, Rarefied gas dynamics
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See supplementary material at http://dx.doi.org/10.1063/1.4940997 for a detailed description in Table 1 of the controlled and measured parameters of the test bench. Figure S1 shows the geometry and meshing used for the numerical simulations.
© 2016 AIP Publishing LLC.
2016
AIP Publishing LLC

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