An Experimental Investigation of the Distribution Function for the Near Free Molecular Parallel Plate Heat Transfer Problem.

Abstract

Measurements of the molecular velocity distribution function between differentially heated parallel plates have been obtained for Knudsen numbers in the transition flow range. The gas used was argon and the plate temperature ratio was 1.7. The specific distribution in terms of one velocity component was obtained by measuring the Doppler broadening of the 4609.6 A AII spectral line emitted as a result of excitation of the gas by an electron beam. Various plate spacing and pressure combinations were used to obtain Knudsen numbers between 0.07 and 3. The eight-moment linearized model of Gross and Ziering provided the best overall representation of the data, with the four-moment linearized model of Gross and Ziering and the bimodal solution of Lees predicting a substantially greater degree of asymmetry in the distribution function than was observed at low Knudsen numbers. The constraint placed on the problem by Gross and Ziering to simplify its solution by linearization was that the temperature, T(plates)/T<1. This criterion was not met in the experiment, and the good match between the data and the eight-moment method indicates that the range of validity of linearized solutions may be greater than would be expected based solely on the linearizing condition.

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 1976

Accession Number

ADA035576

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