Investigation of low-pressure laser induced fluorescence for measuring temperature profiles in a rarefied gas

Resource Information

The work Investigation of low-pressure laser induced fluorescence for measuring temperature profiles in a rarefied gas represents a distinct intellectual or artistic creation found in University of Missouri Libraries. This resource is a combination of several types including: Work, Language Material, http://bibfra.me/vocab/marc/Manuscript, Books.

Label

Investigation of low-pressure laser induced fluorescence for measuring temperature profiles in a rarefied gas

Statement of responsibility

by Thomas O. Leimkuehler

Title variation

Rarefied gas temperature profiles by LIF

Creator

• Leimkuehler, Thomas O., (Thomas Orville), 1972-

Subject

• Electronic books
• Dissertations, Academic -- University of Missouri--Columbia -- Mechanical and aerospace engineering
• Rarefied gas dynamics
• Fluorescence spectroscopy
• Temperature measurements
• Lasers in chemistry
• Heat -- Transmission

Language

eng

Summary

In a rarefied gas, heat transfer in the transition regime (i.e., Knudsen number range of 0.1 to 10) is affected by molecular as well as gas-surface interactions. Theoretical results for the heat transfer can be obtained through computational solutions of the Boltzmann equation and appropriate intermolecular and gas-surface interaction models. As with all computational and phenomenological models, experimental verification is required. In this work, a low-pressure laser induced fluorescence (LIF) technique is investigated for measuring temperature profiles between parallel flat plates, and the results are compared to theoretical predictions. Iodine vapor is used as the gas medium due to its attractive spectral properties. Two surfaces of a closed, short cylindrical iodine cell are employed as a parallel flat plate geometry and are maintained at different temperatures. Cold and hot plate temperature combinations of (1) 20°C and 70°C, respectively, and (2) 20°C and 115°C, respectively, were used. Calibration measurements were performed at uniform temperatures of 45°C and 70°C, Solid iodine stem temperatures of 0°C and -20°C, corresponding to pressures of 30 mtorr and 3 mtorr, respectively, and Knudsen numbers of 0.05 and 0.5, respectively, were investigated. The data shows the expected trends, indicating observable temperature jumps at the surfaces and matching well with the theoretical predictions in the bulk gas. Deviations from the theory were largest near the surface, possibly a result of the limitations of the theoretical models for this particular experimental case. In addition, problems stemming from fluctuations of the chamber pressure as well as attenuation of the excitation laser beam affected collection of definitive temperature profile measurements. However, much progress with the low-pressure LIF technique has been made, and the technique continues to look promising for obtaining accurate and reliable temperature profile measurements in the transition regime

Additional physical form

Also available on the Internet.

Cataloging source

MUU

Degree

Ph. D.

Dissertation year

2000.

Government publication

government publication of a state province territory dependency etc

Granting institution

University of Missouri-Columbia

Illustrations

illustrations

Index

no index present

Literary form

non fiction

Nature of contents

• bibliography
• theses

Target audience

specialized