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Simultaneous Species Concentration and Temperature Measurements Using Laser Induced Breakdown Spectroscopy with Direct Spectrum Matching

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posted on 2015-02-23, 00:00 authored by Brendan Joseph McGann
Laser induced breakdown spectroscopy (LIBS) is used to simultaneously measure hydrocarbon fuel concentration and temperature in high temperature, high speed, compressible, and reacting flows, a regime in which LIBS has not been done previously. Emission spectra from the plasma produced from a focused laser pulse is correlated in the combustion region of a model scramjet operating in supersonic wind tunnel. A 532 nm Nd:YAG laser operating at 10 Hz is used to induce breakdown. The emissions are captured during a 10 ns gate time approximately 75 ns after the first arrival of photons at the measurement location in order to minimize the measurement uncertainty in the turbulent, compressible, high-speed, and reacting environment. Three methods of emission detection are used and a new backward scattering direction method is developed that is beneficial in reducing the amount of optical access needed to perform LIBS measurements. Measurements are taken in the model supersonic combustion and the ignition process is shown to be highly dependent on fuel concentration and gas density as well as combustion surface temperature, concentration gradient, and flow field. Direct spectrum matching method is developed and used for quantitative measurements. In addition, a comprehensive database of spectra covering the fuel concentrations and gas densities found in the wind tunnel of Research Cell 19 at Wright Patterson Air Force Base is created which can be used for further work.

History

Date Modified

2017-06-05

Research Director(s)

Hyungrok Do

Committee Members

Flint Thomas Scott Morris

Degree

  • Master of Science in Aerospace Engineering

Degree Level

  • Master's Thesis

Language

  • English

Alternate Identifier

etd-02232015-101626

Publisher

University of Notre Dame

Program Name

  • Aerospace and Mechanical Engineering

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