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1.
Prospects of lean ignition with the quarter wave coaxial cavity igniter
by Pertl, Franz Andreas Johannes, Ph.D.  West Virginia University. 2008: 116 pages; 3472480.
2.
Microwave-Assisted Ignition for Improved Internal Combustion Engine Efficiency
by DeFilippo, Anthony Cesar, Ph.D.  University of California, Berkeley. 2013: 171 pages; 3593810.
3.
A general thermal thickness model and a heating rate related ignition criterion for combustible solids
by Tian, Ning, Ph.D.  The University of North Carolina at Charlotte. 2013: 131 pages; 3608480.
4.
Probing the ignition mechanism of aluminum nanothermites
by Chowdhury, Snehaunshu, Ph.D.  University of Maryland, College Park. 2012: 137 pages; 3557646.
5.
Development of a Cold-Flow Based Model to Map Ignition Probabilities in a Supersonic Cavity
by Ivancic, Philip Robert, Ph.D.  Mississippi State University. 2019: 161 pages; 22582723.
6.
Numerical simulation of liquid oxygen and liquid methane glow plug ignition system
by Iizuka, Toshiaki, M.S.  California State University, Long Beach. 2011: 88 pages; 1490389.
7.
Onboard Hydrogen Generation for a Spark Ignition Engine via Thermochemical Recuperation
by Silva, Isaac Alexander, M.S.  University of California, Davis. 2014: 93 pages; 1585124.
9.
Hot Jet Ignition Delay Characterization of Methane and Hydrogen at Elevated Temperatures
by Tarraf Kojok, Ali, M.S.M.E.  Purdue University. 2017: 155 pages; 10615574.
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Microexplosions and Ignition Dynamics in Engineered Aluminum/Polymer Fuel Particles
by Rubio, Mario A., M.S.M.E.  Purdue University. 2017: 48 pages; 10268368.
13.
Piloted Ignition and Flame Spread Over Clear and Black PMMA Cylinders in Opposed Flows
by Link, Shmuel G., Ph.D.  University of California, Berkeley. 2015: 113 pages; 10086088.
14.
Autoignition delay time measurements for natural gas fuel components and their mixtures
by Holton, Maclain Marshall, M.S.  University of Maryland, College Park. 2008: 115 pages; 1460990.
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The development of reactive fuel grains for pyrophoric relight of in-space hybrid rocket thrusters
by Steiner, Matthew Wellington, M.S.A.A.  Purdue University. 2015: 199 pages; 1603118.
20.
The spontaneous and piloted transitions from smoldering to flaming in polyurethane foam
by Putzeys, Olivier Michael, Ph.D.  University of California, Berkeley. 2007: 197 pages; 3275824.
21.
Studies on the flame dynamics and kinetics of alcohols and liquid hydrocarbon fuels
by Holley, Adam Takashi, Ph.D.  University of Southern California. 2008: 196 pages; 3341716.
22.
Power control architectures for cold cathode fluorescent lamp and light emitting diode based light sources
by Doshi, Montu V., Ph.D.  University of Colorado at Boulder. 2010: 220 pages; 3404046.
24.
Understanding the reaction mechanism of aluminum nanocomposite thermites
by Egan, Garth Christopher, Ph.D.  University of Maryland, College Park. 2015: 236 pages; 10128571.
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Dynamics of Expanding Flames
by Kelley, Andrew Patrick, Ph.D.  Princeton University. 2011: 228 pages; 3452630.
30.
Performance-based engineering framework for earthquake and fire following earthquake
by Carlton, Aerik, M.S.  Michigan Technological University. 2013: 75 pages; 1552728.
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