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1.
Studies of combustion characteristics of heavy hydrocarbons in simple and complex flows
by Zhao, Runhua, Ph.D.  University of Southern California. 2016: 224 pages; 10124457.
2.
Studies of combustion characteristics of alcohols, aldehydes, and ketones
by Veloo, Peter Surendran, Ph.D.  University of Southern California. 2011: 220 pages; 3478033.
3.
Dynamics of Expanding Flames
by Kelley, Andrew Patrick, Ph.D.  Princeton University. 2011: 228 pages; 3452630.
4.
Studies of Methane Counterflow Flames at Low Pressures
by Burrell, Robert Roe, Ph.D.  University of Southern California. 2017: 109 pages; 10271093.
6.
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.
7.
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.
8.
Spectral optimization and uncertainty quantification in combustion modeling
by Sheen, David Allan, Ph.D.  University of Southern California. 2011: 196 pages; 3466103.
10.
Exploring Systematic Effects in Thermonuclear Supernovae
by Jackson, Aaron Perry, Ph.D.  State University of New York at Stony Brook. 2011: 70 pages; 3477376.
13.
Numerical Simulation of the Blue Whirl: A Reacting Vortex Breakdown Phenomenon
by Chung, Joseph Dongil, Ph.D.  University of Maryland, College Park. 2020: 153 pages; 27672592.
14.
Electrical Aspects of Impinging Flames
by Chien, Yu-Chien, Ph.D.  University of California, Irvine. 2015: 257 pages; 3682710.
15.
Improved Flamelet Modeling of Supersonic Combustion
by Lou, Zhipeng, Ph.D.  State University of New York at Stony Brook. 2017: 202 pages; 10280296.
16.
The Structure of the Blue Whirl: A Soot-Free Reacting Vortex Phenomenon
by Hariharan, Sriram Bharath, M.S.  University of Maryland, College Park. 2017: 101 pages; 10273308.
17.
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.
18.
An integral model for turbulent flame radial lengths under a ceiling
by Ding, Haiwen, M.S.  University of Maryland, College Park. 2010: 73 pages; 1478933.
19.
Oscillation and extinction in flames
by Wang, Heyang, Ph.D.  Princeton University. 2007: 225 pages; 3295321.
20.
Measurements and analysis of extinction in vitiated flame sheets
by Williamson, Justin Wade, Ph.D.  University of Maryland, College Park. 2009: 152 pages; 3359431.
21.
22.
Modeling of Pollutant Formation in Lifted Diesel Jets
by Yen, May, Ph.D.  Purdue University. 2017: 250 pages; 10685566.
23.
Direct Numerical Simulation of Mixing and Combustion Under Canonical Shock Turbulence Interaction
by Gao, Xiangyu, Ph.D.  University of Southern California. 2020: 159 pages; 28028646.
24.
Smoke points of microgravity and normal gravity coflow diffusion flames
by Dotson, Keenan Thomas, M.S.  University of Maryland, College Park. 2009: 92 pages; 1474308.
25.
Experimental investigation of soot nucleation and growth in premixed flat flames
by Abid, Aamir Dawood, Ph.D.  University of Southern California. 2009: 209 pages; 3355374.
28.
Parametric combustion modeling for ethanol-gasoline fuelled spark ignition engines
by Yeliana, Ph.D.  Michigan Technological University. 2010: 217 pages; 3439138.
30.
Cavity ringdown sensors for atmospheric and combustion diagnostics
by Fallows, Eric Alan, Ph.D.  The George Washington University. 2009: 205 pages; 3349572.
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