Supercritical fuel deposition mechanisms T Edwards, S Zabarnick Industrial & engineering chemistry research 32 (12), 3117-3122, 1993 | 419 | 1993 |
Chemical, thermal stability, seal swell, and emissions studies of alternative jet fuels E Corporan, T Edwards, L Shafer, MJ DeWitt, C Klingshirn, S Zabarnick, ... Energy & fuels 25 (3), 955-966, 2011 | 323 | 2011 |
Simulations of flowing mildly-cracked normal alkanes incorporating proportional product distributions TA Ward, JS Ervin, RC Striebich, S Zabarnick Journal of Propulsion and Power 20 (3), 394-402, 2004 | 211 | 2004 |
JP-8+ 100: the development of high-thermal-stability jet fuel SP Heneghan, S Zabarnick, DR Ballal, WE Harrison III | 174 | 1996 |
Oxidation of jet fuels and the formation of deposit SP Heneghan, S Zabarnick Fuel 73 (1), 35-43, 1994 | 161 | 1994 |
Pressure effects on flowing mildly-cracked n-decane TA Ward, JS Ervin, S Zabarnick, L Shafer Journal of Propulsion and Power 21 (2), 344-355, 2005 | 151 | 2005 |
Development of an advanced, thermally stable, coal-based jet fuel LM Balster, E Corporan, MJ DeWitt, JT Edwards, JS Ervin, JL Graham, ... Fuel Processing Technology 89 (4), 364-378, 2008 | 148 | 2008 |
Chemical kinetic modeling of jet fuel autoxidation and antioxidant chemistry S Zabarnick Industrial & engineering chemistry research 32 (6), 1012-1017, 1993 | 125 | 1993 |
Analysis of polar species in jet fuel and determination of their role in autoxidative deposit formation LM Balster, S Zabarnick, RC Striebich, LM Shafer, ZJ West Energy & fuels 20 (6), 2564-2571, 2006 | 111 | 2006 |
Use of measured species class concentrations with chemical kinetic modeling for the prediction of autoxidation and deposition of jet fuels NJ Kuprowicz, S Zabarnick, ZJ West, JS Ervin Energy & fuels 21 (2), 530-544, 2007 | 96 | 2007 |
Hydrocarbon group-type analysis of petroleum-derived and synthetic fuels using two-dimensional gas chromatography RC Striebich, LM Shafer, RK Adams, ZJ West, MJ DeWitt, S Zabarnick Energy & Fuels 28 (9), 5696-5706, 2014 | 95 | 2014 |
Kinetic study of the reaction CH(X 2Π)+H2⇄CH2(X 3B1)+H in the temperature range 372 to 675 K S Zabarnick, JW Fleming, MC Lin The Journal of chemical physics 85 (8), 4373-4376, 1986 | 88 | 1986 |
Pseudo-detailed chemical kinetic modeling of antioxidant chemistry for jet fuel applications S Zabarnick Energy & Fuels 12 (3), 547-553, 1998 | 81 | 1998 |
Studies of jet fuel thermal stability and oxidation using a quartz crystal microbalance and pressure measurements S Zabarnick Industrial & engineering chemistry research 33 (5), 1348-1354, 1994 | 67 | 1994 |
Modeling the liquid-phase oxidation of hydrocarbons over a range of temperatures and dissolved oxygen concentrations with pseudo-detailed chemical kinetics NJ Kuprowicz, JS Ervin, S Zabarnick Fuel 83 (13), 1795-1801, 2004 | 65 | 2004 |
Kinetics of hydroxyl radical reactions with formaldehyde and 1, 3, 5‐trioxane between 290 and 600 K S Zabarnick, JW Fleming, MC Lin International journal of chemical kinetics 20 (2), 117-129, 1988 | 63 | 1988 |
Studies of jet fuel additives using the quartz crystal microbalance and pressure monitoring at 140. Degree. C S Zabarnick, RR Grinstead Industrial & engineering chemistry research 33 (11), 2771-2777, 1994 | 59 | 1994 |
Density functional theory calculations of the energetics and kinetics of jet fuel autoxidation reactions S Zabarnick, DK Phelps Energy & fuels 20 (2), 488-497, 2006 | 58 | 2006 |
Kinetics of CN (X 2Σ+) radical reactions with HCN, BrCN and CH3CN S Zabarnick, MC Lin Chemical Physics 134 (1), 185-191, 1989 | 51 | 1989 |
Determination of hydroperoxides in jet fuel via reaction with triphenylphosphine ZJ West, S Zabarnick, RC Striebich Industrial & engineering chemistry research 44 (10), 3377-3383, 2005 | 50 | 2005 |