| 1 |
Reflected shock-initiated ignition probed via simultaneous lateral and endwall high-speed imaging with a transparent, cylindrical test-section
Ninnemann E, Pryor O, Barak S, Neupane S, Loparo Z, Laich A, Vasu SS
Combustion and Flame, 224, 43, 2021 |
| 2 |
High-pressure shock tube study of ethanol oxidation: Ignition delay time and CO time-history measurements
Laich AR, Ninnemann E, Neupane S, Rahman R, Barak S, Pitz WJ, Goldsborough SS, Vasu SS
Combustion and Flame, 212, 486, 2020 |
| 3 |
New insights into the shock tube ignition of H-2/O-2 at low to moderate temperatures using high-speed end-wall imaging
Ninnemann E, Koroglu B, Pryor O, Barak S, Nash L, Loparo Z, Sosa J, Ahmed K, Vasu S
Combustion and Flame, 187, 11, 2018 |
| 4 |
Shock Tube/Laser Absorption and Kinetic Modeling Study of Triethyl Phosphate Combustion
Neupane S, Barnes F, Barak S, Ninnemann E, Loparo Z, Masunov AE, Vasu SS
Journal of Physical Chemistry A, 122(15), 3829, 2018 |
| 5 |
Measurements and interpretation of shock tube ignition delay times in highly CO2 diluted mixtures using multiple diagnostics
Pryor O, Barak S, Koroglu B, Ninnemann E, Vasu SS
Combustion and Flame, 180, 63, 2017 |
| 6 |
Production of hydrogen and carbon by solar thermal methane splitting. III. Fluidization, entrainment and seeding powder particles into a volumetric solar receiver
Kogan A, Kogan M, Barak S
International Journal of Hydrogen Energy, 30(1), 35, 2005 |
| 7 |
Production of hydrogen and carbon by solar thermal methane splitting. II. Room temperature simulation tests of seeded solar reactor
Kogan A, Kogan M, Barak S
International Journal of Hydrogen Energy, 29(12), 1227, 2004 |
