Articles with public access mandates - Shengkai WangLearn more
Not available anywhere: 13
Shock Tube and Laser Absorption Study of CH2O Oxidation via Simultaneous Measurements of OH and CO
S Wang, DF Davidson, RK Hanson
The Journal of Physical Chemistry A, 2017
Mandates: US National Science Foundation
Shock-tube measurement of acetone dissociation using cavity-enhanced absorption spectroscopy of CO
S Wang, K Sun, DF Davidson, JB Jeffries, RK Hanson
The Journal of Physical Chemistry A 119 (28), 7257-7262, 2015
Mandates: US Department of Energy
High-sensitivity 308.6-nm laser absorption diagnostic optimized for OH measurement in shock tube combustion studies
S Wang, RK Hanson
Applied Physics B, 2018
Mandates: US Department of Defense
Demonstration of non-absorbing interference rejection using wavelength modulation spectroscopy in high-pressure shock tubes
W Wei, WY Peng, Y Wang, R Choudhary, S Wang, J Shao, RK Hanson
Applied Physics B 125, 1-10, 2019
Mandates: US Department of Defense
Measurements of oxygen vibrational relaxation and dissociation using ultraviolet laser absorption in shock tube experiments
JW Streicher, A Krish, S Wang, DF Davidson, RK Hanson
AIAA SciTech 2019 Forum, 0795, 2019
Mandates: US Department of Defense
Shock Tube measurement for the dissociation rate constant of acetaldehyde using sensitive CO diagnostics
S Wang, DF Davidson, RK Hanson
The Journal of Physical Chemistry A 120 (35), 6895-6901, 2016
Mandates: US National Science Foundation
Cavity-enhanced absorption spectroscopy for shocktubes: Design and optimization
X Chao, G Shen, K Sun, Z Wang, Q Meng, S Wang, RK Hanson
Proceedings of the Combustion Institute 37 (2), 1345-1353, 2019
Mandates: National Natural Science Foundation of China
Two-temperature Collisional-radiative Modeling of Partially Ionized O2–Ar Mixtures over 8000–10,000 K Behind Reflected Shock Waves
Y Li, S Wang, CL Strand, RK Hanson
The Journal of Physical Chemistry A 124 (19), 3687-3697, 2020
Mandates: US Department of Defense
Shock Tube Measurement of the High-Temperature Rate Constant for OH + CH3 → Products
S Wang, S Li, DF Davidson, RK Hanson
The Journal of Physical Chemistry A 119 (33), 8799-8805, 2015
Mandates: US Department of Energy
Shock tube techniques for kinetic target data to improve reaction models
S Wang, DF Davidson, RK Hanson
Computer Aided Chemical Engineering, 2019
Mandates: US National Science Foundation, US Department of Energy, US Department of …
Shock tube and multi-species laser absorption measurements of rate constants for methanol pyrolysis
S Wang, Y Ding, J Miao, RK Hanson
Proceedings of the Combustion Institute 39 (1), 755-763, 2023
Mandates: National Natural Science Foundation of China
Species Time-History Measurements During Jet Fuel Pyrolysis
DF Davidson, A Tulgestke, Y Zhu, S Wang, RK Hanson
30th International Symposium on Shock Waves 1: ISSW30-Volume 1, 309-312, 2017
Mandates: US Department of Defense
Spectrally-Resolved Absorption and Laser-Induced Fluorescence of High-Temperature Gases
S Wang, CL Strand, RK Hanson
AIAA Scitech 2019 Forum, 1612, 2019
Mandates: US Department of Defense
Available somewhere: 18
A physics-based approach to modeling real-fuel combustion chemistry–II. Reaction kinetic models of jet and rocket fuels
R Xu, K Wang, S Banerjee, J Shao, T Parise, Y Zhu, S Wang, A Movaghar, ...
Combustion and Flame 193, 520-537, 2018
Mandates: US Department of Defense, US National Aeronautics and Space Administration
High temperature measurements for the rate constants of C1–C4 aldehydes with OH in a shock tube
S Wang, DF Davidson, RK Hanson
Proceedings of the Combustion Institute 35 (1), 473-480, 2015
Mandates: US Department of Energy
A shock tube study of jet fuel pyrolysis and ignition at elevated pressures and temperatures
J Shao, Y Zhu, S Wang, DF Davidson, RK Hanson
Fuel 226, 338-344, 2018
Mandates: US Department of Defense, US Department of Transportation
A New Diagnostic for Hydrocarbon Fuels using 3.41-μm Diode Laser Absorption
S Wang, T Parise, DF Davidson, RK Hanson
10th US Combustion Meeting, 2017
Mandates: US Department of Defense
Reaction Rate Constant of CH2O + H = HCO + H2 Revisited: A Combined Study of Direct Shock Tube Measurement and Transition State Theory Calculation
S Wang, EE Dames, DF Davidson, RK Hanson
The Journal of Physical Chemistry A 118 (44), 10201-10209, 2014
Mandates: US Department of Energy
Shock tube study of normal heptane first-stage ignition near 3.5 atm
MF Campbell, S Wang, DF Davidson, RK Hanson
Combustion and Flame 198, 376-392, 2018
Mandates: US Department of Energy, US Department of Defense
Sensitive and interference-immune formaldehyde diagnostic for high-temperature reacting gases using two-color laser absorption near 5.6 µm
Y Ding, S Wang, RK Hanson
Combustion and Flame 213, 194-201, 2020
Mandates: US Department of Defense
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