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Peng Zhao
Peng Zhao
University of Tennessee, UT Space Institute, USTC, Princeton, Oakland
Verified email at utk.edu - Homepage
Title
Cited by
Cited by
Year
The role of global and detailed kinetics in the first-stage ignition delay in NTC-affected phenomena
P Zhao, CK Law
Combustion and Flame 160 (11), 2352-2358, 2013
1392013
The role of low temperature chemistry in combustion mode development under elevated pressures
J Pan, H Wei, G Shu, Z Chen, P Zhao
Combustion and Flame 174, 179-193, 2016
1312016
Fast charging optimization for lithium-ion batteries based on dynamic programming algorithm and electrochemical-thermal-capacity fade coupled model
M Xu, R Wang, P Zhao, X Wang
Journal of Power Sources 438, 227015, 2019
1162019
NTC-affected ignition in nonpremixed counterflow
CK Law, P Zhao
Combustion and Flame 159 (3), 1044-1054, 2012
1122012
Initiation and propagation of laminar premixed cool flames
P Zhao, W Liang, S Deng, CK Law
Fuel 166, 477-487, 2016
1112016
Computational identification of the safety regime of Li-ion battery thermal runaway
L Zhang, P Zhao, M Xu, X Wang
Applied energy 261, 114440, 2020
792020
NTC-affected ignition and low-temperature flames in nonpremixed DME/air counterflow
S Deng, P Zhao, D Zhu, CK Law
Combustion and Flame 161 (8), 1993-1997, 2014
772014
Interactions of flame propagation, auto-ignition and pressure wave during knocking combustion
J Pan, G Shu, P Zhao, H Wei, Z Chen
Combustion and Flame 164, 319-328, 2016
762016
Autoignition-affected stabilization of laminar nonpremixed DME/air coflow flames
S Deng, P Zhao, ME Mueller, CK Law
Combustion and Flame 162 (9), 3437–3445, 2015
742015
Stabilization of laminar nonpremixed DME/air coflow flames at elevated temperatures and pressures
S Deng, P Zhao, ME Mueller, CK Law
Combustion and Flame 162 (12), 4471-4478, 2015
682015
Laminar flame speeds, counterflow ignition, and kinetic modeling of the butene isomers
P Zhao, W Yuan, H Sun, Y Li, AP Kelley, X Zheng, CK Law
Proceedings of the Combustion Institute 35 (1), 309-316, 2015
672015
A predictive Livengood–Wu correlation for two-stage ignition
J Pan, P Zhao, CK Law, H Wei
International Journal of Engine Research 17, 825-835, 2016
632016
reactingFoam-SCI: An Open Source CFD Platform for Reacting Flow Simulation
Q Yang, P Zhao, H Ge
Computers & Fluids 190, 114-127, 2019
512019
On the controlling mechanism of the upper turnover states in the NTC regime
W Ji, P Zhao, T He, X He, A Farooq, CK Law
Combustion and Flame 164, 294-302, 2016
482016
On the application of betweenness centrality in chemical network analysis: Computational diagnostics and model reduction
P Zhao, SM Nackman, CK Law
Combustion and Flame 162 (8), 2991-2998, 2015
382015
Insights into engine autoignition: Combining engine thermodynamic trajectory and fuel ignition delay iso-contour
M Tao, P Zhao, JP Szybist, P Lynch, H Ge
Combustion and Flame 200, 207-218, 2019
352019
On the crossover temperature and lower turnover state in the NTC regime
W Ji, P Zhao, P Zhang, Z Ren, X He, CK Law
Proceedings of the Combustion Institute 36, 343-353, 2017
352017
Numerical simulation of ignition mechanism in the main chamber of turbulent jet ignition system
M Muller, C Freeman, P Zhao, H Ge
Internal combustion engine division fall technical conference 51999, V002T06A010, 2018
322018
Manifestation of octane rating, fuel sensitivity, and composition effects for gasoline surrogates under advanced compression ignition conditions
M Tao, P Zhao, D DelVescovo, H Ge
Combustion and Flame 192, 238-249, 2018
302018
Laminar flame propagation and nonpremixed stagnation ignition of toluene and xylenes
D Han, S Deng, W Liang, P Zhao, F Wu, Z Huang, CK Law
Proceedings of the Combustion Institute 36 (1), 479-489, 2017
302017
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