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Keunsoo Kim
Keunsoo Kim
在 anl.gov 的电子邮件经过验证
标题
引用次数
引用次数
年份
Evaluation of injection and ignition schemes for the ultra-lean combustion direct-injection LPG engine to control particulate emissions
K Kim, J Kim, S Oh, C Kim, Y Lee
Applied Energy 194, 123–135, 2017
602017
X-ray photoelectron spectroscopy of Sm-doped layered perovskite for intermediate temperature-operating solid oxide fuel cell
Y Kim, H Schlegl, K Kim, JTS Irvine, JH Kim
Applied Surface Science 288, 695-701, 2014
442014
Lower particulate matter emissions with a stoichiometric LPG direct injection engine
K Kim, J Kim, S Oh, C Kim, Y Lee
Fuel 187, 197-210, 2017
422017
Data-driven chemical kinetic reaction mechanism for F-24 jet fuel ignition
JI Ryu, K Kim, K Min, R Scarcelli, S Som, KS Kim, JE Temme, CBM Kweon, ...
Fuel 290, 119508, 2021
402021
An assessment of the ultra-lean combustion direct-injection LPG (liquefied petroleum gas) engine for passenger-car applications under the FTP-75 mode
J Kim, K Kim, S Oh
Fuel Processing Technology 154, 219-226, 2016
372016
High-pressure fuel spray ignition behavior with hot surface interaction
AH Motily, JI Ryu, K Kim, K Kim, CBM Kweon, T Lee
Proceedings of the Combustion Institute 38 (4), 5665-5672, 2021
282021
Autoignition of varied cetane number fuels at low temperatures
K Min, DJ Valco, A Oldani, K Kim, J Temme, CBM Kweon, T Lee
Proceedings of the Combustion Institute 37 (4), 5003-5011, 2019
282019
X-ray photoelectron spectroscopic study of direct reforming catalysts Ln 0.5 Sr 0.5 Ti 0.5 Mn 0.5 O 3±d (Ln= La, Nd, and Sm) for high temperature-operating solid oxide fuel cell
K Kim, J Jeong, AK Azad, SB Jin, JH Kim
Applied Surface Science 365, 38-46, 2016
262016
Structural, thermal and electrical conductivity characteristics of Ln 0.5 Sr 0.5 Ti 0.5 Mn 0.5 O 3±d (Ln: La, Nd and Sm) complex perovskites as anode materials for solid oxide …
J Jeong, AK Azad, H Schlegl, B Kim, SW Baek, K Kim, H Kang, JH Kim
Journal of Solid State Chemistry 226, 154-163, 2015
242015
Negative Effects of Dopants on Copper–Ceria Catalysts for CO Preferential Oxidation Under the Presence of CO2 and H2O
J Oh, J Do Yoo, K Kim, HJ Yun, WC Jung, J Bae
Catalysis Letters 147 (12), 2987-3003, 2017
152017
Effects of the cetane number on chemical ignition delay
K Kim, W Lee, P Wiersema, E Mayhew, J Temme, CBM Kweon, T Lee
Energy 264, 126263, 2023
142023
Data-driven combustion kinetic modeling concept of alternative alcohol-to-jet (Atj) fuel
K Kim, JI Ryu, B McGann, K Min, J Temme, CB Kweon, T Lee
AIAA Scitech 2021 Forum, 1245, 2021
142021
An assessment of the biodiesel low-temperature combustion engine under transient cycles using single-cylinder engine experiment and cycle simulation
J Kim, K Kim, S Oh, S Lee
Energy 95, 471-482, 2016
122016
Impact of fuel properties on combusting jet fuel spray breakup, analyzed using high-speed phase contrast imaging
EJ Wood, B McGann, A Motily, K Min, K Kim, T Lee, E Mayhew, ...
AIAA Scitech 2020 Forum, 0522, 2020
102020
Effect of the Cetane Number on Jet Fuel Spray Ignition at High-Temperature and-Pressure Conditions
B McGann, K Kim, T Lee, J Temme, CB Kweon
Energy & Fuels 34 (2), 1337-1346, 2020
92020
Effects of F-24/ATJ blend composition on ignition kinetics at low temperatures
K Kim, K Min, J Temme, CB Kweon, T Lee
AIAA Scitech 2020 Forum, 0178, 2020
62020
Data-Driven approaches to optimize chemical kinetic models
K Kim, PW Wiersema, JI Ryu, E Mayhew, J Temme, CB Kweon, T Lee
AIAA SCITECH 2022 Forum, 0225, 2022
42022
Fast uncertainty reduction of chemical kinetic models with complex spaces using hybrid response-surface networks
Ji-Hun Oh, Paxton Wiersema, Keunsoo Kim, Eric Mayhew, Jacob Temme, Chol-Bum ...
Combustion and Flame 253, 112772, 2023
32023
Scramjet Inflow Characterization Based on Thermodynamic Analysis of Arc-Heater Plenum
I Gessman, S Ghanekar, GS Lee, K Kim, N Kato, J Yoo, T Lee
AIAA SCITECH 2023 Forum, 2332, 2023
32023
Bio-derived sustainable aviation fuels—On the verge of powering our future
M Tomar, A Abraham, K Kim, E Mayhew, T Lee, K Brezinsky, P Lynch
Combustion Chemistry and the Carbon Neutral Future, 521-598, 2023
32023
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