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[1] Y. Mao, L. Yu, Z. Wu, W. Tao, S. Wang, C. Ruan, L. Zhu, X. Lu*, Experimental and kinetic modeling study of ignition characteristics of RP-3 kerosene over low-to-high temperature ranges in a heated rapid compression machine and a heated shock tube, Combust. Flame 203 (2019) 157-169.
[2] Y. Mao, S. Wang, Z. Wu, Y. Qiu, L. Yu, C. Ruan, F. Chen, L. Zhu, X. Lu*, An experimental and kinetic modeling study of n-butylcyclohexane over low-to-high temperature ranges, Combust. Flame 206 (2019) 83-97.
[3] Y. Mao, A. Li, L. Zhu*, Z. Wu, L. Yu, S. Wang, M. Raza, X. Lu*, A detailed chemical mechanism for low to high temperature oxidation of n-butylcyclohexane and its validation, Combust. Flame 210 (2019) 360-373.
[4] Y. Mao, Y. Feng, Z. Wu, S. Wang, L. Yu, M. Raza, Y. Qian, X. Lu*, The autoignition of iso-dodecane in low to high temperature range: An experimental and modeling study, Combust. Flame 210 (2019) 222-235.
[5] Y. Mao, M. Raza, Z. Wu, J. Zhu, L. Yu, S. Wang, L. Zhu, X. Lu*, An experimental study of n-dodecane and the development of an improved kinetic model. Combust. Flame 212 (2020) 388-402.
[6] Y. Mao, C. Ruan, Z. Wu, Y. Feng, J. Zhu, S. Wang, L. Yu, Y. Qian, X. Lu*, An experimental and kinetic modeling study on a four-component surrogate fuel for RP-3 kerosene. Proc. Combust. Inst. 38 (2021).
[7] Y. Mao, L. Dong, Y. Dong*, W. Liu, J. Chang, S. Yang, Z. Lv, P. Fan, Fast co-pyrolysis of biomass and lignite in a micro fluidized bed reactor analyzer, Bioresour. Technol. 181 (2015) 155-162.
[8] Y. Mao, Y. Dong*, B. Wang, J. Chang, J. Yu, Y. Zhang, Y. Huo, C. Sun, Characteristics and kinetics of biomass tar cracking in a micro fluidized bed, RSC Advances 5 (2015) 82845-82852.
[9] M. Raza, Y. Qian, S. Wang, Y. Mao*, J. Zhu, X. Lu*. The experimental study of autoignition of tetralin at intermediate-to-high temperatures. Fuel 266 (2020) 117081.
[10] M. Raza, J. Zhu, Y. Mao*, S. Wang, X. Lu. The autoignition of Heptamethylnonane at moderate-to-high temperatures and elevated pressures: Shock tube study and improved chemical kinetic model. Fuel, 2020, 281, 118787.
[11] L. Yu, Y. Mao, A. Li, S. Wang, Y. Qiu, Y. Qian, D. Han, L. Zhu, X. Lu*, Experimental and modeling validation of a large diesel surrogate: Autoignition in heated rapid compression machine and oxidation in flow reactor, Combust. Flame 202 (2019) 195-207.
[12] Z. Wu, Y. Mao, M. Raza, J. Zhu, Y. Feng, S. Wang, Y. Qian, L. Yu, X. Lu*, Surrogate fuels for RP-3 kerosene formulated by emulating molecular structures, functional groups, physical and chemical properties, Combust. Flame 208 (2019) 388-401.
[13] L. Yu, Y. Mao, Y. Qiu, S. Wang, H. Li, W. Tao, Y. Qian, X. Lu*, Experimental and modeling study of the autoignition characteristics of commercial diesel under engine-relevant conditions, Proc. Combust. Inst. 37 (2019) 4805-4812.
[14] M. Raza, Y. Mao, L. Yu, X. Lu*, Insights into the Effects of Mechanism Reduction on the Performance of n-Decane and Its Ability to Act as a Single-Component Surrogate for Jet Fuels, Energy & Fuels 33 (2019) 7778-7790.
[15] S. Wang, Y. Mao, M. Raza, L. Yu, X. Lu*, Autoignition of diesel/oxygen/nitrogen mixture under elevated temperature in a heated shock tube, Fuel 254 (2019) 115635.
[16] Z. Wu, Y. Mao, L. Yu, S. Wang, J. Xia, Y. Qian, X. Lu*, Surrogate Formulation for Marine Diesel Considering Some Important Fuel Physical–Chemical Properties, Energy & Fuels 33 (2019) 3539-3550.
[17] A. Li, L. Zhu, Y. Mao, J. Zhai, D. Han, X. Lu, Z. Huang*, Surrogate formulation methodology for biodiesel based on chemical deconstruction in consideration of molecular structure and engine combustion factors, Combust. Flame 199 (2019) 152-167.
[18] L. Yu, Y. Qiu, Y. Mao, S. Wang, C. Ruan, W. Tao, Y. Qian, X. Lu*, A study on the low-to-intermediate temperature ignition delays of long chain branched paraffin: Iso-cetane, Proc. Combust. Inst. 37 (2019) 631-638.
[19] Z. He, J. Li, Y. Mao, L. Yu, Q. Zhou, Y. Qian, X. Lu*, A comprehensive study of fuel reactivity on reactivity controlled compression ignition engine: Based on gasoline and diesel surrogates, Fuel 255 (2019) 115822.
[20] S. Wang, L. Yu*, Z. Wu, Y. Mao, H. Li, Y. Qian, L. Zhu, X. Lu*, Gas-phase autoignition of diesel/gasoline blends over wide temperature and pressure in heated shock tube and rapid compression machine, Combust. Flame 201 (2019) 264-275.
[21] S. Sun, L. Yu, S. Wang, Y. Mao, X. Lu*, Experimental and Kinetic Modeling Study on Self-Ignition of α-Methylnaphthalene in a Heated Rapid Compression Machine, Energy Fuels 31 (2017) 11304-11314.
[22] Y. Qiu, L. Yu, L. Xu, Y. Mao, X. Lu*, Workbench for the Reduction of Detailed Chemical Kinetic Mechanisms Based on Directed Relation Graph and Its Deduced Methods: Methodology and n-Cetane as an Example, Energy Fuels 32 (2018) 7169-7178.
[23] F. Chen, C. Ruan, T. Yu, W. Cai, Y. Mao, X. Lu*, Effects of fuel variation and inlet air temperature on combustion stability in a gas turbine model combustor, Aerosp. Sci. Technol. 92 (2019) 126-138.
[24] L. Yu, S. Wang, W. Wang, Y. Qiu, Y. Qian, Y. Mao, X. Lu*, Exploration of chemical composition effects on the autoignition of two commercial diesels: Rapid compression machine experiments and model simulation, Combust. Flame 204 (2019) 204-219.
[26] S. Wang, Y. Feng, Y. Qian, Y. Mao, M. Raza, L. Yu, X. Lu*, Experimental and kinetic study of diesel/gasoline surrogate blends over wide temperature and pressure, Combust. Flame 213 (2020) 369-381.
[27] C. Ruan, F. Chen, T. Yu, W. Cai, Y. Mao, Y. Qian, X. Li, X. Lu*. Experimental study on combustion stability characteristics in liquid-fueled gas turbine model combustor: Fuel sensitivities and flame/flow dynamics. Fuel 265 (2020) 116973.
[29] Y. Feng, J. Zhu, Y. Mao, M. Raza, Y. Qian, L. Yu, X. Lu. Low-temperature auto-ignition characteristics of NH3/diesel binary fuel: Ignition delay time measurement and kinetic analysis. Fuel, 2020, 281, 118761.
[28] Y. Qiu, W. Zhou, Y. Feng, S. Wang, L. Yu*, Z. Wu, Y. Mao, Y. Qian, X. Lu. An experimental and modeling study of autoignition characteristics of butanol/diesel blends over wide temperature ranges, Combust. Flame, 217, 175-187.