刘殊远科研成果

综合介绍 General Introduction 刘殊远，长聘副教授，博士生导师。以国家重大战略需求和关键技术瓶颈为牵引，主要从事新型组合发动机高效燃烧组织与飞行器先进智能热防护技术研究。在Applied Thermal Engineering, Energy, International Journal of Heat and Mass Transfer, International Journal of Thermal Sciences等权威期刊发表高水平 SCI 论文 30 余篇，申请国家发明专利 6 项，登记软件著作权2项，主持国家自然科学基金面上项目，某重大基础研究项目，某重大工程分承研项目等多项国家级项目。指导学生获得陕西省机械工程学会工业工程三等奖、某技术创新中心优秀论文一等奖、国际互联网大赛省级银奖、“三航杯”大学生课外科技竞赛自然科学论文类校级二等奖、全国大学生科技英语演讲比赛全国一等奖、飞行器设计大赛校级二等奖、国家奖学金、一等学业奖学金及西北工业大学研究生优秀毕业生等奖励，本人获评优秀指导教师、西北工业大学优秀双创导师。 个人相册

教育教学

个人经历 personal experience 工作经历 2019.9-今 西北工业大学航天学院 副教授 内容来自集群智慧云企服 www.jiqunzhihui.net

荣誉获奖

教育教学 Education and teaching 招生信息 学生信息 教育信息 招收航空宇航推进理论与工程、能源动力、工程热物理及机械工程等方向硕士生及博士生。团队招收航空宇航推进理论与工程（学硕）和航天工程（专硕）硕博研究生，保研学生优先录取，欢迎相关专业优秀本科毕业生加盟！优秀毕业生去向：2021届毕业生车XX，科工六院210所2022届毕业生丁XX，科工六院210所；王XX，互联网企业2023届毕业生贺XX，沈阳606所；史XX：航天科技四院41所；马XX，航天科技四院41所；张X，西北工业大学攻读博士学位 学生姓名 学号 学历 专业 本科课程教学：《工程热力学》，《发动机传热传质基础》研究生课程教学：《计算传热学》

科学研究

科学研究 Scientific Research 一级学科为航空宇航科学与技术，研究方向主要包括：（1）先进智能飞行器热防护技术；（2）组合发动机燃烧机理。目前以第一作者或通讯作者发表高水平SCI论文20余篇，主持国家自然科学基金面上项目等国家和省部级项目10余项。

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学术成果

学术成果 Academic Achievements (1) Liu S., Qunli Cheng; Peipei Wang; Luyang Han; Limin Wang. The effect of water on coking and heat transfer inhomogeneity of supercritical aviation kerosene in a curved minichannel, Applied Thermal Engineering, 2023, 233(2023): 121150. (2) Liu S., Guilin Wang; Weimeng Zhang; et al. Numerical study on reaction and heat transfer of supercritical aviation kerosene with pyrolysis and steam reforming in a corrugated cooling channel. International Journal of Heat and Mass Transfer, 2023, 217 (2023) 124686.(3) Liu S., Luyang Han; Qunli Cheng; et al. Thermal performance evaluation of a distributed regenerative cooling system using supercritical catalytic steam reforming of aviation kerosene for scramjet engine. Energy, 2023, 129003. (4) Liu S., Qunli Cheng; Luyang Han; et al. The influence of asymmetric truncated ribs on flow and heat transfer of supercritical aviation kerosene in a rectangular curved cooling channel. International Journal of Thermal Sciences, 2023. (5) Liu S., Han L., He P., Wang L., Han J., Hu S. Conjugate heat and mass transfer at heterogeneous burning surface of AP/HTPB/Al composite propellant at 2-10MPa, Applied Thermal Engineering, 227(2023), 120362.(6) Liu S., He P., Han L., Ding Y., Wang L., Han J., Hu S. Numerical study on the effect of pressure on transient micro-combustion and heat release characteristics of AP/HTPB/Al composite propellant fuel, Fuel, 347(2023), 128445.(7) Liu S., Zhang Y., Wang L., Han L., Chen Z., Hu S. (2023). The effect of mixing and heat transfer on regression rate of TAGN-based fuel in a segregated AP/TAGN solid motor, International Journal of Thermal Sciences, 186(2023), 108133.(8) Liu S., Chen Z., Wang L., Li Y., Hu S. (2023). Numerical study on transient regression rate and combustion characteristics of segregated AP-based oxidizer/TAGN-based fuel, Fuel, 337 (2023) 126893.(9) Liu S., Han L Y., Liu H., Song Y., Liu L., Hu S. Experimental and numerical study on ignition and combustion characteristics of boron-magnesium composite powders, Particuology, 84 (2024), 12-29.(10) Chen Z., Wang L., Liu S*., Zhang Y., Xia Z., Hu S Q. The effect of coupled combustion reaction on conjugate heat transfer in boundary layer of a segregated oxidizer/fuel solid motor, International Journal of Thermal Sciences, 2023, 108526.(11) Ren X, Chen H, Qu B, Fu X L, Liu S, Cao S, Liang J, Zheng D, Zhang F, Li Y*, Ab initio kinetics of H-Atom abstraction from monomethylhydrazine, Combustion and Flame, 256 (2023), 112998.(12) Liu S., Chan T.L. Lin J., Yu M. (2019). Numerical study on fractal-like soot aggregate dynamics of turbulent ethylene-oxygen flame, Fuel, 256(2019), 115857. (13) Liu S., Cao Y., Feng Y., Gong K., Zhou W., Bao W. (2019). Numerical simulation of supercritical catalytic steam reforming of aviation kerosene coupling with coking and heat transfer in mini-channel, International Journal of Thermal Sciences, 137, 199-214. (14) Feng Y., Cao Y., Liu S*. Qin J., Hemeda A.A., Ma Y.B., (2019). The influence of coking on heat transfer in turbulent reacting flow of supercritical hydrocarbon fuels. International Journal of Heat and Mass Transfer, 144, 118623. (15) Feng Y.,Liu Y., Cao Y., Gong K., Liu S*., Qin J. (2019). Thermal management evaluation for advanced aero-engines using catalytic steam reforming of hydrocarbon fuels. Energy, 193(2020), 116738. (16) Feng, Y. , Lv, Q. , Deng, S. , Liu, S*. , Cao, Y*. , & Qin, J. (2020). A coke deposition self-removal TBCC thermal management with multi-catalyst coating. International Journal of Energy Research, 44(9), 7386-7395.(17) Hongmei Liu, Wei Jiang, Wenming Liu, Xuedong Liu, Shuyuan Liu*, Tat Leung Chan.Monte Carlo simulation of polydisperse particle deposition and coagulation dynamics in enclosed chambers. Vacuum 184 (2021), 109952. (18) Liu S., Feng Y., Chu Y., Gong K., Cao Y. (2018). Numerical study of catalytic steam reforming of aviation kerosene at supercritical pressures. Fuel, 212, 375-386.(19) Liu S., Chan T.L. (2017). A coupled CFD-Monte Carlo method for simulating complex aerosol dynamics in turbulent flows. Aerosol Science and Technology, 51(3), 269-281. (20) Liu S., Chan T.L., Liu H.J. (2019). Numerical simulation of particle formation and evolution in a vehicle exhaust plume using the bimodal Taylor expansion method of moments. Particuology, 43, 46-55.(21) Liu S., Chan T.L. (2017). A stochastically weighted operator splitting Monte Carlo (SWOSMC) method for the numerical simulation of complex aerosol dynamic processes. International Journal of Numerical Methods for Heat & Fluid Flow, 27(1), 263-278. (22) Liu S., Chan T.L., He Z., Lu Y., Jiang X., Wei F. (2019). Soot formation and evolution characteristics in premixed methane/ethylene-oxygen-argon burner-stabilized stagnation flames. Fuel, 242, 871-882. (23) Liu S., Wang Y., Wu R., Zeng X., Gao S., & Xu G. (2014). Fundamentals of catalytic tar removal over in situ and ex situ chars in two-stage gasification of coal. Energy & Fuels, 28(1), 58-66. (24) Tairan Wang, Kiran K. Yalamanchi, Xin Bai, Liu S., Yang Li, Bei Qu, Goutham Kukkadapue, S. Mani Sarathy. Computational thermochemistry of oxygenated polycyclic aromatic hydrocarbons and relevant radicals, Combustion and Flame, 247(2023) 112484.(25) Bai X, Li Y, Liu S., He R, Liang J, Yin G, Zheng S, Qian Y, Wang X. Probing the combustion kinetics of dimethylformamide: A theoretical study of H-atom abstraction reactions, Fuel, 353 (2023) 129164.(26) Zhao X, Li F, Liang S, Liu S., et al. Hollow spherical LaNiO3 perovskite with superior multifunctional performances and durability for urea-assisted Zn-air batteries. Applied Surface Science, 637 (2023) 157898.(27) Chan T.L. Liu S., and Yue Y. (2018). Nanoparticle formation and growth in turbulent flows using the bimodal TEMOM. Powder Technology, 323, 507-517. (28) Feng Y., Liu S., Qin J., Cao Y., Jiang Y.G., Zhang S.L. (2018). Numerical study on the influence of turbulence on the pyrolysis of hydrocarbon fuel in mini-channel. International Journal of Heat and Mass Transfer, 119, 768-776. (29) Zhu C., Liu S., Liu H., Yang J., Liu X., & Xu G. (2015). NOx emission characteristics of fluidized bed combustion in atmospheres rich in oxygen and water vapor for high-nitrogen fuel. Fuel, 139, 346-355.(30) Feng Y., Zhang S., Liu S., Qin J., Cao Y., Huang H. (2018). A simplification of pyrolytic reaction model of hydrocarbon fuel and its application in simulation of heated channel flow. International Journal of Thermal Sciences, 130, 10-18. (31) Zhang C., Wu R., Hu E., Liu S., & Xu G. (2014). Coal pyrolysis for high-quality tar and gas in 100 kg fixed bed enhanced with internals. Energy & Fuels, 28(11), 7294-7302.(32) Gong K., Cao Y., Feng Y., Liu S., Qin Jiang. (2019). Influence of secondary reactions on heat transfer process during pyrolysis of hydrocarbon fuel under supercritical conditions. Applied Thermal Engineering, 159(2019) 113912. 内容来自集群智慧云企服 请访问正版网址 www.jiqunzhihui.net

综合介绍