孙文静，女，硕士生导师，中国科协青年托举人才，江苏省“双创博士”，主要研究方向多相流流动及强化传热。主持基础加强计划基金、基础加强重点研究计划子课题、智能发动机专项子课题、江苏省自然科学基金、两机基础科学中心重点项目子课题、中国博士后站前特别资助等10余项科研项目。重点围绕超高速动压气体轴承冷却结构设计、再生冷却碳氢燃料的喷注掺混关键技术问题、飞行器气溶胶主动红外隐身技术难题，以及面向燃氢轮机的涡轮叶片冷却结构设计等开展基础性研究工作。在国际国内权威期刊发表学术论文20余篇，授权发明专利7项。常年招收2~3名硕士生（动力工程及工程热物理学硕、航空宇航推进理论与工程学硕、能源动力类专硕），欢迎对工程热物理、发动机热防护、先进动力技术、红外隐身等研究感兴趣的本科生报考。研究方向：1. 高超声速飞行器热防护（爆震、火箭组合发动机热防护）2. 整机/排气系统红外隐身3. 多相流流动及传热传质发表学术论文/出版专著情况：[1] Quan W, Sun W*, Zhang J, et al. Flow dynamics and heat transfer enhancement of single pulsed jet impingement in a confined crossflow channel[J]. International Journal of Heat and Mass Transfer, 2025, 250: 127286.[2] Sun W*, Chen J, Zhang J, et al. Numerical Study on Phase Transition and Heat Transfer Characteristics of Over-Pressure Water in Mini-Channels for Oblique Detonation Combustion[J]. Journal of Thermal Science, 2025: 1-12.[3] Gao Q, Sun W*, Zhang J, et al. Thermo-elasto-hydrodynamic analysis of gas foil bearing considering thermal effects[J]. International Journal of Mechanical Sciences, 2025, 288: 110008. [4] Gao Q, Sun W*, Zhang J, et al. Numerical assessment on a hybrid axial throughflow cooling scheme applied to the thermal management of bump-type gas foil bearings[J]. Applied Thermal Engineering, 2025, 260: 125044.[5] Sun W*, Zheng Y, Gao Q, et al. Numerical simulations on film cooling performance of turbine blade before and after particles deposition[J]. Thermal Science and Engineering Progress, 2024, 49: 102504.[6] Sun W*, Zheng Y, Zhang J, et al. Numerical study on particle deposition characteristics of turbine blade with cooling film[J]. Powder Technology, 2024: 119679.[7] Quan W, Sun W*, Zhang J, et al. Large-eddy Simulations on Flow Structures and Interaction Mechanism of Synthetic Jets in a Crossflow[J]. Journal of Applied Fluid Mechanics, 2024, 17(4): 756-769. [8] Quan W, Sun W*, Zhang J, et al. Effects of additional transmission chamber on flow dynamics of a pulsed jet in crossflow[J]. Aerospace Science and Technology, 2024, 155: 109712.[9] Tan J, Sun W*, Lyu Y, et al. Convective heat transfer improvement for a single row of continuous air jets by the acoustic-actuator integration[J]. International Journal of Thermal Sciences, 2024, 203: 109122.[10] 高齐宏, 孙文静*, 王宇婕, 等. 带轴向通流冷却的动压气体轴承静承载力和气动热多参数影响分析[J]. 航空动力学报, 2024, 39(6): 20220393-1-20220393-14.[11] Sun Wenjing*, Wang Yujie, Gao Qihong, Zhang Jingzhou, Genetic Optimization of Longitudinal Ribs on Comprehensive Heat Transfer Performance in Hollow Rotor within Axial Through Flow[J]. International Communication in Heat and Mass Transfer, 2023, 144: 106782. [12] Sun Wenjing*, Gao Qihong, Zhang Jingzhou, Shan Yong. Aerosol Infrared Stealth Technology: Theory and Development of Infrared Suppression and Particle Dispersion in Aircraft Plume[J]. Thermal Science and Engineering Progress, 2023:101695.[13] 孙文静*, 胡峰, 张靖周, 单勇. 超声速飞行状态下热喷流中离散颗粒的分布特性, 推进技术, 2023, 44(3): 106-120. [14] Gao Q, Sun W*, Zhang J. A comparative study on inflow schemes of radial throughflow cooling for thermal management of a specific multi-layer gas foil thrust bearing[J]. International Journal of Heat and Mass Transfer, 2023, 216: 124564. [15] Gao Qihong, Sun Wenjing*, Zhang Jingzhou. Thermo-elasto-hydrodynamic analysis of a specific multi-layer gas foil thrust bearing under thermal-fluid–solid coupling[J]. Chinese Journal of Aeronautics, 2023, 36(12): 231-246. [16] Gao Qihong, Sun Wenjing*, Zhang Jingzhou, Optimal Design of Top-Foil Wedge Shape for a Specific Multi-Layer Gas Foil Thrust Bearing by Considering Aerodynamic and Thermal Performances. Thermal Science and Engineering Progress, 44 (2023) 102060.[17] Gao Qihong, Sun Wenjing*, Zhang Jingzhou, Prediction of aerodynamic and thermal performances for gas foil journal bearing with an axial cooling throughflow by machine learning method. Thermal Science and Engineering Progress, 44 (2023) 102044.[18] Weimei Quan, Wenjing Sun*, Jingzhou Zhang, Xiaoming Tan. Large-Eddy simulations on interaction flow structures of pulsed jets in a crossflow [J]. Thermal Science and Engineering Progress, 2023, 46:102221.[19] 郑寅泰,孙文静*,王兴黎,等.一种高密度碳氢燃料替代模型及其热物性分析[J].推进技术, 2023, 44(11):245-254.[20] 胡峰, 孙文静*, 张靖周, 等. 离散颗粒抑制热喷流红外辐射的大涡模拟[J]. 中南大学学报: 自然科学版, 2023, 54(4): 1576-1591.[21] 王宇婕, 孙文静*, 高齐宏, 等. Numerical Study on Flow and Heat Transfer Characteristics Inside Rotating Rib-Roughened Pipe with Axial Throughflow[J]. Transactions of Nanjing University of Aeronautics & Astronautics, 2023 (5): 522-533.[22] 吕元伟, 赵韫铎, 张靖周, 等. 冠齿脉冲射流冲击平直靶板对流换热实验[J]. 航空动力学报, 2023, 38(4): 787-794.[23] Sun Wenjing*, Hu Feng, Zhang Jingzhou, Shan Yong, Large eddy simulation of aerosol particle dispersion mechanism in aircraft exhaust plume[J]. Powder Technology, 2022, 401: 117270. [24] Gao Qihong, Sun Wenjing*, Zhang Jingzhou, et al., Fluid-solid coupled simulation on thermal management of hydrodynamic gas foil bearing with an axial cooling throughflow. Case Studies in Thermal Engineering, 2022, 37:102238. [25] 高齐宏,张靖周,孙文静,张镜洋.径向入流冷却箔片型气体动压止推轴承气动和热特性数值研究.推进技术,2022,43(11):260-271.[26] Sun Wenjing*, Zhong Wenqi, Zhang Jingzhou, Tarek Echekki, Large Eddy Simulation on the Effects of Coal Particles Size on Turbulent Combustion Characteristics and NOx Formation Inside a Corner-Fired Furnace[J]. Journal of Energy Resources Technology - Transactions of the ASME, 2021, 143(8). [27] Sun Wenjing*, Zhong Wenqi, Zhang Jingzhou, Experimental Investigation on Turbulent Flow Deviation in a Gas-Particle Corner-Injected Flow[J]. Processes, 2021, 9(12): 2202. [28] Gao Qihong, Zhang Jingzhou, Sun Wenjing, Effects of annular-cooler surface-roughness on wind resistance and thermal environment in a high-speed geotechnical centrifuge chamber. Case Studies in Thermal Engineering, 28 (2021)101464. [29] Gao Qihong, Zhang Jingzhou, Lyu Yuanwei, Sun Wenjing, An Experimental Investigation of Chevron-Nozzle Jet Impingement Heat Transfer on a Confined Conical-Concave Surface. Journal of Enhanced Heat Transfer, 28 (2021) 19-33.[30] Lu Yuanwei, Zhang Jingzhou, Shan Yong, Sun Wenjing. Convective heat transfer of chevron-nozzle jet impingement on semi-circular surfaces[J]. J. Acta Aeronaut. Astronaut. Sin., 2021, 42(7): 301-313.[31] 高齐宏,张靖周,谭晓茗.旋转盘腔轴向通流的压降和温升数值研究.推进技 术,2021,42(09):2062-2070.[32] Sun Wenjing, Zhong Wenqi*, Tarek Echekki, Large eddy simulation of non-premixed pulverized coal combustion in corner-fired furnace for various excess air ratios, Applied Mathematical Modeling, 2019(74):694-707. [33] Sun Wenjing, Zhong Wenqi*, Tarek Echekki, Large eddy simulation of the interactions between gas and particles in a turbulent corner-injected flow, Advanced Powder Technology, 2019, 30(10): 2139-2149. [34] Sun Wenjing, Zhong Wenqi*, Yu Aibing, Gas-particle turbulent flow of foursquare tangential jets in a simplified pulverized-coal firing boiler, Advanced Powder Technology, 2018, 29(6): 1463-1473. [35] Sun Wenjing, Zhong Wenqi*,Yu Aibing, Liu Longhai, Qian Yujun, Numerical investigation on the flow, combustion, and NOX emission characteristics in a 660 MWe tangential firing ultra-supercritical boiler, Advances in Mechanical Engineering, 2016, 8(2): 1687814016630729. [36] Sun Wenjing, Zhong Wenqi*, Zhang Yong, LES-DPM simulation of turbulent gas-particle flow on opposed round jets, Powder Technology, 2015, 270: 302-311.科研成果获奖及专利：1. 孙文静; 胡峰; 张靖周; 单勇; 谭晓茗, 王春华, 基于太赫兹波测量气固两相浓度场的装置和方法, 2021.06.08, 中国, 专利号ZL 2021 1 0047684.0 （已授权）2. 孙文静; 张靖周; 单勇; 谭晓茗; 王春华, 一种气相射流中添加固体颗粒的装置及方法, 2020.08.28, 中国, 公开号CN111595744A （已授权）3. 孙文静; 胡峰; 张靖周; 单勇; 王春华, 超声速飞行状态下促使气溶胶颗粒弥散的喷射方法和装置, 2022.05.25, 中国, 公布号CN114872907A（已授权）4. 孙文静; 陈洁茹; 凌文辉; 张靖周; 张义宁, 基于双工质多级循环的高超声速飞行器热防护装置和方法, 2022.06.22, 公布号CN115142958A（已公布）5. 高齐宏; 孙文静; 张靖周; 王宇婕, 用于旋转空心轴通道的引气管道多股射流冲击冷却装置, 2022.07.07, 中国, 公布号CN115370431A（已公布）6. 王宇婕; 高齐宏; 孙文静; 张靖周, 一种适用于旋转空心轴的带导流槽的纵向肋冷却结构, 2022.06.22, 中国, 公布号CN114934844A（已公布）7. 王春华; 李录博; 孙文静; 张靖周, 一种利用形状记忆合金提高双层壁冷却性能的结构, 2022.05.26, 中国, 公布号CN114877375A（已公布）8. 王春华; 张卓; 孙文静; 张靖周, 一种利用航空煤油提高层板冷却性能的结构, 2022.05.26, 中国, 公布号CN114856731A（已公布）承担的科研项目情况：1. 高马赫***协同调控研究，基础加强基金，主持，2022.12-2025.10.2. 高马赫***热防护技术，中央高校基本科研业务费，主持，2024.07-2026.063. 涡轴/涡扇***研究，智能发动机专项子课题，主持，2022.10-2025.10.4. 颗粒物附着沉积后对燃氢燃气轮机透平叶片换热特性的影响研究，航空发动机及燃气轮机基础科学中心重点项目，主持， 2022.10-2024.105. 高速***间隙流动***冷却研究，基础加强重点计划子课题， 校内主持，2020.01-2023.126. 复杂气固射流的跨尺度涡结构演化及颗粒弥散机理，江苏省自然科学基金青年基金，主持， 2020.09-2023.087. 飞行器排气喷管强剪切流中气溶胶弥散的多尺度结构演化与分布形态控制，中国博士后站前特别资助，主持， 2020.09-2023.088. 高速非等温气固剪切流的颗粒弥散及调控特性研究，江苏省2020年“双创博士”，主持， 2020.09-2022.089. 飞行器排气喷管强剪切流中气溶胶弥散特性研究，中央高校基本科研业务费，主持，2021.01-2022.12团队学生简介：Ÿ 王言聪，硕士生，2024.09~，碳氢燃料气膜防热减阻协同调控方向。Ÿ 余江涵，硕士生，2023.09~，涡轮叶片颗粒沉积研究方向。Ÿ 陈帮彬，硕士生，2023.09~，碳氢燃料气膜防热减阻协同调控方向。Ÿ 陈洁茹，硕士生，2022.09~2025.04，《斜爆震燃烧室壁面主动冷却结构设计及优化研究》，毕业去向上海商发研究所。Ÿ 郑玉秋，硕士生，2022.09~2025.04，《涡轮叶片表面颗粒沉积形貌演变及对气膜冷效的影响研究》，硕士研究生国家奖学金，毕业去向北汽研究总院。Ÿ 权威美，博士生(协助指导)，2020.09~，射流掺混研究方向。Ÿ 高齐宏，博士生(协助指导)，2019.09~2024.09，《箔片动压气体轴承通流冷却流动与传热特性研究》，博士研究生国家奖学金，已留校任教。Ÿ 王兴黎，2021.09~2024.04，《超声速来流中超临界航空煤油横向射流的流动及掺混特性研究》，毕业去向浙江三花集团。Ÿ 郑寅泰，硕士生，2021.09~2024.04，《高密度碳氢燃料超临界喷注特性的实验与数值模拟研究》，毕业去向江苏中船724所子公司。Ÿ 胡峰，硕士生，2020.09~2023.04，《热喷流中细微颗粒分布形态控制和红外抑制特性研究》，硕士研究生国家奖学金，南京航空航天大学优秀硕士论文，毕业去向沈阳重燃研究所。