孟宣市
时间:2024-04-06 01:37 来源: 作者: 点击:次
综合介绍 General Introduction 近年来在Physics of Fluids,AIAA Journal,Experiments in Fluids,Aerospace Science and Technology,航空学报、空气动力学学报等期刊、以及AIAA paper发表论文100余篇。SCI被引400余次,Google Scholar 引用800余次。多次前往美国、欧洲等国家和地区进行合作交流,在美国迈阿密大学访学一年、加州大学尔湾分校、牛津大学哈特福德学院进行过短期学习,与迈加州大学尔湾分校机械宇航系(Dept. of Mechanical and Aerospace Engineering, University of California, Irvine)、阿密大学机械宇航系( Dept. of Mechanical and Aerospace Engineering, University of Miami)、爱荷华州立大学机械宇航系(Dept. of Aerospace Engineering, Iowa State University)、新加坡国立大学淡马锡研究所(Temasek Laboratories, National University of Singapore) 等高校与研究所保持着密切的合作交流。西北工业大学翱翔之星,先后主持多项国家自然基金、航空基金,教育部博士点基金、中博士后基金、总装备部重点实验室基金、西工大基础研究基金以及院所横向课题等项目,并参与国家“863”、“973”等多项科研项目。 个人相册 教育教学个人经历 personal experience 工作经历 1996-2000,西北工业大学飞机系,空气动力学及飞行力学专业,学士学位2002-2005,西北工业大学航空学院流体系,流体力学专业,硕士学位2004-2008,西北工业大学航空学院流体系,流体力学专业,博士学位2016-2017,美国迈阿密大学(University of Miami),访问学者2008-2018,西北工业大学航空学院讲师(2008-2011)、副教授(2011-2018)2018-至今,西北工业大学航空学院飞机系,教授/博士生导师 荣誉获奖教育教学 Education and teaching 教育信息 1、《线性代数》,本科生课程, 40学时2、《实验空气动力学》,本科生课程, 40学时3、《Experimental Fluid Dynamics》,本科生课程(留学生),24学时4、《Advanced Measurement and Visualization Techniques in Aerodynamics》,本科生课程(留学生),24学时5、《现代流动控制基础及应用》,研究生课程,20学时6、获航空学院 2010、2011年度本科生教学 “最满意青年教师”7、参与西北工业大学“全英语教学课程”立项建设2项。《 Experimental Dynamics Fluid 》、《Aerodynamics》8, 在英国牛津大学哈特福德学院(Hertford College)完成为期两周(2017年9月)的“英文媒介EMI)授课”课程,获英文媒介课程EMI证书。 科学研究团队信息 Team Information 主要研究与招生方向: 1,分离涡、附面层转捩等复杂流动机理及流动控制研究;2,飞行器结冰机理与防/除冰方法研究 。招生要求:1,每年计划招生博士研究生1-2名,硕士研究生2-3名,优秀的推荐免试研究生待遇从优; 2,身心健康,喜欢钻研,喜欢空气动力学实验研究和CFD数值模拟研究,有很好的团队协作精神和良好的沟通性。 学术成果科学研究 Scientific Research [1] 《等离子体空气动力与热激励耦合特性及防结冰机理研究》,国家自然基金,2021/01 – 2024/12,总经费62万。[2] 《等离子体激励对低雷诺数下翼型层流分离特性的影响及机理研究》, 国家自然基金,2017/01 – 2020/12,总经费68万。[3] 《不同时间尺度NS-DBD热效应及流动控制机理研究》, 国家自然基金(参与),2018/01 – 2021/12,总经费62万。[4] 《纳秒脉冲等离子体流动控制机理研究》,航空基金,2018/01 – 2020/12,总经费12万。[5] 《脉冲协同射流翼型高升阻比效应及其湍流掺混机理研究》, 国家自然基金(参与),2017/01 – 2020/12,总经费72万。[6] 《翼型前缘等离子体激励防冰技术及其机理研究》, 国家级重点实验室基金,2017/01 – 2019/12,总经费40万。[7] 《等离子体激励对飞行器纵向气动力特性的影响及机理研究》,国家自然基金,2011/01 – 2014/12,总经费26万。[8] 《等离子体激励对低雷诺数下层流分离气泡的影响研究》,国家级重点实验室基金,2014/01 - 2015/12,总经费25万。[9] 《纳秒脉冲等离子体防除冰机理研究》,西北工业大学基础研究基金,2014/01 - 2016/12,总经费15万。[10] 《细长体非对称涡等离子体控制机理研究》,高等学校博士点专项科研基金(教育部科技发中心),2010/01 - 2012/12,总经费3.6万。[11] 《飞行器细长前体涡流场等离子体主动控制机理研究》,中国博士后基金(中国博士后科学基金会),2010/05 - 2011/09,总经费3.0万。 综合介绍学术成果 Academic Achievements 教材编写:高永卫,孟宣市,肖春生. 《实验流体力学基础》第3版,西北工业大学出版社,2021年,西安。专利申请: 1, 孟宣市; 尹仕卿; 李华星. 一种可延缓流动分离的翼型及置于翼型上的激励器. 发文日期:2023-01-20, 中国, 授权号:ZL 201910037887.4.2,孟宣市; 郭鑫璐; 惠伟伟; 郜梦雨; 张馨元; 王佳旭; 杨宇轩. 基于盒式翼气动布局的两栖型水面救生器,授权公告日:2023-06-23, 中国, 授权号:ZL 2022 1 0031281.1.3, 孟宣市; 惠伟伟; 龙玥霄; 李华星; 史爱明. 一种可用于起落架降噪的减震支柱以及降噪方法. 发文日期:2021-08-24, 中国, 授权号:ZL 202010917357.1.4, 尹仕卿; 孟宣市; 李华星. 一种可延缓流动分离的圆柱体及置于圆柱体上的激励器. 发文日期:2019-01-16, 中国, 授权号: ZL 201910037883.6.5, 阿法克·艾哈迈德·阿巴西,孟宣市,李华星,龙玥霄. 用于机翼前缘的等离子体虚拟动态仿生装置和方法. 发文日期:2020-09-25 ,授权号:ZL 201711200625.2.6, 蔡晋生; 徐双艳; 田永强; 孟宣市. 一种应用介质阻挡放电等离子体防结冰装置及方法. 发明 2015-09-02, 公开号:CN201510277732.X.7, 蔡晋生; 田永强; 孟宣市; 翟琪. 一种介质阻挡放电等离子体除积冰装置及方法. 发明 2015-09-09, 公开号:CN201510275368.3.8, 蔡晋生; 孟宣市; 李文丰一种用于飞机过失速操纵控制的翼板. 发明 2010-08-18, 公开号:CN201010164774.X.代表性文献:2023 年[1] Weiwei Hui, Zhipeng Chen, Xuanshi Meng, Hongyu Gu, Dongyu Zhu. Dynamics of Water Droplet Driven by Plasma Actuation based on PIV and Digital Image Projection Techniques. AIAA paper 2023-3777, AIAA AVIATION 2023 Forum, 12-16 June 2023, San Diego, CA and Online.[2] Zhipeng Chen, Weiwei Hui, Xuanshi Meng, Hongyu Gu, Dongyu Zhu,Dynamics Simulation of Water Droplet with Plasma Actuation Based on OpenFoam. AIAA paper 2023-4434, AIAA AVIATION 2023 Forum, 12-16 June 2023, San Diego, CA and Online.[3] Enbo Ju, Feng Ye, Xuanshi Meng, Xiaoguang Ma, Tong Chen. Effect of Small Step on Aerodynamic Performance in the Transonic Inlet. AIAA paper 2023-4086, AIAA AVIATION 2023 Forum, 12-16 June 2023, San Diego, CA and Online.[4] Zhuoling Ran, Xuanshi Meng, Xian Yi, Senyun Liu. Simulation of In-Flight Anti-Icing based AC-SDBD Plasma Actuation. AIAA paper 2023-3806, AIAA AVIATION 2023 Forum, 12-16 June 2023, San Diego, CA and Online.[5] Jintao Zhao, Hexiang Zhang, Xuanshi Meng. Aiming Shi. Aerodynamic effects of a tube-type AC-SDBD plasma actuator. AIAA paper 2023-3747, AIAA AVIATION 2023 Forum, 12-16 June 2023, San Diego, CA and Online.[6] 李天阳, 张鹤翔, 冉卓灵, 孟宣市 , 史爱明. 等离子体协同射流翼型控制参数设计与机理探索(约稿)[J]. 空军工程大学学报, 2023, 24(2):23-32.[7] 惠伟伟, 周正, 李欣阳, 孟宣市, 李华星. 等离子体激励下水滴撞击结冰表面特性的研究. 第五届全国结冰与防除冰学术会议. 2023年5月11日-13日,长沙.[8] 陈志鹏, 惠伟伟, 孟宣市, 顾洪宇, 朱东宇. 基于OpenFOAM的等离子体驱动下水滴动力学模拟. 第五届全国结冰与防除冰学术会议. 2023年5月11日-13日,长沙.[9] 冉卓灵, 孟宣市, 易贤, 刘森云. 基于AC-SDBD等离子体激励的飞行防冰仿真. 第五届全国结冰与防除冰学术会议. 2023年5月11日-13日,长沙.[10] 孟宣市. AC-SDBD等离子体激励防除冰方法的若干关键问题(大会特邀报告). 第二届中国空气动力学大会. 2023年3月30日-4月3日,天津.[11] 孟宣市,等离子体诱导射流减缩频率特性及其大迎角下的摇涡、混涡、稳涡机制(大会特邀报告), 第九届近代实验空气动力学会议暨低跨超专业委员会2023年学术交流会, 2023年8月17日-20日,西宁.[12] 惠伟伟; 陈志鹏; 孟宣市; 顾洪宇; 朱东宇. 等离子体激励对水滴撞击、驱动及蒸发特性的影响研究, 第九届近代实验空气动力学会议暨低跨超专业委员会2023年学术交流会, 2023年8月17日-20日,西宁.[13] 鞠恩博; 惠伟伟; 孟宣市; 史爱明. 不同减缩频率下等离子体激励对圆柱近场尾涡的控制特性研究, 第九届近代实验空气动力学会议暨低跨超专业委员会2023年学术交流会, 2023年8月17日-20日,西宁.[14] 赵进涛; 惠伟伟; 孟宣市. 等离子体协同射流翼型流动控制研究, 第九届近代实验空气动力学会议暨低跨超专业委员会2023年学术交流会, 2023年8月17日-20日,西宁.2022 年[1] Weiwei Hui, Xuanshi Meng, Huaxing Li, Feng Liu. Flow induced by a pair of plasma actuators on a circular cylinder in still air under duty-cycle actuation. Physics of Fluids, 2022, Physics of Fluids, 34 (12), 123613.[2] Weiwei Hui, Hexiang Zhang, Jianlei Wang, Xuanshi Meng, Huaxing Li. Heat Transfer Characteristics of Plasma Actuation in Different Boundary-Layer Flows. 2022, Physics of Fluids,34 (3): 034110.[3] Bo Li, Xuanshi Meng ,Shiqing Yin,Weiwei Hui and Huaxing Li. Flow Separation Control over An Airfoil Using SDBD Plasma Co-Flow Jet, 2022, AIAA Journal, 60(4): 2195-2206.[4] 孟宣市, 惠伟伟, 易贤, 等. AC-SDBD等离子体激励防/除冰研究现状与展望[J]. 空气动力学学报, 2022, 40(2): 31-49.[5] Hexiang Zhang, Weiwei Hui, Haoyu Chen, Huaxing Li, and Xuanshi Meng. Heat Transfer Characteristics of AC-SDBD Plasma Actuation in Different Boundary Layers. January 3-7, 2022, San Diego, USA & Online. AIAA paper 2022-2592, AIAA SciTech 2022 FORUM. [6]惠伟伟, 李昌, 蔡晋生, 孟宣市. AC-SDBD等离子体激励防结冰特性与机制(约稿)[J]. 气动研究与实验, 2022, 34(3): 145-158.[7] Zheng Zhou, Jiageng Cai, Weiwei Hui, Huaxing Li and Xuanshi Meng, Exploration on the Process and Mechanism of Plasma Actuation for Anti-icing. January 3-7, 2022, San Diego, USA & Online. AIAA paper 2022-2594, AIAA SciTech 2022 FORUM.[8]Zheng Zhou, Xinyang Li, Mengzhuo Zhang, Xuanshi Meng, Haibao Hu, Huaxing Li. Effect of Plasma Actuation on Impact, Dynamics, and Evaporation of Water Droplet on a Frozen Surface [C]. June 27-July 1, 2022, Chicago, USA & Online. AIAA paper 2022-3876, AIAA AVIATION 2022 Forum.[9] Weiwei Hui, Zhipeng Chen, Mengzhuo Zhang, Xuanshi Meng, Haibao Hu, Huaxing Li. Effect of Plasma Actuation on Impact, Dynamics, and Evaporation of Water Droplet on a Room-temperature Surface. June 27-July 1, 2022, Chicago, USA & Online. AIAA paper 2022-3875, AIAA AVIATION 2022 Forum.[10]Hexiang Zhang, Jianlei Wang, Weiwei Hui, Xuanshi Meng. Vortex flow control over a circular cylinder using plasma Co-Flow Jet [C]. June 27-July 1, 2022, Chicago, USA & Online. AIAA paper 2022-3850, AIAA AVIATION 2022 Forum.[11]Zhuoling Ran, Tianyang Li, Weiwei Hui, Hexiang Zhang, and Xuanshi Meng, Mechanism of Flow Control over an Airfoil Using Plasma Co-Flow Jet [C], The 2022 Asia-Pacific International Symposium on Aerospace Technology, October 12-14, 2022, Niigata City, Japan & online.[12]Zhipeng Chen, Weiwei Hui, Zheng Zhou, and Xuanshi Meng, Dynamics of Water Droplet with Plasma Actuation Based on Digital Image Projection Method [C], The 2022 Asia-Pacific International Symposium on Aerospace Technology, October 12-14, 2022, Niigata City, Japan & online.2021 年[1] 惠伟伟; 周正; 张梦卓; 孟宣市; 胡海豹; 李华星. 等离子体激励对水滴撞击、驱动及蒸发特性影响的研究, 第十二届全国流动显示学术会议, 2021年10月15日-18日,天津.[2] 蔡佳耕, 龙玥霄, 周正, 李华星, 孟宣市. 等离子体激励防结冰过程与机制探索. 第十二届全国实验流体力学学术会议. 2021年04月22日-25日,太原.[3] 惠伟伟, 龙玥霄, 陈皓宇, 李华星, 孟宣市. AC-SDBD等离子体激励在不同流态边界层内的传热特性研究. 第十二届全国实验流体力学学术会议. 2021年04月22日-25日,太原. 2020 年[1] Bo Li, Afaq A. Abbasi, Yin Shiqing and Xuanshi Meng, Airfoil Performance Enhancement with a Novel Flow Control Method of SDBD Plasma Co-Flow Jet. June 15-19, 2020, AIAA paper 2020-2957, AIAA AVIATION 2020 FORUM.[2] Weiwei Hui, Huaxing li, Yin Shiqing, Afaq A. Abbasi and Xuanshi Meng, Flow Control over a Cylinder Using Duty-Cycle Plasma Actuation June 15-19, AIAA paper 2020-2958, 2020 AIAA AVIATION 2020 FORUM.[3] Afaq A. Abbasi, Huaxing li, Weiwei Hui and Xuanshi Meng, Thermal Characteristics of Plasma Actuators in Turbulent Boundary Layer. June 15-19, AIAA paper 2020-3228, 2020 AIAA AVIATION 2020 FORUM.[4] Haiyang Hu, Xuanshi Meng, Jinsheng Cai, Wenwu Zhou, Yang Liu, Hui Hu, Optimization of Dielectric Barrier Discharge Plasma Actuators for Icing Control. Journal of Aircraft, 2020, 57(2): 383-387. [5] Abbasi, Afaq Ahmed, Huaxing Li, and Xuanshi Meng. Coupled Aerodynamic and Thermal Effects for Steady and Unsteady Plasma Actuation. AIAA Journal, 2020, 58(1): 488-495.[6] 孟宣市,蔡晋生. AC-SDBD等离子体激励防除冰规律与机理探索, 第四届全国飞行器结冰与除冰学术会议论文集. 2020年11月12日-14日,重庆. [7] 惠伟伟,李博,孟宣市,刘锋,罗时钧. 双稳态与连续稳态分离涡流场及其控制特性研究, 第十八届全国分离流、旋涡和流动控制会议. 2020年10月21日-24日,太原. [8] 李 博,惠伟伟,尹仕卿,蔡晋生,孟宣市. 等离子体协同射流翼型的气动特性研究, 第十八届全国分离流、旋涡和流动控制会议. 2020年10月21日-24日,太原. [9] 惠伟伟,李华星,尹仕卿,孟宣市. 圆柱后缘分离涡的非定常等离子体流动控制研究, 第十八届全国分离流、旋涡和流动控制会议. 2020年10月21日-24日,太原. 2019 年[1] Xuanshi Meng, Haiyang Hu, Chang Li, Afaq Ahmed Abbasi, Jinsheng Cai, and Hui Hu, Mechanism study of coupled aerodynamic and thermal effects using plasma actuation for anti-icing.[J] Physics of Fluids, 2019, 31, 037103 (2019). (Featured, Press Release, https://www.eurekalert.org/pub_releases/2019-04/aiop-hti040119.php)[2] Xuanshi Meng, Afaq Ahmed Abbasi, Huaxing Li, Shiqing Yin, and Yuqi Qi. Bioinspired Experimental Study of Leading-Edge Plasma Tubercles on Wing[J], AIAA Journal, 2019, 57(1): 462-466.2018 年[1] Xuanshi Meng, Feng Liu, and Shijun Luo, Effect of Low Dorsal Fin on the breakdown of Vortices over a Slender Delta Wing, Aerospace Science and Technology, October 2018, 81: 316-321. [2] Xuanshi Meng, Haiyang Hu, Xu Yan, Feng Liu and Shijun Luo. Lift improvements using duty-cycled plasma actuation at low Reynolds numbers, Aerospace Science and Technology, Junuary 2018, 72: 123-133.[3] Xuanshi Meng, Yuexiao Long, Jianlei Wang, Feng Liu, and Shijun Luo. Dynamics and control of the vortex flow behind a slender conical forebody by a pair of plasma actuators, Physics of Fluids, 2018, 30(2): 024101.[4]孟宣市,宋科, 龙玥霄, 李华星. NS-SDBD 等离子体流动控制研究现状与展望(特邀综述)[J]. 空气动力学学报, 2018, 36(6): 901-916.[5] 龙玥霄, 刘国政, 孟宣市,李华星, & 刘铁中. 飞翼布局纵向气动特性的等离子体激励控制. 高电压技术, 2018, 44(9): 3049-3057.[6] Afaq Ahmed Abbasi, Huaxing Li, Xuanshi Meng, Shiqing Yin, Yuqi Qin, Haiyang Hu, Effect of plasma leading edge tubercles on wing performance, AIAA paper 2018-0679 (2018).[7] Yuexiao Long, Huaxing Li, Xuanshi Meng, Haiyang Hu, Optimized plasma actuation on asymmetric vortex over a slender body, Applied Physics Letters, 2018, 112(1):014101. [8] 孟宣市,蔡晋生. 等离子体激励防除冰的科学问题与机理探索, 第三届全国飞行器结冰与防除冰学术会议论文集. 2018年6月, 成都.[9] 孟宣市,蔡晋生. 等离子体激励防除冰的研究现状与展望, 首届中国空气动力学大会论文集. 2018年8月, 绵阳. [10] 孟宣市,蔡晋生. AC-SDBD等离子体防除冰机理探索, 2018全国工业流体力学会议集. 2018年8月, 北京. [11] Yuqi Qin, Zhengchao Xiang, Xuanshi Meng. Numerical Investigation of Plasma Flow Control over a Flat Plate [C]. Proceedings of 2018 Asia-Pacific International Symposium on Aerospace Technology. Singapore: Springer, APISAT 2018-1061979, 2018.[12] Shiqing Yin, Jia Li, Huaxing Li, and Xuanshi Meng. Plasma Flow Control of Non-bistable Vortex Pair Over a Slender Conical Forebody [C]. Proceedings of 2018 Asia-Pacific International Symposium on Aerospace Technology. Singapore: Springer, APISAT 2018-1059645, 2018.[13] Haoyu Chen, Long Zhou, and Xuanshi Meng. Aerodynamic Characteristics and Plasma Flow Control of Static Hysteresis over an Airfoil at Low Reynolds Numbers [C]. Proceedings of 2018 Asia-Pacific International Symposium on Aerospace Technology. Singapore: Springer, APISAT 2018-1061974, 2018. [14] Chang Li, Haiyang Hu, Xuanshi Meng, Jinsheng Cai, and Hui Hu. Aerodynamic and Thermal Effects of Plasma Actuations on Anti-icing over an Airfoil [C]. Proceedings of 2018 Asia-Pacific International Symposium on Aerospace Technology. Singapore: Springer, APISAT 2018-1061995, 2018. [15] Jiageng Cai, Chang Li, Huaxing Li and Xuanshi Meng. Design and Test of Plasma Control Surface on Unmanned Aerial Vehicle [C]. Proceedings of 2018 Asia-Pacific International Symposium on Aerospace Technology. Singapore: Springer, APISAT 2018-1059630, 2018.2017 年[1] Jinsheng Cai, Yongqiang Tian, Xuanshi Meng, Xuzhao Han, Duo Zhang, Haiyang Hu. An experimental study of icing control using DBD plasma actuator. Experiments in Fluids, August 2017, 58:102.2016年[1]Xuanshi Meng, Zhide Qiao, Chao Gao, Feng Liu, and Shijun Luo. Effect of Dorsal Fin on Symmetry of Vortices over Slender Delta Wing [J]. AIAA Journal, 54( 8) : 2277-2284, 2016.[2]Yuexiao Long, Huaxing Li, Xuanshi Meng, Feng Liu, and Shijun Luo. Influence of Actuating Position on Asymmetric Vortex Control with Nanosecond Pulse DBD Plasma Actuators. IEEE Transactions on Plasma Science, 2016: 1-11.[3] 孟宣市,杨泽人,陈琦,白鹏,胡海洋. 低雷诺数下层流分离的等离子体控制[J]. 航空学报. 37(7): 2112-2122, 2016. [4] Xuanshi Meng, Jinsheng Cai, Yongqiang Tian, Xuzhao Han, Duo Zhang, Haiyang Hu. Experimental Study of Deicing and Anti-icing on a Cylinder by DBD Plasma Actuation. 2016, AIAA Paper 2016-4019.[5] Liu Yang, Xuanshi Meng, Xu Yan, Feng Liu and Shijun Luo. Experimental and Numerical Study of Laminar Separation on Elliptic Airfoil at Low Reynolds Numbers. 2016, AIAA Paper 2016-4342.[6] Haiyang Hu, Huaxing Li, Xuanshi Meng, Xu Yan, Feng Liu, Shijun Luo. Optimization of Dielectric Barrier Discharge Plasma Actuators for Conical-Forebody Flow Control. 2016,AIAA Paper 2016-4018.[7] Haiyang Hu, Huaxing Li, Xuanshi Meng, Jianlei Wang, Feng Liu, Shijun Luo. Phase-Locked Schlieren of Periodic Nanosecond-Pulsed DBD Actuation in Quiescent Air. 2016, AIAA Paper 2016-1696.[8] Xu Yan, Huaxing Li, Xuanshi Meng, Liu Yang, Feng Liu, and Shijun Luo. Separation Control Using Plasma Actuator on an Elliptic Airfoil at Low Reynolds Numbers. 2016, AIAA paper 2016-3622.[9] Li Mingyang, Meng Xuanshi, Li Huaxing, Liu Feng, Luo Shijun. Laminar Separation Bubbles Flow Control over Airfoil Using SDBD Plasma Actuator, 2016, AIAA Paper 2016-0842.[10] Zhao Jinan, Meng Xuanshi, Wang Jianlei, Liu Feng, and Luo Shijun. Pressure Characteristics over 20 deg Cone Forebody at Alpha 35 deg and Re = (0.1-0.9) × 106[C], 2016, AIAA paper 2016-0592.[11] Yuexiao Long, Huaxing Li, Xuanshi Meng, Haiyang Hu, Feng Liu, Shijun Luo. Conical Forebody Flow Control Using Thick Dielectric Barrier Plasma Actuators. 2016, AIAA Paper 2016-0057.2015 年[1] Meng Xuanshi, Yan Xu, Hu Haiyang, Liu Feng, and Luo Shijun. Plasma Laminar Separation Bubble Control over Airfoil at Low Reynolds Numbers, 2015, AIAA Paper 2015-2954.[2] Han Xuzhao, Li Huaxing, Meng Xuanshi, Liu Feng, and Luo Shijun. Effect of Voltage and Frequency on Starting Repetitive Nanosecond Pulsed DBD[C], 2015, AIAA paper 2015-2810. [3] Haiyang Hu, Huaxing Li, Xuanshi Meng,Jianlei Wang, Feng Liu, Shijun Luo. Starting Flow by Repetitive Nanosecond Pulsed DBD Actuation at Microseconds and Milliseconds in Quiescent Air. 2015, AIAA Paper 2015-2956.[4] Zhang Duo, Meng Xuanshi, Wang Jianlei, Liu Feng, and Luo Shijun. Pressures over a Conical Forebody under Repetitive Nanosecond Pulse SDBD Actuations[C], 2015, AIAA Paper 2015-2955.[5] Wang Jianlei, Li Huaxing, Meng Xuanshi, Zhang Duo, Liu Feng, and Luo Shijun. Nanosecond SDBD Actuation over a Conical Forebody at Wind Speed 72 m/s and Angle of Attack 45 degree[C], 2015, AIAA Paper 2015-3310.2014 年[1] Xuanshi Meng, Zhenli Chen, and Ke Song, AC- and NS-DBD plasma flow control research," Proceedings of the 2nd NPU-DLR Workshop on Aerodynamics, DLR, Inst. fur Aerodynamik und Stromungstechnik, DLR-IB 124-2014/5, 1-75 (2014).[2] Yang Zeren, Meng Xuanshi, Li Wenfeng, Cai Jinsheng. Vortex Flow Control over a Delta Wing Using Leading-edge Rudder. 2014, AIAA Paper 2014-0956. [3] Chen Qi, Meng Xuanshi, Wang Yushuai, Luo Shijun and Liu Feng. Comparison of Pressures Driven by Nanosecond Pulses to AC Results[C]. 2014, AIAA Paper 2014-0094.[4] Long Yuexiao, Li Huaxing, Meng Xuanshi,Shijun Luo and Feng Liu. Flow Control over a Conical Forebody Using Pulsed Nanosecond Discharge Actuators [C]. 2014, AIAA Paper 2014-0933.[5] 李结, 李华星, 王健磊, 孟宣市. 纳秒脉冲等离子体对静止大气的激励特性,西北工业大学学报, 32(2): 176-180, 2014.2013年[1] 孟宣市,王健磊,蔡晋生,刘锋,罗时钧. 不同形式等离子体激励对细长体分离涡的控制[J].空气动力学学报, 31(5): 647-651+669, 2013.[2] Meng Xuanshi, Wang Yushuai, Wang Jianlei, Luo Shijun, Liu Feng. Body Force Produced by Plasma Actuator Using PIV and Pressure Measurements. 2013, AIAA Paper 2013-0396.[3] Meng Xuanshi, Wang Jianlei, Cai Jinsheng, Luo Shijun, Liu Feng. Optimal DBD Duty Cycle for Conical Forebody Side-Force Proportional Control. 2013, AIAA Paper 2013-0347. 2012年[1] 孟宣市, 蔡晋生, 罗时钧, 刘锋. 低背鳍对细长平板三角翼分离涡稳定性影响的研究[J].实验流体力学, 26(3): 45-49, 2012.[2] Meng Xuanshi, Wang Jianlei, Cai Jinsheng, Luo Shijun, Liu Feng. Effect of plasma actuation on asymmetric vortex flow over a conical forebody. 2012, AIAA Paper 2012-0787. [3] Tian Bin, Li Huaxing, Meng Xuanshi, Liu Feng, Luo Shijun. Flow control over conical forebody with port pulsed plasma actuator [C]. 2012, AIAA Paper 2012-0289.2011年[1] Meng Xuanshi, Cai Jinsheng, Qiao Zhide, Luo Shijun, Liu Feng. Experimental Investigations on Stability of Vortex Flow over Slender Delta Wing with Dorsal Fin[C]. 2011, AIAA Paper 2011-486.[2] Meng Xuanshi, Cai Jinsheng, Qiao Zhide, Luo Shijun, Liu Feng. Unsteady Plasma Flow Control over Conical Forebody. Proceeding of the Sixth International Conference on Fluid Mechanics, June 30-July 3, 2011, Guangzhou, China. 2010年[1] Meng Xuanshi, Qiao Zhide, Gao Chao, Luo Shijun, Liu Feng. Effect of Dorsal Fin on the Stability of Vortices over a Delta Wing[J]. Modern Physics Letters B, 24(13): 1389-1392. May, 2010.[2] Meng Xuanshi, Guo Zhixi, Luo Shijun, Liu Feng. Ensemble and Phase-Locked Averaged Loads Controlled by Plasma Duty Cycles[C]. 2010, AIAA Paper 2010-878.[3] Meng Xuanshi, Guo Zhixi, Luo Shijun, Liu Feng. Ensemble and Phase-Locked Averaged Loads Controlled by Plasma Duty Cycles[C]. AIAA Paper 2010-878, 2010.[4] 孟宣市, 郭志鑫, 刘锋, 罗时钧. 细长圆锥前体非对称涡流场的等离子体控制[J].航空学报.31(3): 500-505, 2010.2009年[1] 孟宣市, 乔志德, 高超,罗时钧,刘锋. 低背鳍对细长平板三角翼流场影响的PIV测量[J]. 航空学报, 2009, 30(12): 2295-2300. [2] 孟宣市,乔志德,高超,罗时钧,刘锋. 带背鳍平板三角翼分离涡显示与测量[J]. 空气动力学学报, 2009, 27(6): 645-649.[3] 孟宣市,贾春,乔志德,高超,罗时钧,刘锋. 20度圆锥在低速35度迎角下的压力分布特性[J].西北工业大学学报, 2009, 27(2): 145-150. |
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