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个人简介

马震岳,1962年出生,河南省南阳市人,教授,博士生导师,水利电力研究所所长。1978年考入大连理工大学水利水电工程专业,1988年获得博士学位,1995年晋升为教授。曾在日本九州工业大学和加拿大多伦多大学开展访问研究。曾担任大连理工大学建设工程学部党委书记和副部长,兼任中国水力发电工程学会常务理事。 主要研究方向为水轮发电机组动力学和水电站结构静动力分析。近年,在国家自然科学基金和科技支撑计划等课题的支持下,结合李家峡、三峡、小湾、溪洛渡、拉西瓦、瀑布沟、糯扎渡、锦屏一级、两河口、景洪、白鹤滩等重大工程,大型抽水蓄能电站以及阿莱瓦、巴贡、耶涯、密松等国际工程建设,开展关键科学技术问题攻关研究,成果得到广泛工程应用。参与或主持的多项成果曾获国家科技进步二等奖和省部级科技进步奖。曾获得“做出突出贡献的中国博士学位获得者”、“中国第三届青年科技奖”、“辽宁省青年先进(科技)工作者”、“大连市第二届青年科技奖”、辽宁省优秀专家等荣誉称号,入选辽宁省首批“百千万人才工程”百人层次。 担任《中国水利百科全书•水力发电分册》副主编,出版专著《水轮发电机组动力学》,《水电站机组及厂房振动的研究与治理》,《水电站厂房和机组耦合动力学理论及应用》等。 教育经历 1985.91988.7大连理工大学水力发电博士 1982.91985.7大连工学院水工硕士 1978.91982.7大连工学院水工学士 工作经历 1995.8至今大连理工大学教授 1991.121995.8大连理工大学副教授 1988.121991.12大连理工大学讲师 1985.51988.12大连理工大学助教 其他奖励 大连市人民政府特殊津贴 (2012年) 大连市第五批优秀专家 (2010年) 科研奖励 教学成果奖(研究生类) 中国水力发电科学技术奖 东北电网有限公司科技进步奖 水利部长江水利委员会科技进步奖 湖北省科技进步奖 大连理工大学优秀教学成果一等奖(研究生类) 辽宁省优秀教学成果一等奖 辽宁省优秀教学成果奖三等奖 中国水力发电科学技术奖 2017年大连理工大学优秀教学成果一等奖 2017年第二届高等学校水利类专业教学成果一等奖

研究领域

水轮发电机组动力学 水工水电站建筑物结构静动力分析(大坝,厂房,蜗壳及压力管道,地下结构,进水塔等) 水工水电站水力学

近期论文

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马震岳.60188 The coupled dynamic analysis of hydroelectric unit and powerhouse considering the bolt conn...[A],30TH IAHR SYMPOSIUM ON HYDRAULIC MACHINERY AND SYSTEMS (IAHR 2020),2022,774 Wu, Qianqian.A model establishment and numerical simulation of dynamic coupled hydraulic-mechanical-electric...[J],NONLINEAR DYNAMICS,2022,87(1):459-474 Chen, Li-Jun.Analytical approach for support mechanism of feet-lock pipe combined with steel frame in weak r...[J],KSCE Journal of Civil Engineering,2022,20(7):2965-2980 Xu, Wei.Analysis on Vibration Conductivity in Walls of Hydropower House Based on Power Flow Theory[A],2nd International Conference on Engineering Materials, Energy, Management and Control,2022,424-425:285-+ 康飞.An artificial bee colony algorithm for locating the critical slip surface in slope stability an...[J],ENGINEERING OPTIMIZATION,2022,45(2):207-223 康飞.An improved artificial bee colony algorithm[A],2nd International Workshop on Intelligent Systems and Applications, ISA2010,2022 孙涛.APPLICATION OF FSI ON TURBOMACHINERY[A],Asia-Pacific Power and Energy Engineering Conference (APPEEC),2022 王刚.Application of Probabilistic Method to Stability Analysis of Gravity Dam Foundation over Multip...[J],MATHEMATICAL PROBLEMS IN ENGINEERING,2022,2016 康飞.Artificial bee colony algorithm with local search for numerical optimization[J],软件学报,2022,6(3):490-497 Li, Mengyao.ASS-GPR: Adaptive Sequential Sampling Method Based on Gaussian Process Regression for Reliability...[J],INTERNATIONAL JOURNAL OF GEOMECHANICS,2022,21(10) Yang, Xiaoming.A study on nonlinear dynamic stability of labyrinth seal-rotating wheel system in hydraulic tur...[A],6th World Congress on Intelligent Control and Automation,2022,1:888-+ Zhu, S.J..Creep behaviour of aluminum strengthened by fine aluminum carbide particles and reinforced by sil...[J],MATERIALS SCIENCE AND ENGINEERING A STRUCTURAL MATERIALS PROPERTIES MICROST,2022,282(1):273-284 Zhang, Jinjian.Coupled bending-torsional vibration analysis for rotor-bearing system with rub-impact of hydrauli...[J],CHAOS SOLITONS & FRACTALS,2022,147 温倩.电力系统故障对水轮发电机组转子-轴承系统 稳定性影响分析[J],水利与建筑工程学报,2022,17(4):242-248,264 宋志强.考虑厂房基础耦联作用的水轮发电机组轴系统动力反应分析[J],振动与冲击,2022,6:158-161 王刚.考虑重力坝纵缝结合程度的非线性有限元数值模拟[J],水力发电学报,2022,28(2):41-46 马震岳.Nonlinear Dynamic Characteristic Analysis of the Shaft System in Water Turbine Generator Set[J],Chinese Journal of Mechanical Engineering,2022,22(1):124-131 Xu, Xinyong.NONLINEAR FEM ANALYSIS OF THE SPIRAL CASE KEEPING CONSTANT INTERNAL PRESSURE BASED ON SIMULATIO...[A],16th Asia and Pacific Division Congress of the International Association of Hydraulic Engineering and Research/3rd IAHR International Symposium on Hydraulic Structures,2022,1718-+ Zhang, L. K..Numerical analysis of a rub-impact rotor-bearing system for hydraulic generating set[A],26th IAHR Symposium on Hydraulic Machinery and Systems,2022,15(PART 7) Xu, Xinyong.Numerical Simulation of Temperature and Creep of Concrete Surrounding Spiral Case in a Hydrauli...[A],2nd International Conference on Manufacturing Science and Engineering,2022,194-196:977-+ 马震岳.Path transmissibility analysis considering two types of correlations in hydropower stations[J],Journal of Applied Mathematics,2022,34(4):201-210 康飞.Reliability Analysis of Earth Slopes Using Differential Evolution[A],International Conference on Structures and Building Materials,2022,163-167:3099-3102 康飞.Reliability Analysis of Earth Slopes Using Differential Evolution[J],Advanced materials research,2022,163(1):3099-3102 Xu, Wei.Research on Nonlinear Simulation of Spiral Case in High Head Hydropower Station[A],International Conference on Industry, Information System and Material Engineering,2022,204-210:1904-1909 Zhi, B. P..Research on the hydraulic turbine vertical vibration power flow in the head cover system[A],26th IAHR Symposium on Hydraulic Machinery and Systems,2022,15(PART 4) 张宏战.Research on simulation technique for fixed guide vanes in axialsymmetric models for spiral cases[A],Advanced Material Research,2022,671:873-878 张宏战.Research on Simulation Technique for Fixed Guide Vanes in Axial Symmetric Models of Spiral Case[A],International Conference on Structures and Building Materials (ICSBM 2013),2022,671-674:873-878 张宏战.Research on Stiffness of Generator Pedestals in Pushihe Pumped Storage Staion.[A],Proceedings of 2010 Conference on Modern Hydaraulic Engineering,2022,1075-1082 Song, Bingwei.Rotordynamic Moment on the Backshroud of a Francis Turbine Runner Under Whirling Motion[J],JOURNAL OF FLUIDS ENGINEERING TRANSACTIONS OF THE ASME,2022,132(7):0711021-0711029 Xu, Xinyong.Sensitivity Analysis of Large Unit Spiral Case for Different Reinforcement Arrangement[A],International Conference on Advanced Materials and Computer Science,2022,474-476:1855-+ Zhu, He.Seismic Time-history Analysis of Gravity Dam Based on Nonlinear Finite Element Method[A],ADVANCES IN CIVIL STRUCTURES, PTS 1 AND 2,2022,351-352:1047-1051 王刚.Seismic Time-history Analysis of Gravity Dam Based on onlinear Finite Element Method[J],Applied Mechanics and Materials,2022,352(1):1047-1051 Xu, Xin-Yong.Simulation algorithm for spiral case structure in hydropower station[J],Water Science and Engineering,2022,6(2):230-240 马震岳.Static and dynamic damage analysis of mass concrete in hydropower house of Three Gorges Project[J],Transactions of Tianjin University,2022,16(6):433-440 马震岳.Study on dynamic characteristics of rotor-bearing model in the hydraulic-mechanical-electric coup...[A],16th International Symposium on Transport Phenomena and Dynamics of Rotating Machinery, ISROMAC 2016,2022 Xu, Wei.Study of the Vibration Transmission and Path Recognition of an Underground Powerhouse Using Ene...[J],SHOCK AND VIBRATION,2022,2016 王刚.Study on Instability Probabilistic Risk of Gravity Dam Foundation Using Fuzzy-random Method[A],35th World Congress of the International-Association-for-Hydro-Environment-Engineering-and-Research (IAHR),2022,1244-1253 张宏战.Research on Stiffness of Generator Pedestals in Pushihe Pumped Storage Station[A],Conference on Modern Hydraulic Engineering,2022,14-18 康飞.Rosenbrock artificial bee colony algorithm for accurate global optimization of numerical functi...[J],INFORMATION SCIENCES,2022,181(16):3508-3531 Song, Bingwei.FLUID FORCE MOMENTS ACTING ON THE BACKSHROUD OF A FRANCIS TURBINE RUNNER IN WHIRLING AND PRECES...[A],8th IFToMM International Conference on Rotor Dynamics (IFToMM Rotordynamics),2022,1087-1095 王刚.Hybrid particle swarm optimization for first-order reliability method[J],COMPUTERS AND GEOTECHNICS,2022,81:49-58 张宏战.ibration Response Analysis of Large-Scale Hydropower House Under Vibration Loads of Hydroelectric...[A],Proceedings of 2011 Asia-Pacific Power and energy Engineering Conference,2022,1:561-564 Zhao, Bao-You.Influence of cavern spacing on the stability of large cavern groups in a hydraulic power statio...[J],INTERNATIONAL JOURNAL OF ROCK MECHANICS AND MINING SCIENCES,2022,46(3):506-513 王刚.Identification of frictional coefficients of gravity dam longitudinal joints using FE-contact met...[A],第二届结构工程新进展国际论坛,2022,720-729 马震岳.The Dynamic Analysis of Hydropower House and Unit System in Coupled Hydraulic-mechanical-electr...[A],28th IAHR Symposium on Hydraulic Machinery and Systems (IAHR),2022,49(5) 马震岳.Time-frequency domain identification of dynamic loads on hydropower station[A],HYPERBOLE SYMPOSIUM 2017 (HYDROPOWER PLANTS PERFORMANCE AND FLEXIBLE OPERATION TOWARDS LEAN INTEGRATION OF NEW RENEWABLE ENERGIES),2022,813(1) Zhang, Leike.Transient vibration analysis of unit-plant structure for hydropower station in sudden load incr...[J],MECHANICAL SYSTEMS AND SIGNAL PROCESSING,2022,120:486-504 张宏战.Vibration Response Analysis of Large-Scale Hydropower House Under Vibration Loads of Hydroelect...[A],Asia-Pacific Power and Energy Engineering Conference (APPEEC),2022 Zhang, Leike.Vibration analysis of coupled bending-torsional rotor-bearing system for hydraulic generating s...[J],ARCHIVE OF APPLIED MECHANICS,2022,86(9):1665-1679 马震岳.Dynamic response analysis of powerhouse under turbine pressure pulsation with different distrib...[A],IAHR INTERNATIONAL WORKSHOP ON CAVITATION AND DYNAMIC PROBLEMS IN HYDRAULIC MACHINERY AND SYSTEMS,2022,405(1) 陈婧.Dynamic Responses of the Powerhouse Structure of Hydropower Stations Due to Hydraulic Excitation[J],Applied Mechanics and Materials,2022,105(1):233-237 Zhang, Leike.Dynamic characteristics of a rub-impact rotor-bearing system for hydraulic generating set under...[J],ARCHIVE OF APPLIED MECHANICS,2022,83(6):817-830 Zhi, Baoping.Disturbance analysis of hydropower station vertical vibration dynamic characteristics: the effe...[J],STRUCTURAL ENGINEERING AND MECHANICS,2022,53(2):297-309 Wu, Qianqian.Expansion and Reconstruction of Comprehensive Characteristic Curve for Water Turbine Based on Eng...[J],应用基础与工程科学学报,2022,27(5):996-1007 Song, Bingwei.Fluid Force Moment on the Backshroud of a Francis Turbine Runner in Precession Motion[J],JOURNAL OF FLUIDS ENGINEERING TRANSACTIONS OF THE ASME,2022,132(5):0511081-0511088 张存慧.巨型电站直埋式蜗壳结构非线性分析[J],水电能源科学,2022,27(6):118-120 张存慧.巨型电站直理式蜗壳结构非线性分析[J],水电能源科学,2022,27(06):118-120+89 陈维江.建立大坝安全监控数学模型的一种新方法[J],水利学报,2022,8:91-96 杨静.张河湾抽水蓄能电站厂房机墩组合结构刚度复核[J],水力发电,2022,32(12):33-35 赵红梅.弹性金属塑料瓦推力轴承润滑性能分析[J],润滑与密封,2022,01:14-19 马震岳.弹性金属塑料瓦推力轴承热弹流动力润滑分析数值方法[J],大连理工大学学报,2022,Z1:90-94 岳晨雨.接触单元在桩-土接触模拟中的应用研究[J],黑龙江大学工程学报,2022,3:1-5 马震岳.推力轴承油膜刚度的三维热弹流动力润滑计算[J],大连理工大学学报,2022,31(1):101 马震岳.推力轴承油膜刚度的二维热弹流动力润滑计算[J],大连理工大学学报,2022,30(2):205 马震岳.推力轴承的三维有限元动力润滑计算[A],建国四十年水电设备成就学术讨论会论文集中国电机工程学会;中国水力发电工程学会,2022,408~416页 王阳雪.抽水蓄能电站厂房振源浅析[A],2005年全国抽水蓄能学术年会,2022,187-193 卫洋波.抽水蓄能电站地下主副厂房振动传递途径研究[J],水利与建筑工程学报,2022,15(4):101-106 马震岳.抽水蓄能电站地下厂房智能优化识别研究[A],2004年水力发电国际研讨会论文集(下册)中国水利学会;中国水利发电工程学会,2022,242-248 陈婧.抽水蓄能电站地下厂房机墩结构刚度分析与设计优化[J],武汉大学学报 工学版,2022,42(4):456-460 郭德昌.抽水蓄能电站地下厂房相邻机组段间振动的相互影响[J],水利与建筑工程学报,2022,19(03):50-56 郭锋.抽水蓄能电站地下洞室初始地应力场反演分析——基于神经网络和快速拉格朗日算法[J],地下空间与工程学报,2022,2:208-212 孙万泉.抽水蓄能电站振源特性分析研究[J],水电能源科学,2022,04:78-80 马震岳.抽水蓄能电站机组钢筋混凝土支承结构固有振动分析与共振校核[J],应用基础与工程科学学报,2022,02:8-13 孙万泉.抽水蓄能电站水力振源特性分析研究[A],第十五次中国水电设备学术讨论会论文集中国电机工程学会;中国水力发电工程学会;中国动力工程学会;中国水利学会,2022,96-103 徐伟.抽水蓄能电站蜗壳结构非线性有限元仿真分析[J],人民黄河,2022,34(1):105-107 罗乾坤.数值计算模型对地下厂房动力特性的影响分析[J],地下空间与工程学报,2022,S2:872-881 宋兵伟.旋转圆盘涡动过程中的流体力矩试验[J],水力发电学报,2022,30(2):143-150 王溢波.景洪水电站机组与厂房现场振动试验研究与计算分析[J],水力发电,2022,6:56-60 马震岳.有限元法分析水电机组轴系的临界转速[J],水电站机电技术,2022,04:5-10+17 马震岳.某水电站地下厂房岩锚吊车梁三期浇筑可行性分析[J],水电能源科学,2022,03:66-69

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