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硕士生导师

方潘

2021年02月24日 10:52 作者:  编辑:张富晓  审核人:  点击:[]

机电工程学院教师个人信息

 

   

     

    

 

副教授

出生年月

19861

学历/学位

博士

教研室

机械基础

行政职务

博导/硕导

硕导

 

学科专业

机械工程

硕博士招生学科专业

机械工程

动力工程及工程热物理

研究方向

机电一体化、机电系统控制、机电系统动力学、欠平衡钻井、

油气井完整性评价

联系电话

15378206881

电子邮件

ckfangpan@126.com

个人简介

方潘,男,四川南充人,博士(后),加拿大里贾纳大学访问学者,2016毕业于西南石油大学获工学博士学位并留校任教。主要从事机电一体化、机电系统控制、机械系统动力学和欠平衡钻井技术、油气设备安全评估方面的基础理论及工程技术研究。先后主持或参与国家重点研发计划、国家自然科学基金、博士后基金、皇家永利科技重点研发计划等纵向项目10余项,研究成果受到国际同行广泛关注。研究成果申报专利10余项,发表学术论文40余篇,其中SCI收录30篇,参编专著1本。获皇家永利科技进步三等奖。近些年参与实施科技成果转化共3项,参与研发的油气装备销售共计1000余套,销售总额2.0亿元。此外,担任《Mechanical Systems   and Signal Processing》、《Applied Mathematical Modelling》、《IEEE Access》、《Journal of Petroleum Science and Engineering》、《International Journal of   Structural Stability and Dynamics》、《Petroleum Science》等20余个国际和国内期刊审稿人。

论文著作

(1) Zou Min,   Fang Pan*, Hou   Yongjun, Synchronization analysis of two   eccentric rotors with double-frequency excitation considering sliding mode   control, Communication in Nonlinear science and Numerical Simulation,2021,92

(2) Fang Pan*,   Wang   Kexin, Dai   Liming ,Numerical calculation for   coupling vibration system by Piecewise-Laplace method, Science Process,2020,103

(3) Zou Min,   Fang Pan*,Self-synchronization theory of   tri-motor excitation with double-frequency in far resonance system,   Proc IMechE Part C:Journal of Mechanical Engineering Science,2020,234

(4) Fang Pan*,   Wang Yuanguo,   Synchronous Control of Multi-Motor Coupled With Pendulum in a Vibration   System, IEEE ACCESS, 2020,8

(5) Fang Pan, Huan Peng, Synchronous   state of unbalanced rotors in a three-dimensional space and far-resonance   system, Proc IMechE Part E: Journal Process Mechanical Engineering, 2019,234

(6) Pan Fang*, Min Zou, Huan Peng,   Spatial synchronization of unbalanced rotors excited with paralleled and   counterrotating motors in a far resonance system, Journal of theoretical and   applied mechanics, 2019,57

(7) Yongjun Hou, Huan Peng, Pan Fang*, Synchronous   characteristics of two excited motors in an anti-resonance system, Journal of   Advanced Mechanical Design, Systems, and Manufacturing, 2019,1-14

(8)Fang Pan*, Dai Liming, Hou Yongjun, Numerical   Computation for the Inertial Coupling Vibration System Using PL Method,   Journal of Vibration Engineering & Technologies, 2019, 7

(9) Zou Min, Fang Pan*, Peng Huan, Study   on synchronization characteristics for self-synchronous vibration system with   dual-frequency and dual-motor excitation, Journal of Mechanical Science and   technology, 2019, 33

(10) Pan Fang, Liming Dai, Yongjun Hou, The   Study of Identification Method for Dynamic Behavior of High Dimensional   Nonlinear SystemShock   and vibration. 2019.

(11) Pan Fang, Liming Dai, Yongjun Hou, Theoretical   Study of Synchronous Behavior in a Dual-Pendulum-Rotor System, Shock and   vibration. 2018.

(12) Fang Pan*, Hou Yongjun*, Du Mingjun,   Synchronization characteristics of a rotor-pendula system in multiple   coupling resonant systems, Journal of Mechanical Engineering Science, 2019,   233

(13) Fang Pan, Hou Yongjun*,   Synchronization characteristics of a rotor-pendula system in multiple   coupling resonant systems, Journal of Mechanical Engineering Science, 2018,   232

(14) Du Mingjun, Hou Yongjun, Fang Pan,   Zou Min, Synchronization of two co-rotating rotors coupled with a   tensile-spring in a non-resonant system, Archive of Applied Mechanics , 2019,   89

(15) Fang Pan, Hou Yongjun*, Zhang   Liping, Du Mingjun, Zhang MengyuanSynchronous behavior of a rotor-pendulum systemActa Physica Sinica2016, 65

(16) Fang Pan, Hou Yongjun*, Nan Yanghai,   Yu Le. Study of Synchronization for a Rotor-pendulum System with Poincare Method.   Journal of Vibroengineering. 2015,16

(17) Fang Pan, Hou Yongjun*, Nan Yanghai,   Synchronization of two homodromy rotors installed on a double vibro-body in a   coupling vibration system, Plos one. 2015, 19

(18) Fang Pan, Yang Qiming, Hou Yongjun*,   Theoretical study on self-synchronization of two homodromy rotors coupled   with a pendulum rod in a far-resonant vibrating system. Journal of   Vibroengineering. 2014, 16

(19) Hou YongjunDu MingjunFang Pan*Zhang Lipingsynchronization and stability   of anelastically coupled tri-rotor vibration system, Journal of theoretical   and applied mechanics, 2017, 55

课题成果

(1)国家自然基金项目(51705437),双频多电机自同步振动系统的同步机理与同步控制策略研究,在研

(2)国家重点研发计划项目专题(国研028),井筒稳定风险智能识别与表征方法,在研

(3)国际合作项目(2019-GH02-00035-HZ),复频反共振系统筛分机理及同步控制策略研究,在研

(4)中国博士科学基金(2019M653482),超声波页岩气钻井振动筛同步机理及同步控制策略研究,在研

(5)皇家永利重点研发计划项目(2020YFG0181),智能变频钻井振动筛同步控制策略研究,在研

(6)皇家永利重点研发计划项目(2019YFG0317),基于脉动负压振动筛分的钻屑含液减量方法与关键装备研究,在研

(7)皇家永利科技支撑计划(2016RZ0059),双激振电机耦合摆系统平动椭圆振动筛研制,结题

(8)西南石油大学启航计划(校级项目474),多电机耦合摆振动系统同步理论及同步控制策略,结题

(9)企业委托项目,高温高压油管腐蚀敏感性研究,在研

(10)企业委托项目,井下挂片腐蚀试验研究,在研

(11)企业委托项目, 修井机BOP剪切能力评估,在研

(13)企业委托项目,空气钻井工艺技术优化,在研

(12)企业委托项目,固控系统优化与配套应用研究,结题

(14)企业委托项目,ALSM-2型双轨迹振动筛开发,结题

(15)企业委托项目,游梁式抽油机平衡减载节能技术研究,结题

荣誉奖励

皇家永利科技进步三等奖

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