编辑: Cerise银子 2019-12-07
陈英龙 博士 讲师 办公

电话:+86-411-84725229 通讯地址:大连海事大学船舶与海洋工程学院 电子

邮箱:chenyinglong@dlmu.

edu.cn 教育背景 2008.09 C 2013.06 浙江大学 机械电子工程专业,博士 2004.09 C 2008.06 浙江大学 机械工程及自动化专业,学士 工作履历 2017.03 C 至今大连海事大学 船舶与海洋工程学院,讲师 2013.06 C 2017.03 浙江大学 机械工程学院,助理研究员 研究领域 流体传动及控制 软体机器人 科研项目 [1] 2015.01-2017.12, 伺服电机驱动的水液压比例溢流阀关键技术研究, 辽宁省博士科研 启动基金,主持. [2] 2014.02-2015.02,大型拖网网具集中质量法数值模拟研究,重点实验室开放基金,主持. [3] 2014.05-2014.12,GFJG 项目,中船重工集团第

704 研究所,主持. [4] 2017.05-2017.10,客车静电喷漆自动化系统,河南省锦锋机械设备工程有限公司,主持. [5] 2017.05-2017.10, 气悬浮高速旋杯式静电喷枪装置开发, 河南省锦锋机械设备工程有 限公司,主持. [6] 2014.01-2016.12,多动力源混合驱动,浙江省重点科技创新团队自主设计项目,子项 目主持. [7] 2013.09~2014.09,大型竹k鱼拖网渔具数值模拟,上海海洋大学,主持. 学术成果 代表性论文 [1] Yinglong Chen, Hui Liu, Zengmeng Zhang*, Jiaoyi Hou, Yongjun Gong. Nonlinear Dynamics Modeling and Analysis of Underwater Mud-Penetrator Steering System, IEEE Access, 2018, 6, 51206-51216. [2] Yinglong Chen, Yeming Yao, Hua Zhou, Zengmeng Zhang*. Numerical analysis of a mid-water trawl system with a 6DOF otter board model and sea-trial verification, IEEE Access, 2018, 6, to appear. [3] Ruilong Du, Yinglong Chen, Hua Zhou*. Investigation into the lubricating gap between the ring gear and the case in internal gear pumps. Industrial Lubrication and Tribology, 2018, (70)3: 454-462. [4] 陈英龙, 闫迪, 张增猛*, 宁大勇, 弓永军. 基于水压直驱的软体单元动静态特性研 究, 浙江大学学报(工学版), 2018, 待发表 [5] 陈英龙, 宋男, 张增猛*, 侯交义, 弓永军. 低速域水下遥控机器人水动力试验系统 设计,液压与气动, 2018, (12), 待发表. [6] 陈英龙, 王俊杰, 张增猛*, 弓永军. 基于负载匹配的水下非开挖钻进电液驱动系统 研究,液压与气动, 2018, (12) , 待发表. [7] 赵鹏宇, 陈英龙, 周华,等. 基于转矩预测的混合动力挖掘机控制策略. 机械工程学 报, 2018, 54(1):99-106. [8] 劳立明, 陈英龙, 赵玉刚, 周华. 跟踪微分器的等效线性分析及优化. 浙江大学学报 (工学版), 2018, 52(2): 224-232 [9] Ruilong Du, Yinglong Chen, Hua Zhou*. Numerical analysis of the lubricating gap between the gear shaft and the journal bearing in water hydraulic internal gear pumps. ARCHIVE Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science 1989-1996 (vols 203-210), 2017. [10] Pengyu Zhao, Yinglong Chen, Hua Zhou*. Simulation analysis of potential energy recovery system of hydraulic hybrid excavator. International Journal of Precision Engineering &

Manufacturing, 2017, 18(11):1575-1589. [11] Zhou H, Zhao P Y*, Chen Y L, et al. Prediction-based stochastic dynamic programming control for excavator[J]. Automation in Construction, 2017, 83:68-77. [12] Zhou H, Zhao P Y*, Chen Y L. Fuzzy logic control for a hydraulic hybrid excavator based on torque prediction and genetic algorithm optimization. Proceedings of the Institution of Mechanical Engineers Part D Journal of Automobile Engineering, 2017:095440701772459. [13] Hua Zhou,Liming Lao, Yinglong Chen, Huayong Yang. Discrete-time sliding mode control with an input filter for an electro-hydraulic actuator. Iet Control Theory &

Applications, 2017, 11(9):1333-1340. [14] 丁加新, 陈英龙, 周华. 水辅成型浮动芯注射对制品残余壁厚的影响. 浙江大学学 报(工学版), 2017, 51(5):937-945. [15] Yeming Yao, Yinglong Chen, Hua Zhou*. Numerical modeling of current loads on a net cage considering fluidCstructure interaction, Journal of Fluids and Structures, 2016, 62: 350-366. [16] Yeming Yao, Yinglong Chen, Hua Zhou*. A method for improving the simulation efficiency of trawl based on simulation stability criterion, Ocean Engineering, 2016, 117: 63-77. [17] Wei Song, Yinglong Chen, Hua Zhou*. Investigation of fluid delivery and trapped volume performances of Truninger gear pump by a discretization approach. Advances in Mechanical Engineering, 2016, 8(10). [18] Pengyu ZHAO, Yinglong CHEN, Hua ZHOU. Potential Energy Recovery System of Hydraulic Hybrid Excavator. Proceedings of the

2016 Bath/ASME Symposium on Fluid Power and Motion Control, 2016: V001T01A007. [19] 杜睿龙, 陈英龙, 周华. 新型高速单柱塞轴向柱塞泵配流机构. 浙江大学学报(工学 版), 2016, 50(10):1902-1910. [20] 赵鹏宇, 陈英龙, 周华, 杨华勇. 油液混合动力挖掘机势能回收及能量管理策略. 浙 江大学学报(工学版), 2016,50(5):893-901. [21] 赵鹏宇, 陈英龙, 周华. 油液混合动力工程机械系统及控制策略研究综述,浙江大 学学报(工学版), 2016,50(3):449-459. [22] 赵鹏宇, 陈英龙, 孙军, 周华. 基于液压平衡的试油试采系统建模与仿真, 浙江大学 学报(工学版), 2016,50(4):650-656. [23] Ruilong Du, Yinglong Chen, Hua Zhou. Investigation on sealing gap between ring gear and case in internal gear machines. International Conference on Fluid Power and Mechatronics, August 5-7, 2015, Harbin, China. IEEE, 2015: 256-261. [24] Yinglong Chen, Hua Zhou*, Yonggang Zhao, Jiaoyi Hou. Fuzzy Robust H2/H∞ Path Tracking Strategy of an Active Semi-pelagic Trawl System with Coordinated Ship and Winch Regulation, Journal of Central South University, 2014,21(1):167-179. [25] Yao Y, Zhou H, Chen Y, et al. Stability Analysis of a Pilot Operated Counterbalance Valve for a Big Flow Rate. ASME/BATH

2014 Symposium on Fluid Power and Motion Control. American Society of Mechanical Engineers, 2014:V001T01A005. [26] 陈英龙, 赵勇刚, 周华*, 黄洪亮, 大型中层拖网网具系统的仿真研究, 浙江大学学 报(工学版), 2014,48(4):625-632. [27] Hua Zhou, Yinglong Chen*, Huayong Yang. Robust Optimal Output Tracking Control of a Midwater Trawl System Based On T-S Fuzzy Nonlinear Model, China Ocean Engineering, 2013, 27(1):1-16. [28] Hua Zhou, Yinglong Chen*, Zengmeng Zhang, Huayong Yang. Simulation and Experiment Research on the Proportional Pressure Control of Water Assisted Injection Molding, Chinese Journal of Mechanical Engineering, 2012, 25(3): 430-438. [29] 陈英龙, 周华, 张增猛. 水辅与气辅成型残余壁厚的对比研究. 中国塑料, 2012(6):71-75. [30] 孔虎子, 周华, 陈英龙. 水辅成型技术在自行车前叉上的应用. 现代塑料加工应用, 2012, 24(6):50-53. [31] 邵勇, 刘勇, 陈英龙. 专家 PID 在过滤器多次通过试验温度控制系统中的应用. 液 压与气动, 2012(10):95-99. [32] Yinglong Chen, Hua Zhou. Neural Network Control Approach of a Midwater Trawl System Based on Feedback Linearization,

2011 International Conference on Fluid Power and Mechatronics (FPM), 2011,138-143. [33] 周华, 陈英龙*, 张增猛, 何建军. 水辅成型非圆截面制件残余壁厚的仿真与试验研 究, 机械工程学报, 2010, 46(18): 169-176. [34] 张增猛, 周华, 陈英龙. 纯水比例溢流阀控制特性与补偿方法的研究. 浙江大学学 报(工学版), 2010, 44(11):2093-2099. 专利........

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