教授
E-mail:yongliangzhang@mail.tsinghua.edu.cn
电话号码:010-62797802
传真:010-62773046
通信地址:清华大学水利水电工程系
邮编: 100084
![]() 张永良
教授 E-mail:yongliangzhang@mail.tsinghua.edu.cn 电话号码:010-62797802 传真:010-62773046 通信地址:清华大学水利水电工程系 邮编: 100084 教育背景 1997~2000,英国阿伯丁大学,博士 1982~1989,清华大学水利系,学士、硕士 工作履历 2006~至今,清华大学水利系,教授,博导 2000~2003,英国帝国理工学院,博士后 1990~1996,交通部水运规划设计院,工程师 开设课程 1) 计算流体力学 2) 海岸科学与工程概论 3) 海洋资源与能源 4) 水工程设计 5) 工程流体力学专题 研究领域 海洋波浪能发电技术; 海洋流体-结构相互作用; 大型浮式结构技术。 科研项目 国家自然科学基金重点项目(50539070) 海洋波浪发电装置研发(2009THZ07060) 波浪发电新技术研究(51879144、51679124、51479092、51079072、51079072) 波浪能海水淡化技术研究(2010THZ07) 跨海大桥波流力试验研究(2010-2011) 跨海大桥桥墩冲刷物模和数模研究(2010-2011) 海洋结构水下健康监测和安全预警系统研究(2010-2012) 学术兼职 中国灾害防御协会智慧应急专业委员会委员 中国可再生能源学会海洋能专委会委员 教育部新世纪优秀人才支持计划 学术成果 [1] Zheng, Siming; Zhang, Yongliang; Iglesias, Gregorio,(2020) Concept and performance of a novel wave energy converter: Variable Aperture Point-Absorber (VAPA), RENEWABLE ENERGY 153:681-700. [2] Zheng, Siming; Zhang, Yongliang; Iglesias, Gregorio (2020) Power capture performance of hybrid wave farms combining different wave energy conversion technologies: The H-factor, ENERGY 204. [3] Zheng, Siming; Miles, Jon; Greaves, Deborah; Zhu, Guixun; Iglesias, Gregorio; Antonini, Alessandro; Zhang, Yongliang (2020) Hydrodynamic performance of a multi-Oscillating Water Column (OWC) platform, Applied Ocean Research 99. [4] Zheng, Siming; Iglesias, Gregorio; Zhang, Yongliang; Liu, Jiabin (2020) Wave diffraction from multiple truncated cylinders of arbitrary cross sections, Applied Mathematical Modelling 77:1425-1445. [5] Zheng, Siming; Zhang, Yongliang; Liu, Yingyi; Iglesias, Gregorio,(2019) Wave radiation from multiple cylinders of arbitrary cross sections, OCEAN ENGINEERING 184: 11-22. [6] Zheng, Siming; Zhang, Yongliang; Iglesias, Gregorio,(2019) Coast/breakwater-integrated OWC: A theoretical model, MARINE STRUCTURES 66: 121-135. [7] Zheng, Siming; Zhang, Yongliang,(2018) Theoretical modelling of a new hybrid wave energy converter in regular waves, RENEWABLE ENERGY,128:125-141. [8] Siming Zheng,Yongliang Zhang* (2018) Analytical study on wave power extraction from a hybrid wave energy,Ocean Engineering,165:252~263. [9] Siming Zheng, Yongliang Zhang (2017) Analysis for wave power capture capacity of two interconnected floats in regular waves. Journal of Fluids and Structures 75:158–173. [10] Cen Yang, Yongliang Zhang. (2017) Numerical study on the hydrodynamic behavior and capture width ratio of a two-buoy wave energy converter. Journal of Hydrodynamics, Ser.B. [11] Zheng, S.M., Zhang, Y.L., (2017) Analytical study on hydrodynamic performance of a raft-type wave power device. Journal of Marine Science and Technology. 22:620–632. [12] Yu, Hui-Feng; Zhang, Yong-Liang; Zheng, Si-Ming, Numerical study on the performance of a wave energy converter with three hinged bodies, Renewable Energy, 2016.12, 99: 1276~1286. [13] Zheng, S., Zhang, Y.L., Sheng, W. (2016) Maximum wave energy conversion by two interconnected floaters. Journal of Energy Resources Technology. May 138: 032004-1~11. [14] Zheng, S., Zhang, Y.L., (2016) Wave radiation from a truncated cylinder in front of a vertical wall. Ocean Engineering. 111:602-614. [15] Zheng, S.M., Zhang, Y.L., Sheng, W.A. (2016) Maximum power absorption of connected floating bodies under motion constraints. Applied Ocean Research. 58:95-103. [16] Lin Z, Zhang Y.L. (2016) Dynamics of a mechanical frequency up-converted device for wave energy harvesting. Journal of Sound and Vibration,367:170-184. [17] Chen, W.C., Zhang, Y.L., Yu, W.F. (2016) Numerical study on the performance of a twin-raft wave energy dissipator in a stilling basin. Journal of Fluids and Structures, 66:170–182. [18] Zheng, S.M., Zhang, Y.L., (2016) Wave diffraction and radiation by multiple rectangular floaters. Journal of Hydraulic Research. 54(1): 102-115. [19] Zheng, S.M, Zhang, Y.L., (2015) Wave diffraction from a truncated cylinder in front of a vertical wall. Ocean Engineering, Aug 1, 2015, 104:329-343. [20] Zheng, S.M., Zhang, Y.H., Zhang, Y.L., Sheng W.A., (2015) Numerical study on the dynamics of a two-raft wave energy conversion device. Journal of Fluids and Structures. Oct 2015, 58:271–290 [21] Liu, Q.L., Zhang, Y.L. (2015) Numerical study of wave energy resources in Zhaitang Island sea area, Journal of Hydroelectric Power,34(11):1-9. [22] Liu, S., Zhang, Y.L. (2015) Numerical simulation of multidirectional irregular wave group propagation. J Tsinghua Univ (Sci & Technol), 55(12):1289-1295. [23] Yang, C., Zhang, Y.L. (2015) Experimental study on operation characteristics of oscillating buoy wave energy converters. Journal of Hydroelectric Power. 35(7): 120-126. [24] Liang, SenDong., Zhang, YongLiang., Yang, James. (2015). An experimental study on pile scour mitigating measures under waves and currents. Sci China Tech Sci. 58(6):1031-1045. [25] Zhang, Y.L., Lin, B. 2014. Advance in Marine Energy Technology. Tsinghua University Press, Beijing. [26] Zhang, Y.L., Lin, Z., Liu, Q.L. (2014) Marine renewable energy in China: Current status and perspectives. Water Science and Engineering. 7(3): 288-305. [27] Liu, Qiulin, and Zhang, Yongliang. Hydrodynamic study of phase-shift tidal power system with Y-shaped dams. Journal of Hydraulic Research,2014, 52(3): 356-365. [28] Yang, C., Zhang, Y.L. (2013) Experimental study on operation performance of wave-driven pressure pump. Journal of Hydraulic Engineering,44(9):1107-1111. [29] Chen, W.C., Zhang, Y.L. 2013. Numerical study on conversion efficiency from wave energy to hydraulic energy by raft-type wave energy converters. Journal of Hydroelectric Power, 32(05):191-196. [30] Zhang, Y.L. 2011. Fluid-Structure Dynamic Interaction. Academy Press, Beijing. [31] Si Liu, Yongliang Zhang. Numerical simulation of second-order irregular wave groups. Proceedings of the 24th International Offshore and Polar Engineering Conference, Busan, June 15-20, 2014, 884-889. [32] WC Chen, YL Zhang, SM Zheng. Advance in the Study of Wave Energy Dissipation of Floating Bodies[C]. Grand Renewable Energy 2014 Proceedings (2nd Asian Wave and Tidal Energy Conference), 27 July-1 August 2014, Tokyo, Japan, O-Oc-7-5. [33] HF Yu, YL Zhang, QL Liu. Study of Energy Storage and Stabilization Technology Based on Wave Energy Hydraulic Pump[C], Grand Renewable Energy 2014 Proceedings, 27 July-1 August 2014, Tokyo, Japan, O-Oc-19-2. [34] Qiulin Liu, Tony Lewis, Yongliang Zhang, Wanan Sheng. Exprimental Study on the wave measurements of wave buoys[C]. 2014 International Conference on Ocean Energy. Nov 4-6, 2014, Halifax Canada [35] Cen Yang, Yongliang Zhang. Experimental study on operation performance of wave pressure pump[C]. 1st International Conference on Renewable Energies Offshore, 24-26 November, 2014, Lisbon, Portugal. [36] Liu, S., Zhang, Y.L., Liu, S.X., Li, J.X. and Xia, Z.S. (2013) The physical simulation of wave groups and their variations in a wave flume. Acta Oceanologica Sinica. 32(11): 1-6. [37] Sendong Liang, James Yang, Yongliang Zhang. An experimental study of scour countermeasures for offshore piles in marine environment. Proceeding of 35 IAHR World Congress, Sep 8-13 2013, Chengdu, China, p2134-2141. [38] Zheng, S.M., Zhang, Y.L., Sheng, W.A., 2015. Numerical study on the dynamics of a novel two-raft wave energy absorption device. 11th European Wave and Tidal Energy Conference, 6-11 September, Nantes, France. 07C1-3. |