个人信息Personal Information
副研究员
硕士生导师
任职 : 水力学研究所副所长,水利水电教工党支部副书记
性别:男
毕业院校:清华大学
学位:博士
所在单位:水利工程系
学科:水力学及河流动力学
办公地点:大连理工大学水利工程学院综合试验#3号楼221房间
联系方式:0411-84708509
电子邮箱:di.zhang@dlut.edu.cn
个人简介Personal Profile
2004.9-2008.7: 大连理工大学 水利水电工程专业 获工学学士学位;
2008.9-2010.7: 大连理工大学 水力学及河流动力学专业 获工学硕士学位;
2010.9-2015.7: 清华大学 水力学及河流动力学专业 获工学博士学位;
2015.9-2017.10: 西澳大利亚大学(UWA) 土木与资源学院 从事博士后研究工作;
2017.12-至今:大连理工大学 建设工程学院 副研究员、硕士生导师、水力学研究所副所长、水利水电教工党支部副书记;主讲本科生课程《工程流体力学/水力学》、研究生课程《水工模型试验与数据处理》,招收硕士生方向-水力学及河流动力学(学硕)、水利工程(专硕)。
2019.10-至今 中国水利学会,水力学专业委员会委员;
2021.09-至今 国际水利与环境工程学会(IAHR)会员;
2022.04-至今 中国大坝工程学会,过鱼设施专业委员会委员;
2023.11-至今 中国水力发电工程学会,水工水力学专业委员会委员。
共发表科研论文60余篇(SCI收录40余篇),其中以第一作者在Journal of Computational Physics、Physics of Fluids、Journal of Hydraulic Engineering (ASCE)、Fisheries Management and Ecology、European Journal of Mechanics-B/Fluids、River Research and Applications、International Journal for Numerical Methods in Fluids等国际著名/知名SCI期刊上已发表论文10余篇。
主持国家自然科学基金-面上项目1项、国家自然科学基金-青年项目1项、辽宁省自然科学基金1项、国家重点实验室开放基金2项、湖北省鱼类过坝技术国际合作基地开放基金1项、大连理工大学基本科研业务费项目(引进人才科研专题)2项,授权发明专利、实用创新专利和软件著作权共10余项。
代表性科研论文:
[1] Zhang, D., Jiang, C., Liang, D., & Cheng, L. (2015). A review on TVD schemes and a refined flux-limiter for steady-state calculations. Journal of Computational Physics, 302, 114-154. (SCI收录, 引用120余次)
[2] Zhang, D., Cheng, L., An, H., & Zhao, M. (2017). Direct numerical simulation of flow around a surface-mounted finite square cylinder at low Reynolds numbers. Physics of Fluids, 29(4). (SCI收录, 引用100余次)
[3] Zhang, D., Jiang, C., Liang, D., Chen, Z., Yang, Y., & Shi, Y. (2014). A refined volume-of-fluid algorithm for capturing sharp fluid interfaces on arbitrary meshes. Journal of Computational Physics, 274, 709-736. (SCI收录)
[4] Zhang, D., Cheng, L., An, H., & Draper, S. (2021). Flow around a surface-mounted finite circular cylinder completely submerged within the bottom boundary layer. European Journal of Mechanics-B/Fluids, 86, 169-197. (SCI收录)
[5] Zhang, D., Qu, Y., Shi, X., Liu, Y., & Jiang, C. (2024). Design of a Novel Multislot and Pool–Weir Combined Fishway Based on Hydraulic Properties Analysis and Fish-Passage Experiments. Journal of Hydraulic Engineering-ASCE, 150(3), 04024004. (SCI收录)
[6] Zhang, D., Xu, Y., Deng, J., Shi, X., & Liu, Y. (2023). Relationships among fish passage efficiency, fish swimming behavior, and hydraulic properties in a vertical-slot fishway. Fisheries Management and Ecology, 31(3), e12681. (SCI收录)
[7] Zhang, D., Qi, Y., Liang, D., Liu, Y., Li, Z., & Ma, J. (2024). Combined effect of diameter ratio and spacing ratio on flow around two tandem circular cylinders at a moderate Reynolds number (Re). Physics of Fluids, 36(8). (SCI收录)
[8] Zhang, D., Jiang, C., Yang, C., & Yang, Y. (2014). Assessment of different reconstruction techniques for implementing the NVSF schemes on unstructured meshes. International Journal for Numerical Methods in Fluids, 74(3), 189-221. (SCI收录)
[9] Zhang, D., Jiang, C., Cheng, L., & Liang, D. (2016). A refined r-factor algorithm for TVD schemes on arbitrary unstructured meshes. International Journal for Numerical Methods in Fluids, 80(2), 105-139. (SCI收录)
[10] Zhang, D., Bian, X., Shi, X., Deng, J., & Liu, Y. (2023). Design of a bilateral-symmetric multi-slot fishway and its comparison with vertical slot fishway in terms of hydraulic properties. River Research and Applications, 39(5), 954-969. (SCI收录)
[11] Zhang, D., Liu, C., Shi, X., Liu, Y., & Qu, Y. (2023). A novel H-shape fishway with excellent hydraulic characteristics. Journal of Hydrology and Hydromechanics, 71(1), 64-79. (SCI收录)
[12] Zhang, D., Liang, D., Deng, J., Liu, Y., & Xie, J. (2024). On the Spanwise Periodicity within the Gap between Two Different-Sized Tandem Circular Cylinders at Re=3900. Journal of Marine Science and Engineering, 12(6), 866. (SCI收录)
[13] Li, Z., Zhang, D., Liu, Y., Azma, A., & Gao, N. (2023). On the unsteady wake flow behind a sphere with large transverse-rotating speeds. Physics of Fluids, 35(10). (SCI收录)
[14] Li, Z., Zhang, D., Liu, Y., & Gao, N. (2023). Time-averaged flow field behind a transversely spinning sphere: An experimental study. Physics of Fluids, 35(3). (SCI收录)
[15] Li, Z., Zhang, D., Liu, Y., Wu, C., & Gao, N. (2020). Effect of periodic perturbations on the turbulence statistics in a backward-facing step flow. Physics of Fluids, 32(7). (SCI收录)
[16] Deng, Y., Zhang, D., Cao, Z., & Liu, Y. (2023). A machine learning based acceleration of segregated pressure correction algorithms for incompressible fluid flow. Computers & Fluids, 106145. (SCI收录)
[17] Deng, Y., Zhang, D., Liu, Y., Fu, X., & Wu, J. (2022). A novel efficient segregated pressure-based algorithm for steady-state incompressible flow. Numerical Heat Transfer, Part B: Fundamentals, 82(1-2), 18-40. (SCI收录)
[18] Deng, Y., Zhang, D., Zhang, D., Wu, J., & Liu, Y. (2023). A hybrid ensemble machine learning model for discharge coefficient prediction of side orifices with different shapes. Flow Measurement and Instrumentation, 91, 102372. (SCI收录)
[19] Deng, Y., Zhang, D., Cao, Z., & Liu, Y. (2024). Spatio-temporal water height prediction for dam break flows using deep learning. Ocean Engineering, 302, 117567. (SCI收录)
[20] Deng, Y., Zhang, D., Cao, Z., & Liu, Y. (2024). An accurate and efficient deep learning model for spatio-temporal prediction of interfacial flows. Physics of Fluids, 36(4).(SCI收录)
[21] Duan, S., Liu, Y., Zhang, D., Wu, J., & Deng, Y. (2020). The influence of the angle between the secondary and primary cylinders on force coefficients and flow field characteristics at a low Reynolds number. Fluid Dynamics Research, 52(4), 045508. (SCI收录)
[22] Deng, Y., Liu, Y., Zhang, D., Wu, J., & Zhang, D. (2023). Modified far-upwind reconstruction methods for the implementation of NVSF schemes on unstructured grids. Numerical Heat Transfer, Part B: Fundamentals, 83(5), 292-322. (SCI收录)
[23] Zhang, D., Li, Z., Zhang, D., Gao, N., & Liu, Y. (2024). Study on coherent structures in the flow field of single-cell and vortex breakdown tornado-like vortices. Physics of Fluids, 36(9). (SCI收录)
[24] Wu, J., Liu, Y., Zhang, D., & Cao, Z. (2023). Numerical simulation of flow past an 8:1 oscillating rectangular cylinder at Re=22000. Fluid Dynamics Research, 55(5), 055503. (SCI收录)
[25] Wu, J., Liu, Y., Zhang, D., Cao, Z., & Li, Z. (2023). Numerical simulation of vortex shedding from rectangular cylinders with different elongation ratios. Fluid Dynamics Research, 55(1), 015503. (SCI收录)
[26] Wu, J., Liu, Y., Zhang, D. (2024). Numerical simulation of flow around a transversely oscillating square cylinder at Re= 22000. Ocean Engineering, 313, 119538. (SCI收录)
[27] Lu, Y., Liu, Y., Zhang, D., Cao, Z., Fu, X. (2023). Chaotic Characteristic Analysis of Spillway Radial Gate Vibration under Discharge Excitation. Applied Sciences, 14(1), 99.(SCI收录)
[28] Deng, Y., Liu, Y., Zhang, D., Cao, Z. (2023). Machine learning-based prediction of scour depth around different-shaped bridge abutments. PICE-Water Management (pp. 1-19). (SCI收录)
[29] Wu, J., Liu, Y., Zhang, D., Cao, Z., Guo, Z. (2022). Numerical investigation of vortex shedding from a 5: 1 rectangular cylinder at different angles of attack. Journal of Marine Science and Engineering, 10(12), 1913. (SCI收录)
[30] Guo, G., Liu, Y., Zhang, D., Cao, Z., Deng, Y. (2024). Flow Field Reconstruction of Trash Rack Based on Generative Adversarial Networks. Journal of Hydroinformatics, jh2024373. (SCI收录)
[31] Wang, Y., Liu, Y., Cao, Z., Zhang, D. (2024). Prediction of contraction channel scour depth: based on interpretability analysis and PCA-enhanced SVR. Journal of Hydroinformatics, jh2024386. (SCI收录)
[32] Liu, Y., Guo, G., Cao, Z., Zhang, D., & Deng, Y. (2024). Characteristics of Flow Structure of Lateral Inlet/Outlet in Pumped Storage Power Stations. Journal of Energy Storage, 103, 114291. (SCI收录)
[33] Guo, G., Liu, Y., Cao, Z., Zhang, D., Zhao, X. (2024). Interpretable GBDT model-based multi-objective optimization analysis for the lateral inlet/outlet design in pumped-storage power stations. Journal of Hydroinformatics, jh2024304. (SCI收录)
[34] Guo, G., Liu, Y., Cao, Z., Zhang, D., Deng, Y. (2024). Characteristics of flow structure of lateral inlet/outlet in pumped storage power stations. Journal of Energy Storage, 103, 114291. (SCI收录)
[35] Azma, A., Liu, Y., Eftekhari M., Zhang, D. (2024). Comparison of hybrid deep learning models for estimation of the time-dependent scour depth downstream of river training structures. Physics of Fluids, 36(10), 101911. (SCI收录)
[36] Lu, X., Liu, Y., Tan, S., Zhang, D., Wang, C., & Zheng, X. (2024). Method and Application of Spillway Radial Gate Vibration Signal Denoising on Multiverse Optimization Algorithm-Optimized Variational Mode Decomposition Combined with Wavelet Threshold Denoising. Appl. Sci, 14, 9650. (SCI收录)
[37] Azma, A., Liu, Y., Azma, M., Saadat, M., Zhang, D., Cho, J., & Rezania, S. (2023). Hybrid machine learning models for prediction of daily dissolved oxygen. Journal of Water Process Engineering, 54, 103957. (SCI收录)
[38] Azma, A., Kiyanfar, R., Liu, Y., Azma, M., Zhang, D., Cao, Z., & Li, Z. (2023). ML and CFD Simulation of Flow Structure around Tandem Bridge Piers in Pressurized Flow[J]. CMC-Computers Materials & Continua, 2023, 75(1): 1711-1733. (SCI收录)
[39] Azma, A., Sadrabadi, M., Liu, Y., Azma, M., Zhang, D., Cao, Z., & Li, Z. (2023). Boosting ensembles for estimation of discharge coefficient and through flow discharge in broad-crested gabion weirs. Applied Water Science, 13(2), 45. (SCI收录)
[40] Shen, Y., Jiang, C., Zhou, Q., Zhu, D., & Zhang, D. (2021). A multigrid dynamic bidirectional coupled surface flow routing model for flood simulation. Water, 13(23), 3454., 13(2), 45. (SCI收录)
[41] Qu, L., An, H., Draper, S., Watson, P., Zhao, M., Harris, J., ... & Zhang, D. (2024). A review of scour impacting monopiles for offshore wind. Ocean Engineering, 301, 117385. (SCI收录)
代表性专利/软件著作权:
[1] 张帝; 刘春明; 石小涛; 刘亚坤; 曲颖敏; 岑嘉豪,一种带有H形墩和短挡板的竖缝式鱼道, 2023-03-14, 中国, ZL202111662849.1 (发明专利、已授权)
[2] 张帝; 刘亚坤; 曲颖敏; 石小涛; 刘春明; 岑嘉豪,一种带有多竖缝和矩形堰的组合式鱼道, 2023-02-03, 中国, ZL202111662798.2 (发明专利、已授权)
[3] 张帝;刘亚坤;任坦;边小惠,带有梯形分流墩和渐扩突缩断面的双侧对称多竖缝式鱼道, 2024-07-16, 中国, ZL202410638536.X (发明专利、已授权)
[4] 刘亚坤; 张帝; 杨姣; 张栋; 吴剑; 王秋绎等,一种可消除闸门前漩涡的新型平板闸门装置, 2024-07-12, 中国, ZL202010014073.1 (发明专利、已授权)
[5] 刘亚坤; 张帝; 罗纬邦; 张志强; 段双帅; 杨姣等, 一种带倒三角楔体尾墩的消能池, 2024-07-12, 中国, ZL202010960215.3 (发明专利、已授权)
[6] 刘亚坤; 张帝; 岑嘉豪; 周顺安; 熊江; 陆雨欣等,一种带螺旋阶梯与孔板跌水井的分流调蓄系统, 2024-08-13, 中国, ZL202110973325.8 (发明专利、已授权)
[7] 刘亚坤; 张帝; 岑嘉豪; 吴剑; 张志强; 杨姣等, 一种单边扩散与斜切挑坎结合的消能设施, 2022-02-08, 中国, ZL202121997436.4 (实用新型、已授权)
[8] 刘亚坤; 于松立; 张帝; 张雨楠; 王秋绎; 张栋等,堤防护岸三角截面锥体防冲结构, 2020-08-14, 中国, ZL201921933087.2 (实用新型、已授权)
[9] 岑嘉豪; 刘亚坤; 张帝; 张志强; 杨姣; 刘春明等,一种燕尾坎与楔形槽组合的掺气设施, 2021-09-21, 中国, ZL202023091985.3 (实用新型、已授权)
[10] 刘亚坤; 张帝; 金生; 艾丛芳; 张志强, 大型水库消能设计及溃坝洪水演进虚拟仿真实验系统[简称:VSSRDFR]V1.0, 2020-09-11, 中国, 2020SR1086309 (软件著作权、已授权)
[11] 郭港归; 刘亚坤; 张帝,可解释性集成学习模型预测空腔长度应用软件[简称:AIML-CL] 1.0, 2023-01-11, 中国, 2023SR0060685 (软件著作权、已授权)
获得奖励:
[1] 第七届全国水利类专业青年教师讲课竞赛-一等奖,中国水利教育协会,获奖人:张帝,2020。
[2] 2023年高等学校水利类专业教学成果奖-特等奖,中国水利教育协会,《夯实基础、强化实践、以赛促教,创新复合型水利人才培养探索与实践》,获奖人:刘亚坤、张帝、李冬生、王胤、康飞、黄丽华、郭景晨,2023。
[3] 大连理工大学2020年校教学质量优良奖,获奖人:张帝,2021。
[4] 大连理工大学2021年度考核优秀奖,获奖人:张帝,2022。
[5] 大连理工大学2023年度优秀硕士论文指导教师,获奖人:张帝,2023。
[6] 大连理工大学2024年度优秀硕士论文指导教师,获奖人:张帝,2024。
[7] 第六届全国大学生水利创新设计大赛-优秀指导教师奖,中国水利教育协会、教育部高等学校水利类专业教学指导委员会,获奖人:张帝,2019。
[8] 第七届全国大学生水利创新设计大赛-优秀指导教师奖,中国水利教育协会,获奖人:张帝,2021。
[9] 第八届全国大学生水利创新设计大赛-优秀指导教师奖,中国水利教育协会,获奖人:张帝,2023。
[10] 2020年高等学校水利类专业教学成果-一等奖,中国水利教育协会,《思政融于教学,建设水力学一流课程》,获奖人:刘亚坤、金生、张帝、艾丛芳、张志强,2020。
[11] 辽宁省教学成果奖-二等奖,辽宁省教育厅,《课程思政引领下的《水力学》一流课程建设与实践》,获奖人:刘亚坤、金生、张帝、艾丛芳、张志强,2020。
[12] 第二届全国水利院校德育教育优秀成果-一等奖,中国水利教育协会,《以课程思政引领,培养拔尖创新人才-大连理工大学《水力学》课程思政一流课程建设与实践》,获奖人:刘亚坤、李冬生、张帝、金生、艾丛芳、张志强,2021。
[13] 第六届全国大学生水利创新设计大赛-特等奖,中国水利教育协会、教育部高等学校水利类专业教学指导委员会,《雨滴摩擦电能收集装置》,指导教师:张帝、姜东岳,2019。
[14] 第六届全国大学生水利创新设计大赛-特等奖,中国水利教育协会、教育部高等学校水利类专业教学指导委员会,《抽水蓄能电站的新型供水系统》,指导教师:刘亚坤、张帝,2019。
[15] 第七届全国大学生水利创新设计大赛-特等奖,中国水利教育协会,《一种新型旋转式台阶加孔板消能的嵌套式排洪竖井》,指导教师:刘亚坤、张帝,2021。
[16] 第八届全国大学生水利创新设计大赛-特等奖,中国水利教育协会,《一种新型的“多竖缝-池堰”组合式高效鱼道》,指导教师:张帝、刘亚坤,2023。
[17] 第八届全国大学生水利创新设计大赛-特等奖,中国水利教育协会,《一种新型的“十字吸沙”水沙分离旋流装置》,指导教师:刘亚坤、张帝,2023。