彭忠

职称: 
研究员
研究专长: 
波浪动力学
海岸生态堤防
河口海岸数字孪生技术
数值模型开发和应用
Email: 
zpeng@sklec.ecnu.edu.cn
zhong.peng@outlook.com
学术任职: 
英国海洋工程科学和技术研究会(IMarEST: Institute of Marine Engineering, Science & Technology)会员
英国科学委员会 (Science Council) 皇家特许科学家(CSci, No. MAR/106/000143)
英国工程委员会 (Engineering Council) 皇家特许工程师(CEng, No. 612528)
东南亚边缘海可持续发展(SIMSEA)国际研究计划科学指导委员会委员
教育经历: 
英国普利茅斯大学(University of Plymouth) 海岸工程 博士 (2006.10-2010.7)
天津大学 船舶与海洋结构物设计制造 硕士 (2003.9-2006.3)
天津大学 船舶与海洋工程 本科 (1999.9-2003.7)
工作经历: 
华东师范大学 河口海岸学国家重点实验室 教授 2020-至今
辉固英国海洋公司 (Fugro GB Marine Ltd.) 主任海洋学家 (Principal Oceanographer) 2013-2020
荷兰三角洲研究院 (Deltares, formerly WL Delft Hydraulics) 研究员/咨询师 (Researcher/Advisor) 2011-2013
英国普利茅斯大学(University of Plymouth)博士后 2010-2011
英国普利茅斯大学(University of Plymouth)助理研究员(兼职) 2007-2010
个人简介: 
彭忠,华东师范大学教授,博士生导师(河口海岸学学术博士、安全工程专业博士),入选2020年上海市海外高层次人才计划。主要从事波浪动力学及其在海岸工程中的应用等研究。过去10多年间,结合数值模拟、模型实验和大数据分析等手段,开展了波浪-结构非线性相互作用等基础研究,以及海岸洪水风险、海洋可再生能源、海况极限值分析、波浪水动力预报系统和后报数据库开发等应用研究。拥有10年以上的波浪和水动力数值模型开发和应用基础,并积累了丰富的技术研发和国际工程设计咨询经验。现是英国皇家特许工程师(CEng)和皇家特许科学家(CSci)。
 
目前的研究兴趣是基于生态系统海岸防护以及河口海岸数字孪生。拟招聘博士后若干和科研助理一名,相关领域应聘者可随时申报,欢迎联系,诚邀加盟课题组。
 
2025年拟招收硕士研究生2-3名、博士研究生1-2名,欢迎有港口航道与海岸工程、船舶与海洋工程、物理海洋学、自然地理学、海洋科学、湿地生态学、计算机科学与技术、数据科学与工程、软件工程等专业背景的学生与我联系。有志出国留学或工作者,毕业后可被推荐到英国、荷兰、美国、丹麦等国家的著名学府和研究院进行深造。
 
科研项目: 
基础研究项目:
  • “长三角一体化示范区河网生态流量调度数字孪生技术与示范”,上海市 2023 年度“科技创新行动计划”长三角科技创新共同体领域项目 (23002400400),2023-2025,主持
  • “植被-水沙-堤防耦合机制及海岸生态堤防技术”,国家重点研发计划政府间国际科技创新合作重点专项 (2022YFE0136700),2023-2025,主持
  • “长江口水沙-植被耦合建模及高性能解耦算法研究”,上海市2022年度“科技创新行动计划”基础研究领域项目(22JC1400900),2022-2025,参与
  • 长江口柔性植被下波浪越浪的控制机制研究,上海市自然科学基金面上基金 (21ZR1420200),2021-2024,主持
  • 波浪-植被-结构相互作用水槽实验,中央高校基本科研业务费,2021,主持
  • Ensemble Prediction of Inundation Risk and Uncertainty arising from Scour (EPIRUS), 2007-2011, 'Nearshore Wave Transformation, Overtopping and Toe Scour' 子项目负责人
工业界联合项目:
  • Far and Large Offshore Wind innovation program (FLOW), JIP (Van Oord – BAM – RWE – Deltares), 2011-2013, 'Hydrodynamic Performance of Innovative Gravity-Based-Foundation'子项目负责人
研发项目:
  • 三维五度监测体系和模拟成果集成研究, 上海市规划与自然资源局,2024-2026,主持
  • Effective Harmonic analysis with Spectrum Filtering Technique,  Fugro R&D Foundation, 2018-2019, 主持
  • On Spectrum Calibration for Nearshore Wave Transformation, Fugro R&D Foundation, 2017-2018,主持
  • Tropical Storm Hindcast for the Gulf of Mexico, Fugro R&D Foundation, 2016-2018, 'Storm Surge and 3-D Current Database under Hurricanes' 子项目负责人
  • A Methodology to Characterize Internal Solitons, Fugro R&D Foundation, 2016-2018, 参与
  • Comprehensive Wind, Wave and Current Hindcast for Arabian Gulf, Fugro R&D Foundation, 2015-2016, 主持
  • High resolution and quality controlled Global wave hindcast, Fugro R&D Foundation, 2014-2016, 主持
  • Online Wave and Hydrodynamics Forecast System, Fugro R&D Foundation, 2014-2016, 主持

咨询项目 (代表性):

  • Design criteria, flood risk, and beach stability, Taweelah Reverse Osmosis (RO) desalination plant (海水淡化厂设计)
  • Hydrodynamic study of archipelagic waters, Papua New Guinea (群岛水域水动力模拟)
  • Metocean modeling for Hazira, India (大潮差海域波浪水动力模拟)
  • Metocean Design Criteria Study, Argentina (南半球高纬度海域波浪水动力设计)
  • Tow criteria from Ravenna to Southern Italy (船舶拖曳路线设计)
  • Oil Spill Modelling in the North Sea (原油泄漏模拟)
  • Seabed Current Assessment of South Africa (海底洋流评估)
  • Metocean Criteria at 3 Locations in the Caspian Sea (波浪-海冰相互作用)
  • Metocean and Sediment Transport Study for the North Field, Qatar (波斯湾油气田波浪水动力和泥沙运动)
  • Metocean Criteria off Vietnam for Riser and Mooring Analysis (海洋平台立管和系泊设计条件)
  • Metocean FEED Criteria for Tolmount Pipeline (石油管线设计)
  • Cyclonic and Non-Cyclonic metocean Criteria, Philippines (台风和非台风设计条件)
  • Metocean Conditions in the Dardanelle Straits, Turkey (海峡桥梁设计条件)
  • Modeling for wave and currents in Hasbah pipeline project, UAE (海岸浅水波流耦合模型)
  • Hydrodynamic and Sediment Modelling around Yas Island, Abu Dhabi (潮滩带码头设计)
  • Design criteria and sediment transport for Al Faw Grand Port, Iraq (河口海港设计)
  • Hydrodynamic Forecast Modelling for Tilbury Port and Hamburg Port (内河码头水位和水流预报)
  • EIA for a planned jetty outside Port of Gibraltar (码头设计和环境影响评估)
  • Metocean study for East Anglia Offshore Wind Farm (近海风力发电场设计)
  • Tidal Energy Investigation of the Bay of Fundy, Canada (潮汐能)
  • Wave impact study for new designed GBS-type wind turbines in offshore windpark Innogy Nordsee 1 (风电场桩基波浪冲击力研究)
  • Hydrodynamic study for a planned reclamation in Singapore (人工填海水动力设计)
  • Metocean database for ADMA OPCO Oil Fields (波浪水动力数据库设计)
  • Metocean study for Blocks SS-04 and SS-09 off Bangladesh (河口三角洲波浪水动力)
课程教学: 
研究生必修课:海岸工程概论(Coastal Engineering)
研究生选修课:海洋波浪动力学(Ocean Wave Dynamics)
本科生通识课:滨海城市台风灾害与应对(Typhoon Hazards at Coastal Cities)
学术论文: 
  • Cheng, Y., Peng, Z., Xu, Y., Zhao, Y., & He, Q. (2025). Longitudinal and vertical evolution of wave-induced turbulence within vegetation. Coastal Engineering, 199, 104737. https://doi.org/10.1016/j.coastaleng.2025.104737
  • Lu, X., Peng, Z., Li, C., Chen, L., Qiao, G., Li, C., Yang, B., & He, Q. (2025). An innovative deep learning model for accurate wave height predictions with enhanced performance for extreme waves. Ocean Engineering, 322, 120502. https://doi.org/10.1016/j.oceaneng.2025.120502
  • 赵 颖,彭 忠,于海升,陈 琛,陈良志. (2025). 盐沼植被缓冲带防护能力参数化研究—以海三棱藨草为例. 应用海洋学报, 44(1).
  • Li, C., Peng, Z., Zhao, Y., Fang, D., Chen, X., Xu, F., & Wang, X. (2024). Seasonal Variations in Drag Coefficient of Salt Marsh Vegetation. Coastal Engineering, 193, 104575. https://doi.org/https://doi.org/10.1016/j.coastaleng.2024.104575
  • Xu, F., Zhou, Z., Fagherazzi, S., D’Alpaos, A., Townend, I., Zhao, K., Xie, W., Guo, L., Wang, X., Peng, Z., Yang, Z., Chen, C., Cheng, G., Xu, Y., & He, Q. (2024). Anomalous scaling of branching tidal networks in global coastal wetlands and mudflats. Nature Communications, 15(1), 9700. https://doi.org/10.1038/s41467-024-54154-9
  • Yu, H., Xie, W., Peng, Z., Xu, F., Sun, J., & He, Q. (2024). The impact of a storm on the microtidal flat in the Yellow River Delta Haisheng. Estuarine, Coastal and Shelf Science, 311, 108404. https://doi.org/10.1016/j.ecss.2024.108978
  • Li, Z. et al. Orca: Ocean Significant Wave Height Estimation with Spatio-temporally Aware Large Language Models. in CIKM ’24: Proceedings of the 33rd ACM International Conference on Information and Knowledge Management 3892–3896 (2024).
  • Zhao, Y., Peng, Z., Chen, X., Fang, D., Liu, S., Wang, X., & He, Q. (2024). Parameterisation and evolution of non-breaking wave nonlinearity over flexible vegetation. Coastal Engineering, 192(500), 104543.
  • de Vriend, H., Wang, Z., vanMaren, B., & Peng, Z. (2024). Rhine-Meuse-Scheldt Delta BT  - Delta Sustainability: A Report to the Mega-Delta Programme of the UN Ocean Decade (W. Zhang & H. de Vriend, Eds.; pp. 263–292). Springer Nature Singapore. https://doi.org/10.1007/978-981-97-7259-9_14
  • 张卫国, 侯立军, 彭忠, 袁琳, 李秀珍, & 何青. (2024). 面向可持续发展方案的三角洲研究趋势与展望. 中国科学基金, 6(38), 946–953.
  • 何 青,朱春燕,郭磊城,侯立军,彭 忠,张卫国 (2024). 变化条件下长江口沉积地貌系统转型与应对. 中国水利. 2024.16
  • 朱植阳, 彭 忠, 李徜徉, 邓争志 (2024). 基于 OpenFOAM 求解器的内部造流系统开发. 海洋工程, 42(6). https://doi.org/10.16483/j.issn.1005-9865.2024.06.008
  • 邓珂,彭忠,于海升,赵颖,朱植阳,何青 (2024). 长江口潮滩高分辨率波流耦合模型. 海洋通报. 43(5)
  • 李晶晶,史本伟,彭忠,张文祥,彭彪彪 (2024). 台风"梅花"对潮滩大型底栖动物群落的影响研究. 46(7)
  • Chen, J., Huang, H., Ye, H., Peng, Z., Li, C., & Wang, C. (2024). SalienTime: User-driven Selection of Salient Time Steps for Large-Scale Geospatial Data Visualization. Conference on Human Factors in Computing Systems - Proceedings. https://doi.org/10.1145/3613904.3642944
  • Yu, S., Xu, F., Peng, Z., Guo, L., Wang, X., Xie, W., Zhu, C., Wang, Z., & He, Q. (2024). Dynamic evolution of tidal networks under the combined effect of de-reclamation and decrease of sediment supply. Continental Shelf Research, 279, 105274. https://doi.org/https://doi.org/10.1016/j.csr.2024.105274
  • Wu, X., He, Q., Shen, J., Peng, Z., Guo, L., Xie, W., & Lin, J. (2024). Different effects between cold front and tropical cyclone on short-term morphodynamics in the Changjiang Delta. Journal of Marine Systems, 243, 103961. https://doi.org/10.1016/j.jmarsys.2023.103961
  • 彭忠, 王长波, 刘利, 吕振华, 朱学明, 何青, 李武, 宋德海, 周烜, 武文, 柴扉, 彭伟, 彭伟, Zhengbing, W., & Qinghua, Y. E. (2023). 河口海岸数字孪生建设与挑战( 特邀). 海洋技术学报, 42(6), 1–12.
  • 陆修芝,王宪业,袁琳, 彭忠. 水动力及种源高程对盐沼植物定植初期种子扩散影响[J]. 海洋通报,2023,42(1):19-29. DOI:10.11840/j.issn.1001-6392.2023.01.003.
  • 马慧晨,郭磊城,吴增斌, 彭忠. 长江感潮河道形态变化的遥感分析[J]. 长江流域资源与环境,2023,32(8):1641-1652. DOI:10.11870/cjlyzyyhj202308008.
  • Ma, Y., Zhu, L., Peng, Z., Xue, L., Ho, B., Dong, C., & Li, X. (2023). Wave attenuation by flattened vegetation ( Scirpus mariqueter ). Frontiers in Marine Science, 10, 1106070. https://doi.org/10.3389/fmars.2023.1106070
  • Zhao, Y., Peng, Z., He, Q., & Ma, Y. (2023). Wave attenuation over combined salt marsh vegetation. Ocean Engineering, 267(500), 113234. https://doi.org/10.1016/j.oceaneng.2022.113234
  • Salauddin, M., O’Sullivan, J. J., Abolfathi, S., Peng, Z., Dong, S., & Pearson, J. M. (2022). New insights in the probability distributions of wave-by-wave overtopping volumes at vertical breakwaters. Scientific Reports, 12(1), 1–16. https://doi.org/10.1038/s41598-022-20464-5
  • Xue, L., Li, X., Shi, B., Yang, B., Lin, S., Yuan, Y., Ma, Y., & Peng, Zhong (2021). Pattern-regulated wave attenuation by salt marshes in the Yangtze Estuary, China. Ocean and Coastal Management, 209(May), 105686. https://doi.org/10.1016/j.ocecoaman.2021.105686
  • Peng, Zhong and Qing He. 2020. Impact of toe scour on wave overtopping over a vertical wall, Proceedings of 8th International Conference on the Application of Physical Modelling in Coastal and Port Engineering and Science(CoastLab2020), Zhoushan, China, December 9-12
  • Peng, Zhong, Hazel Grant and Richard Sproson. 2019. Effective harmonic analysis with spectrum filtering technique. Proceedings of the 38th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2019). Glasgow, UK, June 9 – 14
  • Peng, Zhong, Qingping Zou and Pengzhi Lin. 2018. A partial cell technique for modelling the morphological change and scour. Coastal Engineering 131, 88-105
  • Peng, Zhong and Jill Bradon. 2018. On Spectrum Calibration for Nearshore Wave Transformation. Proceedings of the 36th International Conference on Coastal Engineering (ICCE 2018). Baltimore, USA, Jul 30 and Aug 3, 2018.
  • Henrique Coelho, Zhong Peng, Dave Sproson, and Jill Bradon. 2018. A Methodology to Characterize Internal Solitons in the Ocean. Proceedings of the 37th International Conference on Ocean, Offshore & Artic Engineering (OMAE 2018). June 17-22, 2018, Madrid, Spain.
  • Juan Liria, Henrique Coelho, Dave Sproson, Paulo Martinho, Cody Webb, Fernando Oropeza, Jill Bradon, Rosemary Smith, Zhong Peng. 2018. A Novel Approach to Generating A Hurricane Database for The Gulf of Mexico Based on Numerical Weather Prediction Models. Offshore Technology Conference (OTC2018). Houston, Texas, USA, April 30–May 3, 2018.
  • Peng, Zhong, and Jill Bradon. 2016. 3-D Comprehensive Hydrodynamic Modelling in the Arabian Gulf. Journal of Coastal Research, SI (75), 547-551.
  • Peng, Zhong. 2014. Wave slamming impact on offshore wind turbine foundations. Proceedings of the 34th International Conference on Coastal Engineering (ICCE2014). Seoul. Korea. 15 – 20 June, 2014.
  • Qingping Zou, Yongping Chen, Ian Cluckie, Richard Hewston, Shunqi Pan, Zhong Peng, Dominic Reeve. 2013. Ensemble prediction of coastal flood risk arising from overtopping by linking meteorological, ocean, coastal and surf zone models. Quarterly Journal of the Royal Meteorological Society, Volume 139, Issue 671, pages 298–313
  • Peng, Zhong and Raaijmakers T, 2013. Nonlinear Wave Groups Impact on A Cylindrical Wind Turbine Foundation, Proceedings of the 32nd International Conference on Ocean, Offshore and Arctic Engineering (OMAE2013). Nantes, France. June 9-14, 2013.
  • Qingping Zou, Zhong Peng and Pengzhi Lin, 2012, Effects Of Wave Breaking And Beach Slope On Toe Scour In Front Of A Vertical Seawall , Proceedings of the 33rd International Conference on Coastal Engineering (ICCE2012). Santander, Spain. July 01-04, 2012,
  • Peng, Zhong, Peter Wellens, Tim Raaijmakers, 2012. 3-D numerical modeling of wave run-up on monopiles, Proceedings of the 31st International Conference on Ocean, Offshore and Arctic Engineering (OMAE 2012). Rio, Brazil. July 1-5, 2012.
  • de Graaff, R., D. Majumdar, H. Awda, S. Caires, Zhong Peng, E. Moerman, 2011. Setting a new standard for metocean databases. Offshore Technology Conference (OTC2011). Houston, USA. 2-5 May 2011.
  • Peng, Zhong, Qingping Zou, 2011. Spatial distribution of wave overtopping water behind coastal structures. Coastal Engineering. 58(6), pp 489-498
  • Qingping Zou, Zhong Peng, 2011. Evolution of wave shape over a low-crested breakwater, Coastal Engineering. 58 (6), pp 478-488
  • Peng, Zhong, Qingping Zou, Dominic Reeve, Baoxing Wang, 2009. Parameterisation and transformation of wave asymmetries over a low-crested breakwater. Coastal engineering, 53-54. pp 1123-1132
  • Peng, Zhong, Qingping Zou, 2009. Model-Data Comparisons of Wave Shape Changes over Low-Crested Breakwaters, the 6th International Conference on Coastal Dynamics (Coastal Dynamics 2009), Tokyo, Japan, 7th August to 11th September, 2009.
  • Zou, Qingping, Yongping Chen, Ian Cluckie, Richard Hewston, Xin Lv, Shunqi Pan, Zhong Peng, Dominic Reeve, 2009. EPIRUS: an integrated "clouds-to-coast": ensemble modelling framework of coastal flood risk, 11th International Workshop on Wave Hindcasting and Forecasting and Coastal Hazard Symposium, Halifax, Canada.
  • Pearson, J. M. M., Zou, Q., Guymer, I. & Peng, Z. 2009. Solute dispersion in the nearshore: Laboratory and numerical results. Proceedings of the 31st International Conference on Coastal Engineering (ICCE2008).
  • Peng, Zhong, Qingping Zou, Baoxing Wang and Dominic Reeve, 2009. Transformation of wave skewness and asymmetry over low-crested breakwaters, Proceedings of the 31st International Conference on Coastal Engineering (ICCE2008).
  • Peng, Zhong, Qingping Zou, 2008. Numerical analysis of wave transformation over low-crested impermeable breakwater, Proceedings of the 18th International Offshore and Polar Engineering Conference (ISOPE2008), Vancouver, Canada, pp. 672-677.
  • 史庆增 & 彭忠. 冰力作用下锥体的合理结构形式及在柱体上设计锥体的合理性探讨. 中国海上油气 17, 342–346 (2005).
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获奖情况: 
入选上海市海外高层次人才计划