孙惠

发布者:赵诗琳发布时间:2015-11-25浏览次数:6901


孙惠


副教授

中国海洋大学 海洋与大气学院

青岛市松岭路238号,266100

E-mail: sunhui@ouc.edu.cn


教育经历:

 2010/092014/06中国海洋大学海洋科学学士

 2014/092019/06中国海洋大学物理海洋学博士


工作经历:

 2019/072025/12中国海洋大学海洋与大气学院讲师

 2026/01至今中国海洋大学海洋与大气学院副教授


主要项目:

  1.  2021/012023/12,国家自然科学基金青年科学基金项目“切变流中内背风波的生成机制与能量级联机理研究”,主持

  2.  2020/062024/05,中国博士后科学基金面上项目“内潮和内背风波耦合过程对南海混合的调控机制研究”,主持

  3.  2019/102021/09,中央高校青年教师科研专项基金“南海特定地形处内背风波生成及触发混合的机制研究”,主持

  4.  2025/012029/12,国家自然科学基金重大项目课题“远海岛礁海域海洋动力过程及其生源物质输运”,骨干

  5.  2020/012023/12,国家自然科学基金重点支持项目“西北太平洋深海复杂地形亚中尺度过程研究”,骨干

  6.  2021/012024/12,国家自然科学基金面上项目“南海复杂地形处近惯性内波生成及对深层混合影响的机制研究”,骨干

  7.  2020/012023/12,国家自然科学基金面上项目“南海内潮与中尺度涡相互作用研究”,骨干

  8. 2019/072022/06,山东省自然科学基金杰出青年基金“南海混合”,骨干


代表文章*为通讯作者

  1. Sun, H., Q. Yang*, J. Li, W. Zhao, and J. Tian, 2025: Spectral Features of Internal Waves in the South China Sea. Journal of Physical Oceanography, 55(6), 717-736.

  2. Sun, H.*, Q. Yang*, J. Li, W. Zhao, and J. Tian, 2024: Parameterization of Shear‐To‐Strain Ratio Used in Finescale Parameterization. Journal of Geophysical Research: Oceans, 129(5), e2023JC020393.

  3. Sun, H.*, Q. Yang*, K. Zheng, W. Zhao, X. Huang, and J. Tian, 2022: Internal Lee Waves Generated by Shear Flow Over Small-Scale Topography. Journal of Geophysical Research: Oceans, 127(6), e2022JC018547.

  4. Li, J., Q. Yang*, H. Sun*, S. Zhang, L. Xie, Q. Wang, W. Zhao, and J. Tian, 2023: On the Variation of Dissipation Flux Coefficient in the Upper South China Sea. Journal of Physical Oceanography, 53(2), 551-571.

  5. Fan, L., H. Sun*, Q. Yang*, and J. Li, 2024: Numerical investigation of interaction between anticyclonic eddy and semidiurnal internal tide in the northeastern South China Sea. Ocean Science, 20(1), 241-264.

  6. Li, J., Q. Yang*, H. Sun*, W. Zhao, and J. Tian, 2022: Spatial variation of bottom mixed layer in the South China Sea and a potential mechanism. Progress in Oceanography, 206, 102856.

  7. Sun, H., W. Zhao, Q. Yang*, S. Cai, X. Liang, and J. Tian*, 2019: Estimating Four-Dimensional Internal Wave Spectrum in the Northern South China Sea. Journal of Atmospheric and Oceanic Technology, 36(7), 1199-1216.

  8. Sun, H., Q. Yang*, W. Zhao, X. Liang, and J. Tian, 2016: Temporal variability of diapycnal mixing in the northern South China Sea. Journal of Geophysical Research: Oceans, 121(12), 8840-8848.

  9. Sun, H., Q. Yang*, and J. Tian, 2018: Microstructure measurements and finescale parameterization assessment of turbulent mixing in the northern South China Sea. Journal of Oceanography, 74(5), 485-498.

  10. Sun, H., and Q. Wang*, 2016: Microstructure observations in the upper layer of the South China Sea. Journal of Oceanography, 72(5), 777-786.

  11. Yang, Z., Z. Jing*, X. Zhai, C. Vic, H. Sun, C. de Lavergne, and M. Yuan, 2024: Enhanced generation of internal tides under global warming. Nature Communications, 15(1), 7657.

  12. Li, J., Y. Sun, J. Shi*, G. Guo, H. Sun, and Q. Yang*, 2026: Observed Mixing Processes in Prydz Bay, Antarctica, during Austral Summer. Journal of Physical Oceanography, 56(2), 277-295.

  13. Li, J., Q. Yang*, and H. Sun, 2025a: Dissipation ratio and eddy diffusivity of turbulent and salt finger mixing derived from microstructure measurements. Ocean Science, 21(2), 829-849.

  14. Li, J., Q. Yang*, and H. Sun, 2025b: Vertical velocity in the deep layer of South China Sea revealed by using ECCO product. Journal of Marine Systems, 251, 104110.

  15. Zheng, K., Z. Zhang*, Z. Yang, H. Sun, S. Guan, X. Huang, C. Zhou, W. Zhao, and J. Tian, 2024: Influence of Lee Wave Breaking on Far‐Field Mixing in the Deep Ocean. Journal of Geophysical Research: Oceans, 129(3), e2023JC020386.

  16. Yang, Q.*, M. Nikurashin, H. Sasaki, H. Sun, and J. Tian, 2019: Dissipation of mesoscale eddies and its contribution to mixing in the northern South China Sea. Scientific Reports, 9(1), 556.

  17. 范黎明, 李家宁, 孙惠*, 杨庆轩, 2020: 南海北部M2内潮与中尺度涡能量的数值研究. 中国海洋大学学报, 50(11), 1-11.

  18. 张茜, 张小将, 孙惠*, 杨庆轩, 2018: 南海混合的能量源研究. 中国海洋大学学报, 48(4), 9-15.

  19. 张小将, 孙惠, 冀承振, 2018: 基于数值模式的南海北部深层内潮季节变化特征分析. 海洋学报, 40(1), 10-16.



教学活动

本科生课程:《流体力学》《理论力学》


研究兴趣:

海洋内波和混合




HuiSUN


 Associate Professor

 College of Oceanic and Atmospheric Sciences

 Ocean University of China

 238 Songling Rd, Qingdao 266100, China

Email: sunhui@ouc.edu.cn


Education

 09/201006/2014, B.S. in Marine Science, Ocean University of China

 09/201406/2019, Ph.D. in Physical Oceanography, Ocean University of China


EMPLOYMENT

 07/201912/2025, Lecture, Ocean University of China

01/2026Present, Associate Professor, Ocean University of China


Major PROJECTS

  1. 01/202112/2023, National Natural Science Foundation of China (NSFC), Young Scientists Fund, “Generation Mechanism and Energy Cascade of Internal Lee Waves in Shear Flows”, PI

  2. 06/202005/2024, China Postdoctoral Science Foundation, General Program, Modulation Mechanism of the Coupling Process between Internal Tides and Internal Lee Waves on OceanicMixing in the South China Sea”, PI

  3. 10/201909/2021, Fundamental Research Fund for Young Teachers of Central Universities, Mechanism of Internal Lee Wave Generation and AssociatedMixing Induced by Specific Topography in the South China Sea, PI

  4. 01/202512/2029, National Natural Science Foundation of China (NSFC), Major Project (Sub-project), “Ocean Dynamic Processes and Biogenic Material Transport in Remote Island and Reef Waters”, Participant

  5. 01/202012/2023, National Natural Science Foundation of China (NSFC), Key Support Project, Submesoscale Processes over Complex Topography in the Deep Sea of the Northwest Pacific, Participant

  6. 01/202112/2024, National Natural Science Foundation of China (NSFC), General Program, Mechanism of Near-Inertial Internal Wave Generation over Complex Topography in the South China Sea and Its Impact on Deep Ocean Mixing, Participant

  7. 01/202012/2023, National Natural Science Foundation of China (NSFC), General Program, Interaction Between Internal Tides and Mesoscale Eddies in the South China Sea, Participant

  8. 07/201906/2022, Natural Science Foundation of Shandong Province, Distinguished Young Scholars Fund, Mixing in the South China Sea, Participant


PUBLICATIONS(*corresponding author)

  1. Sun, H., Q. Yang*, J. Li, W. Zhao, and J. Tian, 2025: Spectral Features of Internal Waves in the South China Sea. Journal of Physical Oceanography, 55(6), 717-736.

  2. Sun, H.*, Q. Yang*, J. Li, W. Zhao, and J. Tian, 2024: Parameterization of Shear‐To‐Strain Ratio Used in Finescale Parameterization. Journal of Geophysical Research: Oceans, 129(5), e2023JC020393.

  3. Sun, H.*, Q. Yang*, K. Zheng, W. Zhao, X. Huang, and J. Tian, 2022: Internal Lee Waves Generated by Shear Flow Over Small-Scale Topography. Journal of Geophysical Research: Oceans, 127(6), e2022JC018547.

  4. Li, J., Q. Yang*, H. Sun*, S. Zhang, L. Xie, Q. Wang, W. Zhao, and J. Tian, 2023: On the Variation of Dissipation Flux Coefficient in the Upper South China Sea. Journal of Physical Oceanography, 53(2), 551-571.

  5. Fan, L., H. Sun*, Q. Yang*, and J. Li, 2024: Numerical investigation of interaction between anticyclonic eddy and semidiurnal internal tide in the northeastern South China Sea. Ocean Science, 20(1), 241-264.

  6. Li, J., Q. Yang*, H. Sun*, W. Zhao, and J. Tian, 2022: Spatial variation of bottom mixed layer in the South China Sea and a potential mechanism. Progress in Oceanography, 206, 102856.

  7. Sun, H., W. Zhao, Q. Yang*, S. Cai, X. Liang, and J. Tian*, 2019: Estimating Four-Dimensional Internal Wave Spectrum in the Northern South China Sea. Journal of Atmospheric and Oceanic Technology, 36(7), 1199-1216.

  8. Sun, H., Q. Yang*, W. Zhao, X. Liang, and J. Tian, 2016: Temporal variability of diapycnal mixing in the northern South China Sea. Journal of Geophysical Research: Oceans, 121(12), 8840-8848.

  9. Sun, H., Q. Yang*, and J. Tian, 2018: Microstructure measurements and finescale parameterization assessment of turbulent mixing in the northern South China Sea. Journal of Oceanography, 74(5), 485-498.

  10. Sun, H., and Q. Wang*, 2016: Microstructure observations in the upper layer of the South China Sea. Journal of Oceanography, 72(5), 777-786.

  11. Yang, Z., Z. Jing*, X. Zhai, C. Vic, H. Sun, C. de Lavergne, and M. Yuan, 2024: Enhanced generation of internal tides under global warming. Nature Communications, 15(1), 7657.

  12. Li, J., Y. Sun, J. Shi*, G. Guo, H. Sun, and Q. Yang*, 2026: Observed Mixing Processes in Prydz Bay, Antarctica, during Austral Summer. Journal of Physical Oceanography, 56(2), 277-295.

  13. Li, J., Q. Yang*, and H. Sun, 2025a: Dissipation ratio and eddy diffusivity of turbulent and salt finger mixing derived from microstructure measurements. Ocean Science, 21(2), 829-849.

  14. Li, J., Q. Yang*, and H. Sun, 2025b: Vertical velocity in the deep layer of South China Sea revealed by using ECCO product. Journal of Marine Systems, 251, 104110.

  15. Zheng, K., Z. Zhang*, Z. Yang, H. Sun, S. Guan, X. Huang, C. Zhou, W. Zhao, and J. Tian, 2024: Influence of Lee Wave Breaking on Far‐Field Mixing in the Deep Ocean. Journal of Geophysical Research: Oceans, 129(3), e2023JC020386.

  16. Yang, Q.*, M. Nikurashin, H. Sasaki, H. Sun, and J. Tian, 2019: Dissipation of mesoscale eddies and its contribution to mixing in the northern South China Sea. Scientific Reports, 9(1), 556.

  17. Fan, Li, J. LiH. Sun*, and Q. Yang, 2020: Numerical study about the energy of M2 internal tides and mesoscale eddies in the Northern South China Sea. Periodical of Ocean University of China, 50(11), 1-11.

  18. Zhang, Q.,X. Zhang, H. Sun*,and Q. Yang, 2018: Energy source of mixing in the South China Sea. Periodical of Ocean University of China, 48(4): 9-15.

  19. Zhang, X., H. Sun, and C. Ji, 2018: Numerical simulation of internal tides seasonal variations in the deep northern South China Sea. Haiyang Xuebao, 40(1), 10-16.


Courses

 Fluid Mechanics; Theoretical Mechanics


Research Interests

 Oceanic Internal Waves and Mixing