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Shi Yunhao

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E-mail: shiyunhao@tsinghua.edu.cn/yunhao_miracle@163.com

Education Background
2017-2020: University of Chinese Academy of Sciences (Meteorology - PhD)
2014-2017: China Meteorological Administration (Atmospheric Sciences - Master's)
2010-2014: Ocean University of China (Atmospheric Sciences - Bachelor's)
Work Experience
2022-Present: Postdoctoral Researcher/ Assistant Researcher, Department of Earth System Science, Tsinghua University
2020-2022: Engineer, China Meteorological Administration
Research Interests
1.Numerical simulation and physical mechanisms of tropical waves and MJO on tropical cyclone generation
2.Influence mechanisms of tropical cyclones and MJO on ENSO diversity formation
3.Influence mechanisms of westerly wind bursts on ENSO formation
4.Climatic characteristics and physical mechanisms of rapid changes in tropical cyclone intensity
Awards & Honors
1.Awarded Academic Scholarships from the University of Chinese Academy of Sciences for 2017-2018, 2018-2019, and 2019-2020
2.Participated in the 2019 Tsinghua University Graduate International Forum on "Climate Change and Sustainable Development" held in Beijing from November 17-19, 2019, and delivered a presentation titled "A new Equatorial Oscillation Index as an alternative to the Southern Oscillation Index for better describing ENSO," which was awarded "Best Presentation" (first author).
3.In December 2021, participated in the sixth international remote training course on tropical cyclone monitoring and forecasting organized by the World Meteorological Organization in Beijing and delivered a presentation as a representative, receiving the Outstanding Participant award.
research situation
职称 办公电话
电子邮件 shiyunhao@tsinghua.edu.cn/yunhao_miracle@163.com 研究组主页
教育背景 2017-2020: University of Chinese Academy of Sciences (Meteorology - PhD)
2014-2017: China Meteorological Administration (Atmospheric Sciences - Master's)
2010-2014: Ocean University of China (Atmospheric Sciences - Bachelor's)		 工作经历 2022-Present: Postdoctoral Researcher/ Assistant Researcher, Department of Earth System Science, Tsinghua University
2020-2022: Engineer, China Meteorological Administration
研究兴趣 1.Numerical simulation and physical mechanisms of tropical waves and MJO on tropical cyclone generation
2.Influence mechanisms of tropical cyclones and MJO on ENSO diversity formation
3.Influence mechanisms of westerly wind bursts on ENSO formation
4.Climatic characteristics and physical mechanisms of rapid changes in tropical cyclone intensity		 奖励荣誉 1.Awarded Academic Scholarships from the University of Chinese Academy of Sciences for 2017-2018, 2018-2019, and 2019-2020
2.Participated in the 2019 Tsinghua University Graduate International Forum on "Climate Change and Sustainable Development" held in Beijing from November 17-19, 2019, and delivered a presentation titled "A new Equatorial Oscillation Index as an alternative to the Southern Oscillation Index for better describing ENSO," which was awarded "Best Presentation" (first author).
3.In December 2021, participated in the sixth international remote training course on tropical cyclone monitoring and forecasting organized by the World Meteorological Organization in Beijing and delivered a presentation as a representative, receiving the Outstanding Participant award.

Academic achievement:

Academic Papers:

1. Yunhao Shi, Jingzhi Su*. A New Equatorial Oscillation Index for Better Describing ENSO and Westerly Wind Bursts[J]. Journal of Meteorological Research, 2020, 34(5): 135-147.

2. Yunhao Shi, Jingzhi Su*. A Statistical Comparison of the Westerly Wind Bursts between the Positive and Negative Phases of the PDO[J]. Journal of Meteorological Research, 2020, 34(2): 315-324.

3. Shi Yunhao. The role of westerly wind bursts in the evolution of ENSO [D]. Chinese Academy of Meteorological Sciences, 2020.

4. Shi Yunhao, Lei Xiaotu *. Preliminary analysis of regional climate drift and its causes in rapid intensification of tropical cyclones [J]. Rainstorm disaster, 2018, 37(6): 502-510.(in Chinese)

5. Shi Yunhao. Study on Maximum possible change of typhoon intensity [D]. Chinese Academy of Meteorological Sciences, 2017.

6. Zhu Chenyu, Huang Fei, Shi Yunhao, Dang Zhenzhong, Zhang Yuxuan. Spatial and temporal characteristics of cold air in recent 50 years in China and its relationship with Arctic sea ice [J]. Journal of Ocean University of China (Natural Science), 2014, 44(12): 12-20. (in Chinese)

Teaching:

1. Training course at the Meteorological Cadre Training College of the China Meteorological Administration: Introduction to the basic concepts of "Carbon Peak and Carbon Neutrality" and the progress of climate resource applications.

2. Training course at the Meteorological Cadre Training College of the China Meteorological Administration: Exploring new methods for ENSO prediction—The impact of westerly wind bursts on ENSO evolution.

Projects Led or Participated In:

1. Research project at the Cadre College: The impact of tropical cyclones on westerly wind bursts, April 2021 to April 2022, Principal Investigator.

2. National College Students' Innovation and Entrepreneurship Training Program: Spatiotemporal distribution characteristics of cold air during cold waves in China over the past 50 years and its relationship with Arctic sea ice, January 2013 to January 2014, Principal Investigator.

3. National Natural Science Foundation of China, General Program, 42175008: Mechanisms of the influence of upper-level cold air on the rapid intensification of coastal tropical cyclones in China, January 1, 2022 to December 31, 2025, 580,000 RMB, Participant.

4. National Natural Science Foundation of China, Young Scientists Fund, 41805040: Mechanisms of intensity and structural changes in double tropical cyclones, January 1, 2019 to December 31, 2021, 250,000 RMB, Participant.

5. Ministry of Science and Technology, National Key Research and Development Program, 2019YFC1510000: Integration and application of weather-climate coupled models based on unstructured grids, January 2020 to December 2022, 19.14 million RMB, Participant.

6. Ministry of Science and Technology, National Key Research and Development Program, 2016YFA0600602: Research on air-sea interactions in key tropical regions under global warming and their impact on East Asian monsoon climate, July 2016 to July 2021, 38.5 million RMB, Participant.

7. Key Laboratory of Disaster Weather, China Meteorological Science Research Institute, Key Project: Fine simulation of wind and rain before and after typhoon landfall, March 2021 to February 2024, 200,000 RMB, Participant.

8. State Key Laboratory of Tropical Ocean Environment, Chinese Academy of Sciences, Open Project, LTO2003: Mechanisms and predictability of double typhoon formation in the Indian Ocean, July 2020 to June 2023, 200,000 RMB, Participant.

9. Numerical Weather Prediction Center, China Meteorological Administration, Special Project for Numerical Prediction Model Development, CXFZ2022M001: Development of assessment and diagnostic techniques for cyclones and tropical precipitation in the CMA-GFS model, August 2023 to August 2024, 250,000 RMB, Participant.