本實驗室主要運用及分析氣象觀測資料,藉以來探討大氣的降水機制與過程。各類中小尺度的天氣現象如颱風、鋒面、颮線等皆在研究範疇。
Our lab focus on the investigating mechanisms and processes of atmospheric precipitation via meteorological observations. We will imporve our understanding with various weather phenomena such as mesoscale convection systems, typhoons, fronts, squall lines, etc.
中國文化大學 大氣科學系 助理教授
Assistant Professor, Dept. Atmospheric Sciences, Chinese Culture University
Office: 典408-2
TEL: +886-2-2861-0511#25822
Email : CJL10@ulive.pccu.edu.tw CV 2025
2013 中國文化大學 大氣科學 博士 / Ph. D., Atmospheric Sciences, Chinese Culture University
2005 中國文化大學 大氣科學 學士 / B. S., Atmospheric Sciences, Chinese Culture University
助理教授 / Assistant Professor [Feb. 2023 – Present]
中國文化大學 大氣科學系 / Department of Atmospheric Sciences, Chinese Culture University, Taiwan
資深研究員 / Senior Researcher [Jan. 2020- Jan. 2023]
韓國 國立慶北大學 大氣遙測中心 / Center for Atmospheric REmote Sensing (CARE), Kyungpook National University, South Korea
訪問科學家 / Visiting Scientist [Jan.-Apr. 2020]
美國 國家大氣科學研究中心 中小尺度氣象實驗室 / Mesoscale and Microscale Meteorology Lab. (MMM), National Center for Atmospheric Research (NCAR), USA
博士後研究員 / Postdoctoral Researcher [Jun. 2018- Dec. 2019]
法國 國家科學研究中心 大氣與氣旋實驗室 / Laboratoire de l’Atmosphère et des Cyclones (LACy, UMR-8105)/ Centre National de la Recherche Scientifique (CNRS)/ Meteo France/ Université de La Réunion, France
特約教授 / Contract Professor [Sep. 2016- Apr. 2018]
韓國 國立慶北大學 天文與大氣科學系 / Department of Astronomy and Atmospheric Sciences, Kyungpook National University, South Korea
博士後研究員 / Postdoctoral Researcher [Aug. 2014- Jul. 2016]
國立台灣大學 大氣科學系 / Department of Atmospheric Sciences, National Taiwan University, Taiwan
博士後研究員 / Postdoctoral Researcher [Aug. 2013- Jul. 2014]
中國文化大學 大氣科學系 / Department of Atmospheric Sciences, Chinese Culture University, Taiwan
Liou Y.-C., P.-C. Yang, W.-N. Chen, Y.-C. Lee, Y.-C. Hsu, C.-L. Tsai, P. -L. Lin, B. Su, C.-W. Lan, and F. Chen, 2025: The characteristics of three-dimentional wind and thermodynamic fields in the clear-air boundary layer retrieved by using two scanning Doppler lidar observations. Mon. Wea. Rev., In press.
Lee, C.-L., W. Bang, C.-L. Tsai, G. Lee, 2025: Classification of Precipitation Types and Investigation of theirPhysical Characteristics Using Three-Dimensional S-band dual-polarization Radar Data. Remote Sens., 17(14), 2506; https://doi.org/10.3390/rs1714250.
Tsai, C.- L., K. Kim, Y.- C. Liou, and G. Lee, 2025c: Advantages of using multiple Doppler radars with different wavelengths for three dimensional wind retrieval. Atmos. Measure. Tech., under review. https://doi.org/10.5194/egusphere-2025-1908
Tsai, C.- L., K. Kim, H. Park, H. Park, W. Bang and G. Lee, 2025b: Association Between Upstream Conditions and the Intensity of Orographic Precipitation in the Main Mountain Ranges of South Korea. Earth and Space Science, 12, e2024EA003989. https://doi.org/10.1029/2024EA003989
Kim, K., C.- L. Tsai, and G. Lee, 2025:A radar-based investigation of precipitation growth and decay in South Korea. Q. J. R. Meteorol. Soc., e4988. https://doi.org/10.1002/qj.4988
Tsai, C.- L., K. Kim, Y.- C. Liou, and G. Lee, 2025a:Variability in the Microphysical Characteristics Associated with Orographic Airflow in the Mountainous Pyeongchang Region. Mon. Wea. Rev., 153, 691-716. https://doi.org/10.1175/MWR-D-24-0075.1
Swastiko, W. A., C.-L. Tsai, S. H. Kim, and G. Lee, 2024: Kinematic and Dynamic Structure of the 18 May 2020 Squall line over South Korea. Remote Sens., 16(8), 1474; https://doi.org/10.3390/rs16081474.
Tsai, C.- L., K. Kim, Y.- C. Liou, and G. Lee, 2023: High Resolution 3D Winds Derived from a Modified WISSDOM Synthesis Scheme using Multiple Doppler Lidars and Observations. Atmos. Measure. Tech., 16, 845-869. https://doi.org/10.5194/amt-16-845-2023.
Tsai, C.- L., K. Kim, Y.- C. Liou, J.- H. Kim, Y. Lee, and G. Lee, 2022: Orographic- induced strong wind associated with a low-pressure system under clear-air condition during ICE-POP 2018. Journal of Geophysical Research: Atmospheres, 127, e2021JD036418. https://doi.org/10.1029/2021JD036418
Park, J.- R., J.- H., Kim, Y. Shin, S.- H. Kim, H.- Y. Chun W. Jang, C.- L. Tsai, G. Lee, 2022: A numerical simulation of a strong windstorm event in the Taebaek Mountain Region in Korea during the ICE-POP 2018. Atmos. Res. 272. 106158. https://doi.org/10.1016/j.atmosres.2022.106158
Kim, K., W. Bang, E.- C. Chang, F. J. Tapiador, C.- L. Tsai, E. Jung, and G. Lee, 2021: impact of wind pattern and complex topography on snow microphysics during ICE-POP 2018. Atmos. Chem. Phys., 21, 11955-11978. https://doi.org/10.5194/acp-21-11955-2021
Barthe, C., O. Bousquet, S. Bielli, P. Tulet, J. Pianezze, M. Claeys, C.- L. Tsai, C. Thompson, F. Bonnardot, F. Chauvin, J. Cattiaux, M.-N. Bouin, V. Amelie, G. Barruol, R. Calmer, S. Ciccione, E. Cordier, Q.-P. Duong, J. Durand, F.; Husson, R. Fleischer-Dogley, E. Lees, S. Malardel, N. Marquestaut, A. Mavume, D. Mékiès, A. Mouche, N.M. Ravoson, B. Razafindradina, E. Rindraharisaona, G. Roberts, M. Singh, L. Zakariasy, J. Zucule, 2021: Impact of Tropical Cyclones on Inhabited Areas of the SWIO Basin at Present and Future Horizons. Part 2: Modeling Component of the Research Program RENOVRISK- CYCLONE. Atmosphere, 12, 689. https://doi.org/10.3390/atmos12060689
Bousquet, O. G. Barruol, E. Cordier, C. Barthe, S. Bielli, R. Calmer, E. Rindraharisaona, G. Roberts, P. Tulet, V. Amelie, F. Fleischer-Dogley, A. Mavume, J. Zucule, L. Zakariasy, B. Razafindradina, F. Bonnardot, M. Singh, E. Lees, J. Durand, D. Mekies, M. Claeys, J. Pianezze, C. Thompson, C.- L. Tsai, R. Husson, A. Mouche, S. Ciccione, J. Cattiaux, F. Chauvin, N. Marquestaut, 2021: Impact of Tropical Cyclones on Inhabited Areas of the SWIO Basin at Present and Future Horizons. Part 1: Overview and Observing Component of the Research Project RENOVRISK-CYCLONE. Atmosphere, 12, 544, http://dx.doi.org/10.3390/atmos12050544.
Yu, C.- K., L.- W. Cheng, C.- C. Wu, C.- L. Tsai, 2020: Outer Tropical Cyclone Rainbands Associated with Typhoon Matmo (2014). Mon. Wea. Rev., 148, 2935- 2952. https://doi.org/10.1175/MWR-D-20-0054.1
Cattiaux J., F. Chauvin, O. Bousquet, S. Malardel, C.- L. Tsai, 2019: Projected changes in the Southern Indian Ocean cyclone activity assessed from high-resolution experiments and CMIP5 models. J. Clim., 33, 4975-4991. https://doi.org/10.1175/JCLI-D-19-0591.1
Tsai, C.- L.*, K. Kim, Y.- C. Liou, G. Lee, and C.- K. Yu, 2018: Impacts of Topography on Airflow and Precipitation in the Pyeongchang Area Seen from Multiple-Doppler Radar Observations. Mon. Wea. Rev., 146, 3401-3024. https://doi.org/10.1175/MWR-D-17-0394.1
Yu, C.- K., and C.- L. Tsai, 2017: Structural changes of an outer tropical cyclone rainband encountering the topography of northern Taiwan. Q. J. R. Meteorol. Soc., 143, 1107-1122. https://doi.org/10.1002/qj.2994
Yu, C. -K., P. -R. Hsieh, S. E. Yuter, L. -W. Cheng, C.- L. Tsai, C. -Y. Lin, and Y. Chen, 2016: Measuring droplet fall speed with a high-speed camera: indoor accuracy and potential outdoor applications, Atmos. Meas. Tech., 9, 1755-1766, https://doi.org/10.5194/amt-9-1755-2016
Yu, C. -K., and C.- L. Tsai, 2013: Structural and surface features of arc-shaped radar echoes along an outer tropical cyclone rainband. J. Atmos. Sci., 70, 56-72. https://doi.org/10.1175/JAS-D-12-090.1
Tsai, C.- L., and C. -K. Yu, 2012: Intercomparison analysis for Micro Rain Radar observations. Atmos. Sci., 40, 109-134. (In Chinese with English abstract). 40-2-1 微波降雨雷達觀測之評估分析 (ntu.edu.tw)
Tsai, C.- L., and C. -K. Yu, 2012: Structures of a typhoon rainband documented by dual-Doppler observations. Quart. J. Meteor., 211, 9-21. (In Chinese with English abstract)
Yu, C. -K., and C.- L. Tsai, 2010: Surface pressure features of landfalling typhoon rainbands and their possible causes. J. Atmos. Sci., 67, 2893-2911. https://doi.org/10.1175/2010JAS3312.1
Tsai, C.- L., and C. -K. Yu, 2006: Preliminary analysis and application of the Micro Rain Radar observations. Quart. J. Meteor., 188, 29-37. (In Chinese with English abstract)
2nd Semester 2025
1St Semester 2025
2nd Semester 2024
1st Semester 2024
2nd Semester 2023
Project
114 年度 / 2025
計畫名稱:
地形效應與對流肇始及跨尺度成長之探討
Impact of orographic effects on the convection initiation and upscale convection growth
擔任工作:計畫主持人 / PI
核定經費(新台幣):2,100,000 (NTD)
113 年度 / 2024
計畫名稱:嘉義晴空大氣邊界層觀測實驗計畫
擔任工作:計畫主持人 / PI
核定經費(新台幣):3,000,000 (NTD)
112 年度 / 2023
計畫名稱:中小尺度對流系統先期肇始之觀測研究
擔任工作:計畫主持人 / PI
核定經費(新台幣):1,314,000 (NTD)
專任研究助理
國立中央大學 大氣科學學系 碩士
Full time Research Assistant
MS., Dept. Atmospheric Sciences, Nationa Central University
專任助理
中國文化大學 大氣科學系 學士
Full time Assistant [administration],
BS., Dept. Atmospheric Sciences, Chinese Culture University
中國文化大學 大氣科學系 三年級
Junior, Dept. Atmospheric Sciences, Chinese Culture University
現在工作: 雷達與測站資料分析
Present works: Analyzing radar data and AWS data
研究主題:桃園對流肇始與跨尺度成長
Research topic: Convection initiation at Taoyuan and following upscale convection growth
中國文化大學 大氣科學系 二年級
Sophomore, Dept. Atmospheric Sciences, Chinese Culture University
現在工作:
Present works: TBD
Research topic: TBD
中國文化大學 大氣科學系 專任研究助理 [31 Jul 2025]
Research Assistant, Dept. Atmospheric Sciences, Chinese Culture University
研究主題:中小尺度對流系統肇始機制
Research topic: The early initiation of meso- and micro-scale convection systems
中國文化大學 大氣科學系 四年級 [31 Jul 2025]
華岡測候站 站員 [Sep. 2022 - Jun. 2023]
華岡測候站 站長 [Jul. 2023 - Present]
Senior, Dept. Atmospheric Sciences, Chinese Culture University
Observer of Meteorological Station at Hwa-Kang, Chinese Culture University, Taipei, Taiwan [Sep. 2022 - Jun. 2023]
Chair Observer of Meteorological Station at Hwa-Kang, Chinese Culture University, Taipei, Taiwan [Jul. 2023 - Present]
研究主題:降水粒子在垂直方向之變化特徵與機制探討
Research topic: Vertical variations of falling precipitation particle and its mechanisms
中國文化大學 大氣科學系 四年級 [31 Jul 2025]
中國文化大學 大氣科學系 四年級 [31 Jul 2025]
Photos and RADAR images
Convection Initiation @ Chia-Yi
CABLE-FAOSE-2025
Bowing MCS
丹娜絲颱風 2025
2025/0728 強降雨事件
Convection Initiation
Convection Initiation & Upscale Convection Growth
Typhoon is looping when approaching
即時氣象資訊/Realtime Meteorological Information