基本信息
浏览量:256
职业迁徙
个人简介
HONORS & AWARDS
2017 Annual Research Highlight, RCEC, Academia Sinica
2014 Best Article Award, 26th The Chinese Institute of Environmental Engineering conference
2012 Short-term overseas visiting Award, Ministry of Science and Technology
2009 Best article Award, 10th Aerosol conference, China & 6th Cross-Strait aerosol conference
2008 Most Cited Article Award (2004-2008) Journal:Terrestrial,Atmospheric & Oceanic Sciences
2006 Annual Research Highlight, RCEC, Academia Sinica
1996 The Phi Tau Phi Scholastic Honor, R.O.C.
ACADEMIC SERVICE
2020-Mar.~present Editorial Board Members, Journal: “Atmosphere”
2017-Aug.~present Associate Editors, Journal: Terrestrial, Atmospheric and Oceanic Sciences (TAO)
2015-May~2017 Apr. Secretary General, Meteorological Society of the Republic of China2
2015, External Examiner for Doctoral Thesis, Earth System and GeoInformation Science, The Chinese
University of Hong Kong Graduate School
2014~present Chair of the Curriculum committee for Earth System Science Program, Taiwan
International Graduate Program (TIGP-ESS), Academia Sinica
2014 Mar~2014 Nov., Member, Admission Committee for Earth System Science Program, Taiwan
International Graduate Program (TIGP-ESS), Academia Sinica,
2010~2016 Board member, Taiwan Group on Earth Observation (TGEO)
2011~2017 Board member, Environmental Protection, Taiwan,
RESEARCH INTERESTS
Mesoscale Meteorology, Regional Climate Changes, Urban Heat Island Effect, Urban pollution, Air quality modeling
RESEARCH HIGHLIGHTS
Improved urban canopy model in WRF and applications: This study evaluated the impact of
urbanization over northern Taiwan using the Weather Research and Forecasting (WRF) model
coupled with the Noah land-surface model and a modified Urban Canopy Model (WRF-UCM2D).
In the original UCM coupled in WRF (WRF-UCM), when the land use in the model grid is
identified as “urban”, the urban fraction value is fixed. Similarly, the UCM assumes the distribution
of anthropogenic heat (AH) to be constant. Such not only may lead to over- or underestimation of
urban fraction and AH in urban and non-urban areas, spatial variation also affects the modelestimated temperature. To overcome the above-mentioned limitations and to improve the
performance of the original UCM model, WRF-UCM is modified to consider the 2-D urban
fraction and AH (WRF-UCM2D). The improved simulation performance of WRF-UCM2D at nonurban areas is attributed to the energy exchange which enables efficient turbulence mixing at low
urban fraction. The achievement of this study has a crucial implication for assessing the
impacts of urbanization on weather, air quality and regional climate.
Regional Climate Changes study: It is difficult and inadequate to use a global model alone for
projecting future climate changes such as Taiwan, a complex geographic nature island, due to its
coarse resolution. We have performed dynamic downscaling of Taiwan’s climate in the recent
past (1979-2003) and climate change projection for the near and distant future (2015-2039 and
2075-2099, respectively) by using the Weather Research Forecasting (WRF) model. The
simulation is forced by the Max Plank Institute Hamburg, global model, ECHAM5/MPIOM.
Projection of future climate changes revealed both altitudinal and latitudinal variations in warming
trend, with more significant temperature increase in mountain areas than in plain areas toward 3
the end of the 21st century and more obvious warming in the north than in the south of Taiwan.
The results obtained in this study can be applied to other regions of similar latitudes and with
comparable relief
2017 Annual Research Highlight, RCEC, Academia Sinica
2014 Best Article Award, 26th The Chinese Institute of Environmental Engineering conference
2012 Short-term overseas visiting Award, Ministry of Science and Technology
2009 Best article Award, 10th Aerosol conference, China & 6th Cross-Strait aerosol conference
2008 Most Cited Article Award (2004-2008) Journal:Terrestrial,Atmospheric & Oceanic Sciences
2006 Annual Research Highlight, RCEC, Academia Sinica
1996 The Phi Tau Phi Scholastic Honor, R.O.C.
ACADEMIC SERVICE
2020-Mar.~present Editorial Board Members, Journal: “Atmosphere”
2017-Aug.~present Associate Editors, Journal: Terrestrial, Atmospheric and Oceanic Sciences (TAO)
2015-May~2017 Apr. Secretary General, Meteorological Society of the Republic of China2
2015, External Examiner for Doctoral Thesis, Earth System and GeoInformation Science, The Chinese
University of Hong Kong Graduate School
2014~present Chair of the Curriculum committee for Earth System Science Program, Taiwan
International Graduate Program (TIGP-ESS), Academia Sinica
2014 Mar~2014 Nov., Member, Admission Committee for Earth System Science Program, Taiwan
International Graduate Program (TIGP-ESS), Academia Sinica,
2010~2016 Board member, Taiwan Group on Earth Observation (TGEO)
2011~2017 Board member, Environmental Protection, Taiwan,
RESEARCH INTERESTS
Mesoscale Meteorology, Regional Climate Changes, Urban Heat Island Effect, Urban pollution, Air quality modeling
RESEARCH HIGHLIGHTS
Improved urban canopy model in WRF and applications: This study evaluated the impact of
urbanization over northern Taiwan using the Weather Research and Forecasting (WRF) model
coupled with the Noah land-surface model and a modified Urban Canopy Model (WRF-UCM2D).
In the original UCM coupled in WRF (WRF-UCM), when the land use in the model grid is
identified as “urban”, the urban fraction value is fixed. Similarly, the UCM assumes the distribution
of anthropogenic heat (AH) to be constant. Such not only may lead to over- or underestimation of
urban fraction and AH in urban and non-urban areas, spatial variation also affects the modelestimated temperature. To overcome the above-mentioned limitations and to improve the
performance of the original UCM model, WRF-UCM is modified to consider the 2-D urban
fraction and AH (WRF-UCM2D). The improved simulation performance of WRF-UCM2D at nonurban areas is attributed to the energy exchange which enables efficient turbulence mixing at low
urban fraction. The achievement of this study has a crucial implication for assessing the
impacts of urbanization on weather, air quality and regional climate.
Regional Climate Changes study: It is difficult and inadequate to use a global model alone for
projecting future climate changes such as Taiwan, a complex geographic nature island, due to its
coarse resolution. We have performed dynamic downscaling of Taiwan’s climate in the recent
past (1979-2003) and climate change projection for the near and distant future (2015-2039 and
2075-2099, respectively) by using the Weather Research Forecasting (WRF) model. The
simulation is forced by the Max Plank Institute Hamburg, global model, ECHAM5/MPIOM.
Projection of future climate changes revealed both altitudinal and latitudinal variations in warming
trend, with more significant temperature increase in mountain areas than in plain areas toward 3
the end of the 21st century and more obvious warming in the north than in the south of Taiwan.
The results obtained in this study can be applied to other regions of similar latitudes and with
comparable relief
研究兴趣
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