MICS-ASIA (Model Inter-comparison Study Asia)

开始时间: 2024年8月8日

结束时间: 2024年8月10日

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张婷

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刘杰
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住宿联系人
马晨光
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The long-standing MICS-Asia program enters its fourth phase with an in-person meeting! From August 8-10, 2024, join Gregory R. Carmichael and other international modeling experts at the Earth Simulator, a National Large-Scale Scientific Facility. Don't miss out!


Aims and Significance of MICS-Asia

 The MICS-ASIA (Model Inter-comparison Study Asia) program focuses on the comparative study of long-range transport models of pollutants in Asia. It was initiated by the International Institute for Applied Systems Analysis (IIASA), the Acid Deposition and Oxidant Research Center (ADORC) in Japan, the University of Iowa in the United States, and the Institute of Atmospheric Physics, CAS (IAP). The program evaluates the air quality simulation capabilities of eight different models for the East Asian region, aiming to deepen the understanding of the chemical mechanisms and transport patterns of long-range transboundary air pollution in East Asia. Additionally, it seeks to provide technical methods to reduce uncertainties in Asian air quality, establish a more reasonable inventory of anthropogenic emission sources in the region, and study the interactions between atmospheric environment and climate change.


Experts

Gregory R. Carmichael

Affiliation: The University of Iowa, USA

Research areas:

  • Air quality and atmospheric chemistry modeling
  • Data assimilation
  • Chemical weather forecasting

Hajime Akimoto
Affiliation: National Institute for Environmental Studies, Japan

 Research areas

  • Transport and chemical transformation of species in the troposphere.
  • Air quality and climate change.
 

Zifa Wang
Affiliation: Institute of Atmospheric Physics

Research Areas:

  • Atmospheric pollution transport and deposition
  • Development of atmospheric chemistry models
  • Research on theories and methods for air quality forecasting
 Itsushi UNO
Affiliation: Kyushu University Fukuoka, Japan

Research areas

  • Social infrastructure (civil Engineering, architecture, disaster prevention) / Civil engineering (environmental systems) 
  • Natural sciences / Atmospheric and hydrospheric science 
  • Environmental science/Agricultural science / Environmental dynamics
 

Markus Amann
Affiliation: International Institute for Applied Systems Analysis, Austria

Research areas

  • Air pollution simulation analysis
  • Evaluation of pollution reduction and control benefits
 

Joshua S. Fu
Affiliation: University of Tennessee, USA

Research areas

  • Energy, climate change, and air quality
  • Artificial intelligence and machine learning in air quality, weather, and climate forecast, and mapping deposition, energy demand, and human health
  • Assessment of intercontinental transport and climatic effects of air pollutants: Global and Regional Modeling of Ozone and Particular Matter Transportation and air quality
 

Shaocheng Liu
Affiliation: Jinan University  

Research Areas:

  • Atmospheric chemistry
  • Air quality
  • Budget of trace gases and aerosols
 

Oliver Wild
Affiliation: Lancaster Environment Centre, Lancaster University, UK

Research areas

  • Intercontinental transport of ozone and its precursors
  • Indirect climate impacts of short-lived gases such as NOx and CO through their influence over tropospheric chemistry
  • Atmosphere-biosphere interactions and the role of atmospheric chemistry in the Earth System
 

Jung-Hun Woo
Affiliation: Konkuk University, Korea

Research areas

  • Air Quality Management
  • Develop comprehensive emission inventories and scientifically enhanced climate-air quality Integrated Assessment Models (IAMs) at local, national, and global scales
 

Junling An
Affiliation: Institute of Atmospheric Physics

Research Areas:

  • Development of air quality models and numerical simulation of pollutant evolution mechanisms
  • Simulation of sudden atmospheric pollution events
  • Development and application of long-term soil acidification dynamic models
 

Zhiwei Han
Affiliation: Institute of Atmospheric Physics

Research Areas:

  • Atmospheric pollution
  • Physical and chemical processes and evolution mechanisms of atmospheric chemistry and aerosols
  • Atmospheric chemistry/aerosol-climate coupling models
 Yu Song
Affiliation: Peking University

Research Areas:

  • Numerical simulation of the atmospheric boundary layer and atmospheric diffusion
  • Source estimation, analysis, and inversion
  • Application of satellite data in atmospheric environment
  • Impact of air pollution on human health
 

Shuxiao Wang
Affiliation: Tsinghua University

Research Areas:

  • Characterization of atmospheric pollutants and greenhouse gas emissions
  • Air quality modeling
  • Smart regulation of air quality
 Bin Zhu
Affiliation: Nanjing University of Information Science & Technology

Research Areas:

  • Atmospheric chemistry and atmospheric environment
  • Interactions between atmospheric components and climate
 

Keding Lu
Affiliation: Peking University

Research Areas:

  • High-sensitivity optical measurement techniques
  • Atmospheric free radical chemistry
  • Coordinated strategies for pollution reduction and carbon reduction
  

Meeting Venue

Address: Xier Street, Miyun District, Beijing (Miyun Economic Development Zone, Eastern Cluster of Huairou Science City)

The Earth System Numerical Simulation Facility (EarthLab) is a major national scientific infrastructure project under China’s 12th Five-Year Plan. The Institute of Atmospheric Physics, CAS, is the lead institution, with Tsinghua University as a co-constructor. EarthLab is China's first Earth system numerical simulation facility with proprietary intellectual property. It features world-leading software and hardware capabilities, specifically designed for comprehensive Earth system simulations, with a building area of 24,310 square meters.

Choosing EarthLab as the meeting venue offers several key advantages. Firstly, EarthLab boasts advanced infrastructure, being China’s first Earth system numerical simulation facility with proprietary intellectual property. It has world-class software and hardware capabilities, designed for comprehensive Earth system simulations, and possesses multidisciplinary research abilities, making it an ideal place for supporting climate model inter-comparison studies. 

Additionally, EarthLab provides scientific support for major international issues such as climate change response and atmospheric environment management. Hosting the conference here will emphasize the importance of this event in addressing international issues. 

Furthermore, as part of the Eastern Cluster of Huairou Science City, EarthLab is a crucial component of the “Beijing National Comprehensive Science Center” and “Beijing Science and Technology Innovation Center”. Holding the conference here will not only facilitate participants’ focus on the development and comparison of climate models but also expand EarthLab’s international perspectives and enhance the possibilities for future domestic and international exchanges.


Session Schedule