aerocom:data_base_user_overview

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aerocom:data_base_user_overview [2012-04-20 14:05:20]
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aerocom:data_base_user_overview [2022-05-31 09:29:31] (current)
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 +ATTENTION - THIS WIKI PAGE IS NO LONGER UPDATED - PLEASE GO TO [[http://aerocom.met.no/|aerocom.met.no]]FOR LATEST INFO
 +
 ===== DATABASE USER OVERVIEW ===== ===== DATABASE USER OVERVIEW =====
  
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 ==== ACTIVE USERS ==== ==== ACTIVE USERS ====
- +Xiaoli Wang(wangxl14@pku.edu.cnwangxl14@pku.edu.cn,Peking University,Beijing,China,//Oct,2015//. To compare simulated the global air concentration of several air pollutants by Mozart-4 Model with observed or other modeled data
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-Achim Strunk (astrunkstrunk@knmi.nlKNMINetherlands // Sep 2011Model author TM5-V3 .//+
  
 Andrew Gettelman (agettel) andrew@ucar.edu, NCAR, Boulder, USA // Model author; Model submission CAM-BAM to the 2nd indirect intercomparison exercise, July 2008.// Andrew Gettelman (agettel) andrew@ucar.edu, NCAR, Boulder, USA // Model author; Model submission CAM-BAM to the 2nd indirect intercomparison exercise, July 2008.//
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 Kostas Tsigaridis (ktsiga) kt2347@columbia.edu, University of Columbia, USA // Model author GISS ,  Analysis of organic model intercomparison.// Kostas Tsigaridis (ktsiga) kt2347@columbia.edu, University of Columbia, USA // Model author GISS ,  Analysis of organic model intercomparison.//
  
-Peter Vohralik (Peter.Vohralik@csiro.auCSIRO, Australia // Development of the ACCESS climate model. Particular interest is aerosols, comparing ACCESS aerosol-related fields with available measurements and model results – including AeroCom and CMIP5 data.  Plan to compare ACCESS with AeroCom median/mean results as part of ongoing model development. +Peter Vohralik (Peter.Vohralik@csiro.auCSIRO, Australia // Development of the ACCESS climate model. Particular interest is aerosols, comparing ACCESS aerosol-related fields with available measurements and model results – including AeroCom and CMIP5 data.  Plan to compare ACCESS with AeroCom median/mean results as part of ongoing model development. //
  
 Maria Kanakidou (mkanak) mariak@chemistry.uoc.gr, University of Crete, Greece // Model author TM4, Analysis of organic aerosol in phase II experiments together with Kostas Tsigaridis.// Maria Kanakidou (mkanak) mariak@chemistry.uoc.gr, University of Crete, Greece // Model author TM4, Analysis of organic aerosol in phase II experiments together with Kostas Tsigaridis.//
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 Toshi Takemura (ttake) toshi@riam.kyushu-u.ac.jp , University of Kyushu, Japan // Model Author SPRINTARS. // Toshi Takemura (ttake) toshi@riam.kyushu-u.ac.jp , University of Kyushu, Japan // Model Author SPRINTARS. //
 +
 +Twan van Noije, noije@knmi.nl, KNMI, Netherlands // Model author for TM5.//
  
 Yiran Peng (ypeng) Yiran.Peng@ec.gc.ca, Canadian Centre for Climate Modelling and Analysis, Meteorological Service of Canada, Canada // Sep 2011, Interest in dust radiative forcing, Peng et al. ACPD 2011.// Yiran Peng (ypeng) Yiran.Peng@ec.gc.ca, Canadian Centre for Climate Modelling and Analysis, Meteorological Service of Canada, Canada // Sep 2011, Interest in dust radiative forcing, Peng et al. ACPD 2011.//
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 Jason Blake Cohen, (..) jasonbc@smart.mit.edu, Singapore-MIT Alliance for Research & Technology / CENSAM // Model Data provider  // Jason Blake Cohen, (..) jasonbc@smart.mit.edu, Singapore-MIT Alliance for Research & Technology / CENSAM // Model Data provider  //
  
-Christian Hogrefe (...) hogrefe.christian@epa.gov , Atmospheric Modeling and Analysis Division, National Exposure Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency //Plans to explore the potential use of archived AeroCom hindcast simulations to derive boundary conditions for long-term regional-scale air quality simulations.//+Christian Hogrefe (hogrefe.christian@epa.gov, Atmospheric Modeling and Analysis Division, National Exposure Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency //Plans to explore the potential use of archived AeroCom hindcast simulations to derive boundary conditions for long-term regional-scale air quality simulations.// 
 + 
 +Ping Yang / Bingqi Yi (bingqi.yi@tamu.edu) Department of Atmospheric Sciences, Texas A&M University, USA // We are interested in estimating the effect of aerosol morphology on direct aerosol radiative forcing. Observations have shown solid evidence that aerosolcparticles are largely nonspherical. Most numerical models, however, treat aerosols as spheres using Mie theory to calculate their optical properties. We intend to look at AeroCom aerosol forcing products (especially for dust and black carbon) and compare them with results using our new optical property parameterizations. We would also use the AeroCom archive of observational dataset as the benchmark. The expected results will greatly improve our understanding of the uncertainty of aerosol particle shape in affecting radiation. Another focus of attention in our study will be on the interactions between aerosols and monsoon. Monsoon is known to play an important role in regulating the aerosol distribution, while aerosols inversely affect the monsoon intensity. We would investigate the performance of AeroCom models in the aerosol‐monsoon relationship in the global and regional scales. // 
 + 
 +Markus Putzke (markus.putzke@rolls-royce.com) Rolls-Royce Deutschland, Potsdam, Germany// International Aero Engines AG; Project Reliabilty study to quantifiy erosion on aircraft engines (Diplomarbeit); time frame now - End of October 2012; Goal: Analysing of AeroCom model data to get information about aerosol characteristics in different places in the world. The aim is to quantify erosion in aircraft engines. Aerosol data will be selected for the current inspected engine and will be accomplished with specific flightprofiles. //
  
 ==== EARLIER USERS STILL WITH ACCOUNT ==== ==== EARLIER USERS STILL WITH ACCOUNT ====
  
 Database users with no recent update info or no further AeroCom analysis planned Database users with no recent update info or no further AeroCom analysis planned
 +
 +Achim Strunk (astrunk) strunk@knmi.nl, KNMI, Netherlands // Sep 2011, Model author TM5-V3 .//
  
 Lauren Zamora (lzamora) lzamora@ifm-geomar.d, Marine Science (IFM-GEOMAR) in Kiel, Germany// Sep 2011, Used the AeroCom dust models to estimate phosphorus deposition to the ocean based on dust:phosphorus ratios.  That work was published here: L.M. Zamora, A. Landolfi, A. Oschlies, D.A. Hansell, H. Dietze, F. Dentener.  Atmospheric deposition of nutrients and excess N formation in the North Atlantic, 2010.  Biogeosciences, 7: 777-793. Currently no direct intention to use the AeroCom data again.// Lauren Zamora (lzamora) lzamora@ifm-geomar.d, Marine Science (IFM-GEOMAR) in Kiel, Germany// Sep 2011, Used the AeroCom dust models to estimate phosphorus deposition to the ocean based on dust:phosphorus ratios.  That work was published here: L.M. Zamora, A. Landolfi, A. Oschlies, D.A. Hansell, H. Dietze, F. Dentener.  Atmospheric deposition of nutrients and excess N formation in the North Atlantic, 2010.  Biogeosciences, 7: 777-793. Currently no direct intention to use the AeroCom data again.//
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