・3km-grid, 35 vertical layers ・driven by JMA-MSM met. (5km)

Slides:

Advertisements

Similar presentations

The University of Reading Helen Dacre UM user 2009 Forecasting the transport of pollution using a NWP model ETEX Surface Measurement Sites.

Advertisements

Analysis of CMAQ Performance and Grid-to- grid Variability Over 12-km and 4-km Spacing Domains within the Houston airshed Daiwen Kang Computer Science.

Quantification of the sensitivity of NASA CMS-Flux inversions to uncertainty in atmospheric transport Thomas Lauvaux, NASA JPL Martha Butler, Kenneth Davis,

A numerical simulation of urban and regional meteorology and assessment of its impact on pollution transport A. Starchenko Tomsk State University.

Effect of increasing Asian Emissions and meteorological variability on the composition of the UT/LS J. E. Williams 1, P. F. J. van Velthoven 1, T. J. Schuck.

CO budget and variability over the U.S. using the WRF-Chem regional model Anne Boynard, Gabriele Pfister, David Edwards National Center for Atmospheric.

12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, Recent Advances in High-Resolution Lagrangian Transport Modeling Roland Draxler, Ariel.

Title EMEP Unified model Importance of observations for model evaluation Svetlana Tsyro MSC-W / EMEP TFMM workshop, Lillestrøm, 19 October 2010.

INERIS ongoing works for CITIZEN (2009) 1 Bessagnet, B ; 1 Meleux, F. ; 1,2 Péré, J.-C. ; 1 Colette,A; 1,3 Siour,G, 4 Menut,L; 1 Rouïl, L. 1) INERIS, France.

The comparison of TransCom continuous experimental results at upper troposphere Takashi MAKI, Hidekazu MATSUEDA and TransCom Continuous modelers.

Atmospheric modelling activities inside the Danish AMAP program Jesper H. Christensen NERI-ATMI, Frederiksborgvej Roskilde.

Air Quality-Climate Interactions Aijun Xiu Carolina Environmental Program.

Recent STILT work at Jena Christoph Gerbig and Stefan Körner Max-Planck-Institute for Biogeochemistry STILT users at Jena: K. Dhanyalekshmi, Kristina Trusilova,

Evaluating the Impact of the Atmospheric “ Chemical Pump ” on CO 2 Inverse Analyses P. Suntharalingam GEOS-CHEM Meeting, April 4-6, 2005 Acknowledgements.

Hector simulation We found simulation largely depending on: Model initialization scheme Lateral boundary conditions Physical processes represented in the.

ROMS surface temperature and velocity for 2001-Jul-23 (day 20 of 60-day simulation). Model grid resolution is 1 km. Velocity vectors are plotted for every.

Modeling approach to regional flux inversions at WLEF Modeling approach to regional flux inversions at WLEF Marek Uliasz Department of Atmospheric Science.

Evaluating the Role of the CO 2 Source from CO Oxidation P. Suntharalingam Harvard University TRANSCOM Meeting, Tsukuba June 14-18, 2004 Collaborators.

C. sampling strategy D. source configuration F. source-receptor matrix I. estimation of fluxes J. strategy evaluation uncertainty G. concentration pseudo-data.

Interannual inversions with continuous data and recent inversions with the CSIRO CC model Rachel Law, CSIRO Atmospheric Research Another set of pseudodata.

Image: NASA ECHAM5/6 projects by Quentin Bourgeois, Junbo Cui, Gabriela Sousa Santos, Tanja Stanelle C2SM’s research group - Isabelle Bey.

Claire Sarrat, Joël Noilhan, Pierre Lacarrère, Sylvie Donier et al. Atmospheric CO 2 modeling at the regional scale: A bottom – up approach applied to.

Henry Fuelberg Nick Heath Sean Freeman FSU WRF-Chem During SEAC 4 RS.

CMAQ (Community Multiscale Air Quality) pollutant Concentration change horizontal advection vertical advection horizontal dispersion vertical diffusion.

Template CAMx Ancillary Input Development Chris Emery ENVIRON International Corporation, Novato CA November 14, 2012.

Miskam basics MISKAM – Mikroskaliges Strömung-und Ausbreitungsmodell (Microscale flow and dispersion model) Developer: Dr. J. Eichhorn, Universität Mainz.

GEM-MACH Global The Canadian Global Air Quality Modeling/Forecasting System Dr. Sunling Gong Science and Technology Branch January 16-17, 2012.

Impact of Emissions on Intercontinental Long-Range Transport Joshua Fu, Yun-Fat Lam and Yang Gao, University of Tennessee, USA Rokjin Park, Seoul National.

1 Using Hemispheric-CMAQ to Provide Initial and Boundary Conditions for Regional Modeling Joshua S. Fu 1, Xinyi Dong 1, Kan Huang 1, and Carey Jang 2 1.

Jonathan Pleim 1, Robert Gilliam 1, and Aijun Xiu 2 1 Atmospheric Sciences Modeling Division, NOAA, Research Triangle Park, NC (In partnership with the.

Variational Assimilation of MODIS AOD using GSI and WRF/Chem Zhiquan Liu NCAR/NESL/MMM Quanhua (Mark) Liu (JCSDA), Hui-Chuan Lin (NCAR),

Development of an EnKF to estimate CO 2 fluxes from realistic distributions of X CO2 Liang Feng, Paul Palmer

Toward a mesoscale flux inversion in the 2005 CarboEurope Regional Experiment T.Lauvaux, C. Sarrat, F. Chevallier, P. Ciais, M. Uliasz, A. S. Denning,

The GEOS-CHEM Simulation of Trace Gases over China Li ZHANG and Hong LIAO Institute of Atmospheric Physics Chinese Academy of Sciences April 24, 2008.

Multivariate Data Assimilation of Carbon Cycle Using Local Ensemble Transform Kalman Filter 1 Ji-Sun Kang, 1 Eugenia Kalnay, 2 Junjie Liu, 2 Inez Fung,

Sensitivity of Air Quality Model Predictions to Various Parameterizations of Vertical Eddy Diffusivity Zhiwei Han and Meigen Zhang Institute of Atmospheric.

Development of the air pollution forecast system VENUS and its validation (in Japan) Seiji SUGATA ＊, Toshimasa OHARA ( National Institute for Environmental.

An attempt to quantify fossil fuel CO 2 over Europe Ute Karstens 1, Ingeborg Levin 2 1 Max-Planck-Institut für Biogeochemie, Jena 2 Institut für Umweltphysik,

U.S. EPA and WIST Rob Gilliam *NOAA/**U.S. EPA

Seasonal Modeling of the Export of Pollutants from North America using the Multiscale Air Quality Simulation Platform (MAQSIP) Adel Hanna, 1 Rohit Mathur,

Dylan Millet Harvard University with D. Jacob (Harvard), D. Blake (UCI), T. Custer and J. Williams (MPI), J. de Gouw, C. Warneke, and J. Holloway (NOAA),

2 March 2007 Input data needed by MATCH Magnuz Engardt Swedish Meteorological and Hydrological Institure (SMHI)

Introduction North China, or Huabei region, located between 32°- 42°N latitude in eastern China, is one of the most severely polluted regions in China.

BARCA Telecon MPI for Biogeochemistry Jena BARCA CH 4 data analysis Flight 3 (17/06/2009) during BARCA Phase B in the wet season covering wetland.

PBL FTS Institute Retreat June 16-19, 2008 – Chorus ATM-Group Simultaneous use of greenhouse gas concentration measurements and meteorological measurements.

FastOpt A prototype Carbon Cycle Data Assimilation System (CCDAS) Inferring interannual variations of vegetation- atmosphere CO 2 fluxes Marko Scholze.

The effect of tides on the hydrophysical fields in the NEMO-shelf Arctic Ocean model. Maria Luneva National Oceanography Centre, Liverpool 2011 AOMIP meeting.

Troposphere Strastosphere D. H. Gas phase chemistry Scavenging processes Fossil fuel Emissions Biomass burning emissions Biogenic emissions Boundary layer.

Development of the Regional Arctic Climate System Model (RACM) --- Department of Civil and Environmental Engineering University of Washington May, 2010.

Ship emission effect on Houston Ship Channel CH2O concentration ——study with high resolution model Ye Cheng.

CO2 sources and sinks in China as seen from the global atmosphere

FUTURE PREDICTION OF SURFACE OZONE OVER EAST ASIA UP TO 2020

Modeling of regional-scale PCB transport at the Bayonne Peninsula

Grid Point Models Surface Data.

Coupled atmosphere-ocean simulation on hurricane forecast

16th Annual CMAS Conference

Charles University in Prague

Modeling of regional-scale PCB transport at the Bayonne Peninsula

CarboEurope Open Science Conference

Meteorological Simulations of Utah Basin Cold-Air Pools

UCLA Regional Earth System Modeling for VOCALS

An Overview of the NARCCAP WRF Simulations and Analysis

Global Simulation of CH3Cl

Some thoughts on future air quality models from a WRF-Chem modeler

CO2 and O2 Concentration Measurements

ATMOSPHERE LAND PLANTS SOIL ORGANIC MATTER OCEANS FOSSIL FUEL

The chemistry-transport model CHIMERE (IPSL/LMD)‏

CAMx-PSAT Source Apportionment Modeling Results

The Flux Model of Orographic Rain

Presentation transcript:

・3km-grid, 35 vertical layers ・driven by JMA-MSM met. (5km) configuration ・WRF-VPRM 3.5 ・3km-grid, 35 vertical layers ・driven by JMA-MSM met. (5km) ・lateral boundary of CO2 : ACTM (CO2), CHASER (CH4, CO) ・2007 January to March ・based on 50m-mesh terrain data AsiaFlux sites (met., CO2, CO2flux) and WDCGG sites (CO2) within model domain emission ・anthropogenic: REAS 2.1 ・land vegetation : online ・ocean : Takahashi (1996) ・burning : FINN@NCAR

Met. field at FHK

Met. field at TKF

Met. field at TKC

Met. field at SMF

CO2 concentration at TKY, FHK, SMF (obs., model)

CO2 concentration at FHK red : anthropogenic emission within the model domain purple : transported from outside REAS2.1 is low resolution (0.25deg), but it seems the quantity is not so bad. Biogenic emission is weak?

CO2 concentration at WDCGG sites

model : GEE + respiration CO2 flux at FHK model : GEE + respiration obs. : net flux(?)