Difference between revisions of "Aircraft emissions"

From Geos-chem
Jump to: navigation, search
(Old aircraft emissions inventory (prior to v9-02n))
(MIT aviation emissions inventory)
Line 1: Line 1:
 
This page describes the aircraft emissions inventories used by GEOS-Chem.
 
This page describes the aircraft emissions inventories used by GEOS-Chem.
  
== MIT aviation emissions inventory ==
+
== AEIC emissions inventory ==
  
 
<span style="color:green">'''''This update was tested in the 1-month benchmark simulation [[GEOS-Chem_v9-02_benchmark_history#v9-02n|v9-02n]] and approved on 12 Aug 2013.'''''</span>
 
<span style="color:green">'''''This update was tested in the 1-month benchmark simulation [[GEOS-Chem_v9-02_benchmark_history#v9-02n|v9-02n]] and approved on 12 Aug 2013.'''''</span>

Revision as of 17:13, 11 June 2019

This page describes the aircraft emissions inventories used by GEOS-Chem.

AEIC emissions inventory

This update was tested in the 1-month benchmark simulation v9-02n and approved on 12 Aug 2013.

Monthly mean aircraft emissions were generated based on 2005 scheduling data from the Aviation Emissions Inventory v2.0, developed by Nick Simone and based on research by Marc Stettler under Steven Barrett. These were implemented into GEOS-Chem by Sebastian D. Eastham.

The following are gridded at a horizontal resolution of 1° x 1°. The emissions are vertically resolved in 60.9 m (200 ft) increments up to 1000 ft, and 1000 ft increments beyond that. The emissions are stored in NetCDF files and read in by aeic_mod.F:

  1. Fuelburn
  2. CO
  3. Hydrocarbons
  4. NOx

Black and organic carbon (BC/OC) are determined based on an emissions index of 0.03 g/kg fuel burn; sulfur emissions (sulfur dioxide and sulfates) are calculated assuming a fuel sulfur content of 600 ppm by mass and a sulfur conversion efficiency of 2%. The older aircraft NOx emissions have been removed wholesale, while the older sulfur emissions are enabled if AEIC emissions are disabled.

--Sebastian D. Eastham 15:15, 9 June 2011 (EDT)

Implementation via HEMCO

In GEOS-Chem v10-01 and newer versions, the AEIC aircraft emissions are implemented via the HEMCO emissions component. We have created new AEIC data files (in COARDS-compliant netCDF format) for use with HEMCO. These new data files are contained in the HEMCO data directory tree. For detailed instructions on how to download these data files to your disk server, please see our Downloading the HEMCO data directories wiki post.

--Bob Y. 13:17, 3 March 2015 (EST)

References

  1. Baughcum, S.L., T.G. Tritz, S.C. Henderson, and D.C. Pickett, Scheduled civil aircraft emission inventories for 1992: Database development and analysis, NASA CR-4700, Nat. Aeronaut. and Space Admin., Washington DC, 1996.
  2. Chin, M., P. Ginoux, S. Kinne, O. Torres, B. Holben, B. N. Duncan, R. V. Martin, J. A. Logan, A. Higurashi, and T. Nakajima, Tropospheric aerosol optical thickness from the GOCART model and comparisons with satellite and sunphotometer measurements, J. Atmos. Sci., 59, 461–483, 2002.
  3. Metwally, M, Jet aircraft engine emissions database development--1992 military, charter, and nonscheduled traffic, NASA CR-4684, Nat. Aeronaut. and Space Admin., Washington DC, 1995.
  4. Park, R. J., D. J. Jacob, B. D. Field, R. M. Yantosca, and M. Chin, Natural and transboundary pollution influences on sulfate-nitrate-ammonium aerosols in the United States: implications for policy, J. Geophys. Res., 109, D15204, 10.1029/2003JD004473, 2004. PDF
  5. Wang, Y., D.J. Jacob, and J.A. Logan, Global simulation of tropospheric O3-NOx-hydrocarbon chemistry, 1. Model formulation, J. Geophys. Res., 103, D9,10,713-10,726, 1998. PDF
  6. Stettler, M.E.J., S. Eastham, S.R.H. Barrett, Air quality and public health impacts of UK airports. Part I: Emissions, Atmos. Environ., 45, 5415-5424, 2011.

--Bob Y. 13:46, 4 April 2011 (EDT)