dphase_mm5_2_ct: MM5 model forecast with 2 km horizontal resolution driven by ECMWF operational forecast run by UHOH for the MAP D-PHASE project
Accurate initialization of the water vapor field is important for NWP. With recent advances in Global Positioning System (GPS) atmospheric remote sensing, ground-based GPS receivers have become an important instrument that can provide high resolution water vapor measurements operationally at low cost with an accuracy of a few millimeters. The system can operate in all weather conditions.
During the COPS campaign, a dense network of GPS receivers was installed. This data has been assimilated in real-time into the MM5 4DVAR system to improve quantitative precipitation forecasts and process understanding. Operational forecasts initialized with 4DVAR and corresponding CONTROL forecasts, initialized only by the ECMWF forecast,ran the whole COPS/D-PHASE period to provide a basis for future statistical investigations.
This experiment contains only the innermost domain (2km) of the forecast initialized with the operational ECMWF forecast only (CONTROL). The corresponding 4DVAR forecast can be found as experiment dphase_mm5_2_4d.
Assimilation run:
- 18 km horizontal resolution
- 36 level up tp 100 hPa
- 64x70 grid points
- MM5 3.4 (4DVAR version)
- Kuo convection scheme
- MRF PBL scheme
- Simple radiation
- Warm cloud microphysics
- 3 hour assimilation window
Free forecast run: only innermost 2km domain (CDOM) was archived)
- Triple 2-way nested 24h forecast (18, 6, 2 km resolution)
- 36 level up to 100 hPa
- 64x70 points (18 km), 106x109 points (6 km), 169x184 points (2 km)
- MM5 3.7.4
- Kain Fritsch 2 cumulus (no parameterization in the 2 km domain)
- Reisner2 cloud microphysics
- RRTM LW + Dudhia SW radiation
- MRF PBL scheme
- 5 layer soil model
Note: here the datasets differ in time resolution (DDOM:1h, CDOM 15min) not in region.
Grid description:"CDOM"+"DDOM":xinc/yinc:2.0 xnpole/ynpole:0.0
xfirst:6.0205 yfirst:47.0167 xsize:184.0 ysize:169.0
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Citation proposal
Hans-Stefan Bauer (University of Hohenheim) - Matthias Grzeschik (University of Hohenheim) - Florian Zus (University of Hohenheim) - Thomas Schwitalla (University of Hohenheim) - Prof. Dr. Volker Wulfmeyer (University of Hohenheim). dphase_mm5_2_ct: MM5 model forecast with 2 km horizontal resolution driven by ECMWF operational forecast run by UHOH for the MAP D-PHASE project. https://gdk.gdi-de.org/geonetwork/srv/api/records/de.dkrz.wdcc.iso2151361 |
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- Alternate title
- dphase_mm5_2_ct: MM5 model forecast with 2 km horizontal resolution driven by ECMWF operational forecast run by UHOH for the MAP D-PHASE project
- Date ( Creation )
- 2007-06-13
- Identifier
- None
- Identifier
- doi:10.1594/WDCC/dphase_mm5_2_ct / dphase_mm5_2_ct: MM5 model forecast with 2 km horizontal resolution driven by ECMWF operational forecast run by UHOH for the MAP D-PHASE project
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- Other citation details
- doi:10.1594/WDCC/dphase_mm5_2_ct
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- Keywords ( Theme )
-
- regional model forecast
- Keywords ( Theme )
-
- model data
- Metadata language
- eng English
- Begin date
- 2007-06-01
- End date
- 2007-11-30
- Begin date
- 2007-06-01
- End date
- 2007-08-31
- Begin date
- 2007-06-01
- End date
- 2007-11-30
- Begin date
- 2007-06-01
- End date
- 2007-08-31
- Distribution format
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- tar of jpg (tarball of jpg files )
- XML (Extensible Markup Language )
- GRIB1; records separated (GRIB1; records shall not be appended upon download )
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- Units of distribution
- Mb
- Transfer size
- 641987
- OnLine resource
- http://doi.org/doi:10.1594/WDCC/dphase_mm5_2_ct
- Hierarchy level
- series Series
gmd:MD_Metadata
- File identifier
- de.dkrz.wdcc.iso2151361 XML
- Hierarchy level
- series Series
- Hierarchy level name
- dphase_mm5_2_ct
- Date stamp
- 2022-04-25T04:39:43
- Metadata standard name
- ISO 19115
- Metadata standard version
- ISO 19139 / DKRZ ISO Simple Profile V1.0
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- Dataset URI
- http://doi.org/doi:10.1594/WDCC/dphase_mm5_2_ct