Changeset 13267


Ignore:
Timestamp:
2020-07-08T15:19:07+02:00 (5 weeks ago)
Author:
laurent
Message:

Tiny improvements in STATION_ASF test-case

File:
1 edited

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  • NEMO/trunk/tests/STATION_ASF/README.md

    r13264 r13267  
    11# *Station Air-Sea Fluxes* demonstration case 
    22 
    3 Last sucessful test done with NEMOGCM trunk: `r13263` 
     3Last successful test done with NEMOGCM trunk: `r13263` 
     4 
     5Author: Laurent Brodeau, 2020 
    46 
    57NOTE: if working with the trunk of NEMO, you are strongly advised to use the same test-case but on the `NEMO-examples` GitHub depo: 
     
    810## Objectives 
    911 
    10 ```STATION_ASF``` is a demonstration case that mimics an in-situ station (buoy, platform) dedicated to the estimation of surface air-sea fluxes by means of the measurement of traditional meteorological surface parameters. 
     12```STATION_ASF``` is a demonstration test-case that mimics a (static) in-situ station (buoy, platform) dedicated to the estimation of surface air-sea fluxes by means of *widely-measured* (bulk) meteorological surface parameters. 
    1113 
    12 ```STATION_ASF``` is based on the merging of the "single column" and the "standalone surface module" configurations of NEMO. In short, it coulb defined as "SAS meets C1D". As such, the spatial domain of ```STATION_ASF``` is punctual (1D, well actually 3 x 3 as in C1D). 
     14```STATION_ASF``` has been constructed by merging the *single column* and the *standalone surface module* configurations of NEMO. In short, it can be defined as "SAS meets C1D". As such, the spatial domain of ```STATION_ASF``` is punctual (1D, well actually 3 x 3 as in C1D). 
    1315 
    14 ```STATION_ASF``` is therefore a versatile tool, and extremely light in terms of computing requirements, to test the different bulk algorithms and cool-skin/warm-layer parameterization options included in NEMO. 
     16```STATION_ASF``` is therefore a versatile tool, and extremely lightweight in terms of computing requirements, to test the different bulk algorithms and cool-skin/warm-layer parameterization options included in NEMO. 
    1517 
    1618As input ```STATION_ASF``` will require the traditional *bulk* sea surface parameters: 
     
    9092- ```PROD_DIR``` :  Directory where to run the simulation 
    9193 
    92 - ```DATA_IN_DIR``` : Directory containing sea-surface + atmospheric forcings (get it there https://drive.google.com/file/d/1MxNvjhRHmMrL54y6RX7WIaM9-LGl--ZP/) 
     94- ```DATA_IN_DIR``` : Directory containing sea-surface + atmospheric forcings (found here in ```input_data/```) 
    9395 
    9496If everything goes according to plan, ``launch_sasf.sh`` should have generated the 3 following sets of output files into `${PROD_DIR}/output`: 
     
    106108--- 
    107109 
    108 */Laurent Brodeau, July 2020.* 
     110*/Laurent, July 2020.* 
    109111 
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