<div class="eI0">
  <div class="eI1">Mod&egrave;le:</div>
  <div class="eI2"><h2><a href="http://www.ncmrwf.gov.in/" target="_blank" target="_blank">NCMRWF</a>(National  Centre  for  Medium  Range  Weather  Forecasting from India)</h2></div>
 </div>
 <div class="eI0">
  <div class="eI1">Mise &agrave; jour:</div>
  <div class="eI2">1 times per day, from 00:00 UTC</div>
 </div>
 <div class="eI0">
  <div class="eI1">Greenwich Mean Time:</div>
  <div class="eI2">12:00 UTC = 13:00 CET</div>
 </div>
 <div class="eI0">
  <div class="eI1">R&eacute;solution:</div>
  <div class="eI2">0.125&deg; x 0.125&deg; (India, South Asia)</div>
 </div>
 <div class="eI0">
  <div class="eI1">Param&egrave;tre:</div>
  <div class="eI2">Thickness 700 - 1000, Sea Level Pressure in hPa and  Geopotential height at 700 hPa </div>
 </div>
 <div class="eI0">
  <div class="eI1">Description:</div>
  <div class="eI2">
    
  </div>
 </div>
 <div class="eI0">
  <div class="eI1">NCMRWF:</div>
  <div class="eI2"><a href="http://www.ncmrwf.gov.in/" target="_blank">NCMRWF</a> <br>
This modeling system is an up-graded version of NCEP GFS (as per 28 July 2010). A general description of the modeling system can be found in the following link:<br>
http://www.ncmrwf.gov.in/t254-model/t254_des.pdf<br>
An brief overview of GFS is given below. <br>
------------------------------------------------------ <br>
Dynamics: Spectral, Hybrid sigma-p, Reduced Gaussian grids  <br>
Time integration: Leapfrog/Semi-implicit <br>
Time filter: Asselin <br>
Horizontal diffusion: 8th<br>
 order wavenumber dependent <br>
Orography: Mean orography <br>
Surface fluxes: Monin-obhukov Similarity <br>
Turbulent fluxes: Non-local closure <br>
SW Radiation; RRTM <br>
LW Radiation: RRTM <br>
Deep Convection: SAS <br>
Shallow convection: Mass-flux based <br>
Grid-scale condensation: Zhao Microphysics <br>
Land Surface Processes: NOAH LSM <br>
Cloud generation: Xu and Randal <br>
Rainfall evaporation: Kessler <br>
Air-sea interaction: Roughness length by Charnock <br>
Gravity Wave Drag and mountain blocking: Based on Alpert <br>
Sea-Ice model: Based on Winton <br>
----------------------------------------------- <br>
</div></div>
 <div class="eI0">
  <div class="eI1">NWP:</div>
  <div class="eI2">La pr&eacute;vision num&eacute;rique du temps (PNT) est une application de la m&eacute;t&eacute;orologie et de l'informatique. Elle repose sur le choix d'&eacute;quations math&eacute;matiques offrant une proche approximation du comportement de l'atmosph&egrave;re r&eacute;elle. Ces &eacute;quations sont ensuite r&eacute;solues, &agrave; l'aide d'un ordinateur, pour obtenir une simulation acc&eacute;l&eacute;r&eacute;e des &eacute;tats futurs de l'atmosph&egrave;re. Le logiciel mettant en &oelig;uvre cette simulation est appel&eacute; un mod&egrave;le de pr&eacute;vision num&eacute;rique du temps.<br><br>
<br>Pr&eacute;vision num&eacute;rique du temps. (2009, d&eacute;cembre 12). Wikip&eacute;dia, l'encyclop&eacute;die libre. Page consult&eacute;e le 20:48, f&eacute;vrier 9, 2010 &agrave; partir de <a href="http://fr.wikipedia.org/w/index.php?title=Pr%C3%A9vision_num%C3%A9rique_du_temps&oldid=47652746" target="_blank">http://fr.wikipedia.org/w/index.php?title=Pr%C3%A9vision_num%C3%A9rique_du_temps&oldid=47652746</a>.<br>
</div></div>
</div>