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ScienceInitiate's trailModellingMNATL12 Simul. | Physics | Geog. Ext.
Resol. | Oc./atm. interf. | Bound. Cond.
Input | Comput. | Oper.

ORCA2 | ORCA025 | ORCALIM025 | ORCA12 | PAM | MNATL3 | MNATL4 | MNATL12 | NEATL12 | NEATL36

Atlantic and Mediteranean configuration at 1/12°(MNATL12)

Existing simulations

2000-2005 forced by operational analysis ECMWF
Sea surface height (cm), animation over 1 year 1/2
Sea surface height (cm), 2002 average

Physics

Overview

NEMO (OPA9 + LIM) (Madec, Delecluse and al. 1998), The formulation is based on so-called 'primitive' equations. These equations are derived from Navier-Stokes equations in a stratified fluid with following approximations:
  • Earth's sphericity: local gravity directed towards the centre of the Earth
  • Relatively shallow water: ocean depth small in relation to the Earth's radius
  • Hydrostatic: equilibrium between the vertical pressure gradiant and the floatability
  • Boussinesq values: variations in density are not taken into account apart from their contribution to floatability
  • Incompressibility: the three-dimensional divergence of the velocity field is considered to be nil
  • 1.5 order closure turbulence scheme
  • Non-linear equation of state couples the two active trace indices (temperature and salinity)
  • Linearised and filtered free surface
  • Nested with LIM sea ice model.
Output data
  • Model state variables : temperature, salinity, zonal and meridian velocity, free surface elevation and vertical diffusivity coefficient
  • Sea ice variables: thickness ice, ice production, ice concentration, ice temperature, ice/sea interface flux, zonal and meridional ice velocity
  • Atmospheric forcing: zonal and meridional wind stress, penetrating heat flux, solar flux, non solar flux, salt flux, snow flux, precipitation and runoff minus evaporation budget
  • Diagnostic variables: mixed layer depth (density diagnostic), mass transport by density class through sections, meridional heat transport.
Physical parameterizations
  • Diffusion: laplacian isopycnal operator (100 m2/s)
  • Viscosity : bilaplacian horizontal operator (-1 E10 m2/s)
  • Energy and enstrophy conserving advection scheme
  • TKE (turbulent kinetic energy) vertical mixing model
  • Partial slip lateral boundary friction condition
  • Non linear bottom friction
  • Partial step vertical coordinate
Restoring zones
    No

Geographical extension

North Atlantic from 20°S to 80°N and Mediteranean sea.

Resolution

Horizontal resolution
    ORCA 1/12° over all the domain, from 3 to 10 km. Number of points: 1608 x 1551.

    Resolution (km) of MNATL12 grid
Vertical resolution
    From 1 m at the surface to 450 m at the bottom.

    Vertical resolution in MNATL12 (see black diamonds)

Ocean atmosphere interface

Bulk formulation (CLIO). The monthly climatological flow of the main rivers is taken into account in the evaporation minus precipitation budget (Dai and Trenberth, 2002). A parameterization of the penetrating heat flux is used.

Ocean boundary conditions

South boundary at 20°S and North boundary at 80°N: Buffer zone where temperature and salinity are relaxed towards Levitus climatology (relaxation coefficients are between 3 and 100 days).

Input data

Forcing
    ECMWF (2000-2005) daily operational analysis. Zonal and meridional wind stress components, wind module, relative humidity, cloud coverage, rain, air temperature.
Climatology
    Monthly Levitus temperature and salinity from Levitus 98
Bathymetry

Computing cost

For one year of simulation on IBM Power 4:
  • 72 Gigabytes of memory
  • 7200 CPU hours
  • 300 Gigabytes of output (daily output).

Operational

PSY2V3