contribution from MOI ( GLO12V4, real-time global 1/12° ) #10
Description
Name of your institution / research group
Mercator Ocean International
GitHub IDs of proposed participants to the intercomparison project
clementbricaud
Detail about your model codebase
NEMO 3.6 + assimilation
Detail about your model experiment
https://os.copernicus.org/articles/14/1093/2018/
model configuration: global 1/12° ORCA12 (50 z levels with partial cell parameterization)
forcing: ECMWF/IFS real time system, with a resolution of 9 km and a 1-hour frequency.
parametrisations and schemes: linear free surface (z∗ coordinates system). Tracers’ transport is computed with a TVD advection scheme on horizontal and vertical and an explicit diffusion with iso-neutral operator. The equation of state is based on EOS80. Momentum transport is computed with a vector form advection scheme and an explicit viscosity. Vorticity is computed with an energy and enstrophy scheme. The hydrostatic pressure gradient is computed with a s-coordinate standard jacobian formulation. For vertical physics, we used the GLS scheme. A 3 bands scheme (RGB scheme) is used for light penetration. The Sea Ice model is the SI3 model shipped with NEMO, with 5 categories and levitating sea ice.
initial conditions: GLO12v3 restart file in October 2016
Model outputs: 3D daily averages, 2D hourly outputs
it covers the 2024 year.