Changes between Version 2 and Version 3 of 2012WP/2012Action_institutions_INGV

Timestamp:

2011-11-15T17:25:42+01:00 (13 years ago)

Author:

poddo

Comment:

--

2012WP/2012Action_institutions_INGV

@@ -24 +24 @@
 
 
-=== '''INGV.1 — Atmospheric Pressure for Filtered free surface ''' ===
-  ''' Motivation:'''  Better representation of sea surface height spatial and temporal variability by consideration of surface pressure in limited area model domain in case of filtered free surface formulation [[BR]] ''' Status:'''  Atmospheric Pressure term has been introduced in case of filtered free surface by the INGV group in the operational model of the Mediterranean Sea. For limited area model this requires an appropiate treatment of mass fluxes at the lateral open boundaries [[BR]] ''' Main tasks:'''  recode according consortium rules; ensure compatibility between filtered free-surface / volume conservation and new mass fluxes through lateral open boundaries  [[BR]] ''' Science Reviewer:'''  [[BR]] ''' System Reviewer:'''  J. Chanut ''' [[BR]] Deadline:'''  ''' [[BR]] Priority:'''  ''' [[BR]] Principal Investigator :'''  Paolo Oddo (oddo@bo.ingv.it) [[BR]]
+=== '''INGV.1 — Continuation of Surface Pressure effect developments in limited area model ''' ===
+''' Motivation:'''  If OBC-BDY merging has been completed and new developments can
+start, INGV would like to implement a new Volume/Mass constraint for the
+filtered free-surface. Actual version of the NEMO code forces, in case of filtered
+free surface, the total volume to be conserved each time-step. INGV proposes to
+control the mass exchange through the lateral open boundaries using a generalized
+Flather lateral boundary condition [[BR]]
+''' Status:'''  Preliminary test already done [[BR]]
+ ''' Main tasks:'''  recode according consortium rules; ensure compatibility between filtered free-surface / volume conservation and new mass fluxes through lateral open boundaries  [[BR]] ''' Science Reviewer:'''  ''' [[BR]]
+''' System Reviewer:'''  ''' [[BR]]
+Deadline:'''  ''' [[BR]]
+Priority:'''  ''' [[BR]]
+Principal Investigator :'''  Paolo Oddo (paolo.oddo@bo.ingv.it) [[BR]]
 
-=== '''INGV.2 — Implementation of new bulk formula''' ===
-  ''' Motivation:'''  Air-sea interaction drives most of the ocean processes at short-medium and long time scales. Thus an appropiate representation of momentum and buoyancy fluxes is mandatory foe modelling studies. At the present two different packages of bulk formulae are provided with the NEMO code and the users can choice according specific needs. A further option will be introduced on the basis of INGV modelling experience in the Mediterranean Sea. [[BR]]  ''' Status:'''  The bulk formulae are in use in the Mediterranean Forecasting System operational version of NEMO code. [[BR]]  ''' Main tasks:'''  Re-write the code according to consortium rules - Modify CPP key option and namelist options accordingly.    [[BR]] ''' Science Reviewer:'''  [[BR]] ''' System Reviewer:   '''  G. Madec ''' [[BR]] Deadline:'''  ''' [[BR]] Priority:'''  ''' [[BR]] Principal Investigator :'''  Paolo Oddo (oddo@bo.ingv.it) [[BR]]
+=== '''INGV.2 —  Continuation of wave wind drag coeff develpment ''' ===
+  ''' Motivation:''' [[BR]]
+  ''' Status:'''   [[BR]]
+  ''' Main tasks:''' Test of different parameterizations for the turbulent part of the wind drag coefficient. [[BR]]
+  ''' Science Reviewer:'''  [[BR]]
+  ''' System Reviewer:   '''   ''' [[BR]]
+   Deadline:'''  ''' [[BR]] 
+   Priority:'''  ''' [[BR]] 
+  Principal Investigator :'''  Mario Adani (mario.adani@bo.ingv.it) [[BR]]
 
-=== '''INGV.3 — Implementation of wave forcing interface''' ===
-  ''' Motivation:'''  Ocean waves play a cricual role in surface and near surface dynamics, thus a simple interface allowing NEMO to read wave-model output is needed. Wind stress is known to be affected by wind waves surface roughness and for that reason NEMO will be developed to read an external neutral drag coefficient from a wave model. Moreover 2 parameterizations for the turbulent part of the drag coefficient will be developed in the NEMO code. [[BR]]  ''' Status:'''  implementation of wind stress with turbulent wave components from an external wave model in the NEMO. Version for the Mediterranean Sea. [[BR]]  ''' Main tasks :'''  [[BR]] (1) Insertion of a compilation key in order to introduce a generic interface to read wave model output.[[BR]] (2) Insertion of the compilation key (or namelist parameter) in order to activate the usage of a standard drag coefficient (probably default) or the usage of a neutral drag coefficient coming from a wave model.[[BR]] (3) Insertion of the two compilation keys (or namelist parameters) in order to activate two different parameterizations of the turbulent component of the external drag coefficient.[[BR]] (4) Perform tests.[[BR]] ''' Science Reviewer:'''  [[BR]] ''' System Reviewer:'''  J. Siddorn ''' [[BR]] Deadline:'''  ''' [[BR]] Priority:'''  ''' [[BR]] Principal Investigator :'''  Mario Adani (adani@bo.ingv.it) [[BR]]
+=== '''INGV.3 — River lateral open boundary conditions''' ===
+  ''' Motivation:''' A proper representation of river volume inflow. In case of large runoff, including
+the river effects only in the surface water balance (Evaporation minus
+Precipitation minus runoff/area) could limit the model capability in reproducing
+the dynamics in the Region Of Fresh water Influence (ROFI). An open lateral
+boundary condition with a vertical current profile is preferable.  [[BR]]
+  ''' Status:'''   [[BR]]
+   ''' Main tasks :'''  [[BR]]  
+  ''' Science Reviewer:'''  [[BR]]
+  ''' System Reviewer:'''    ''' [[BR]]
+   Deadline:'''  ''' [[BR]]
+  Priority:'''  ''' [[BR]]
+  Principal Investigator :'''  Paolo Oddo (paolo.oddo@bo.ingv.it) [[BR]]
 
 === '''INGV.4 — Update of Richardson ldzdf routine for PP new scheme''' ===