177 | | ''' Motivation: ''' INGV is responsible for the WAVE-WG and will continue improving the wave-current interaction processes implementation according to the WG needs.[[BR]] ''' Status :''' Implementation of some of the identified processes has been started in 2014 and 2015. To be continued in 2016 [[BR]] ''' Main tasks :''' Continue the implementation of already defined wave-current processes, if not completed in previous year. Meeting organization with the WAVE-WG to discuss further issues to be investigated and implemented: [[BR]] |
178 | | |
179 | | * Vertical mixing enhancement due to wave breaking; [[BR]] |
180 | | * Contribute to the discussion on implementation of Langmuir circulation; [[BR]] |
181 | | * Contribute to the discussion on wave-sea ice coupling; ; [[BR]] |
182 | | * others if agreed by the WAVE-WG. [[BR]] |
183 | | |
184 | | '''Science '''Pre-viewer''': ''' Rachid Benshila [[BR]] ''' System '''Pre-viewer''': '''Rachid Benshila [[BR]] '''Deadline: ''' [[BR]] '''Priority: ''' high [[BR]] '''Depends on: '''[[BR]] '''Principal Investigator: ''' Emanuela Clementi (emanuela.clementi@ingv.it) |
| 177 | ''' Motivation: ''' INGV is responsible for the WAVE-WG and will continue improving the wave-current interaction processes implementation according to the WG needs (see Wave-coupling WG wiki page https://forge.ipsl.jussieu.fr/nemo/wiki/WorkingGroups/Wave_Coupling) [[BR]] |
| 178 | ''' Status :''' Implementation of some of the identified processes has been started in 2014 and 2015 within the Wave coupling WG: |
| 179 | 1. New Vertical Stokes Drift computation according to Breivik et al., 2014: “Approximate Stokes Drift Profiles in Deep Water” |
| 180 | 2. Vertical Turbulence: implement the Qiao (2010) formulation (works with all the vertical closure schemes) |
| 181 | 3. Modification of the surface vertical velocity accounting for the Stokes Drift |
| 182 | 4. Computation of the Stokes-Coriolis Force |
| 183 | 5. Inclusion of the Stokes drift components in the tracer advection term |
| 184 | 6. Generalization of the surface boundary condition for momentum accounting for the wave effects |
| 185 | This work is included in the /2015/dev_r5936_INGV1_WAVE development branch [[BR]] |
| 186 | ''' Main tasks :''' [[BR]] |
| 187 | • Finalize the review and testing phase of /2015/dev_r5936_INGV1_WAVE by January 2016 [[BR]] |
| 188 | • Merge the development branch into the trunk by January 2016 [[BR]] |
| 189 | • Continue tests on the wave-current processes implemented [[BR]] |
| 190 | • Continue implementation of already defined wave-current processes: [[BR]] |
| 191 | o Vertical mixing enhancement due to wave-current interaction; [[BR]] |
| 192 | o Contribute to the discussion on development of Langmuir circulation; [[BR]] |
| 193 | o others if agreed by the WAVE-WG. [[BR]] |
| 194 | • Meeting organization with the WAVE-WG to discuss further issues to be investigated and implemented [[BR]] |
| 195 | '''Science '''Pre-viewer''': ''' Nadia Pianrdi [[BR]] ''' System '''Pre-viewer''': '''Rachid Benshila [[BR]] '''Deadline: ''' [[BR]] '''Priority: ''' high [[BR]] '''Depends on: ''' [[BR]] '''Principal Investigator: ''' Emanuela Clementi (emanuela.clementi@ingv.it) |
187 | | ''' Motivation: ''' According to the WAVE-WG, in order to achieve a full wave-current coupling, the small (coastal) scale processes need to be investigated.[[BR]] ''' Status :''' To be continued in 2016 [[BR]] ''' Main tasks :''' Contribute, within the WAVE-WG, in the analysis of this issue in order to finalize the discussion started in 2014 before proceeding with any new implementation [[BR]] '''Science '''Pre-viewer''': '''Rachid Benshila [[BR]] '''System '''Pre-viewer''': '''Rachid Benshila [[BR]] '''Deadline: ''' [[BR]] '''Priority: ''' [[BR]] '''Depends on: '''[[BR]] '''Principal Investigator: ''' Emanuela Clementi (emanuela.clementi@ingv.it) |
| 198 | ''' Motivation: ''' According to the WAVE-WG, in order to achieve a full wave-current coupling, the small (coastal) scale processes need to be investigated and integrated. This development is part of a second phase wave coupling development depending on the first one: INGV-1 dealing with processes acting at large to meso-scale. [[BR]] |
| 199 | ''' Status :''' To be continued in 2016 [[BR]] |
| 200 | ''' Main tasks :''' Contribute, within the WAVE-WG, in the analysis of this issue in order to finalize the discussions started in 2014 before proceeding with any new implementation. In particular main tasks are: |
| 201 | • sink of wave momentum due to breaking and wave-turbulence interaction |
| 202 | • sink of wave momentum due to bottom friction |
| 203 | • wave-induced mean pressure [[BR]] |
| 204 | '''Science '''Pre-viewer''': '''Nadia Pinardi [[BR]] '''System '''Pre-viewer''': '''Rachid Benshila [[BR]] '''Deadline: ''' [[BR]] '''Priority: ''' [[BR]] '''Depends on: ''' WAVE-1 [[BR]] '''Principal Investigator: ''' Emanuela Clementi (emanuela.clementi@ingv.it) |