Under Development 2-way coupling between ocean and atmosphere circulation models – put the O in COAMPS Couple wave models with ocean and atmospheric circulation.

Slides:

Advertisements

Similar presentations

Meteorologisk Institutt met.no OPNet, Oslo, May 2011 Do we need fine scale ocean prediction ?!... and if so, do we have the right tools ? Lars-Anders Breivik.

Advertisements

John Wilkin US East Coast ROMS/TOMS Projects North Atlantic Basin (NATL) Northeast North American shelf (NENA) NSF CoOP Buoyancy.

Temporal Variability  Tidal  Subtidal Wind and Atmospheric Pressure  Fortnightly M 2 and S 2  Monthly M 2 and N 2  Seasonal (River Discharge)

Estuarine Turbidity Maximum in Delaware Estuary

WP12. Hindcast and scenario studies on coastal-shelf climate and ecosystem variability and change Why? (in addition to the call text) Need to relate “today’s”

The Navy sometimes uses the term “tide models” to designate those numerical ocean models being run primarily for the purpose of predicting tidal heights.

About Estuarine Dynamics

Primitive equation models These are the most sophisticated type of ocean circulation model, including more of the physics than the analysis systems and.

1 ACTIMAR – 24, quai de la Douane – F Brest (0) – A SIMPLE OPERATIONAL MODEL FOR THE ANALYSIS AND FORECAST OF POLLUTANT.

Ocean-atmosphere simulations of the Eastern Mediterranean using COAMPS TM /NCOM Objectives  Simulate Mediterranean and subregional (e.g., Adriatic and.

Water Level Sensor Physical processes related to bio-optical properties on the New York Bight inner continental shelf Grace C. Chang 1, Tommy D. Dickey.

NRL modeling during ONR Monterey Bay 2006 experiment. Igor Shulman, Clark Rowley, Stephanie Anderson, John Kindle Naval Research Laboratory, SSC Sergio.

Temporal and Spatial Variability of Physical and Bio-optical Properties on the New York Bight Inner Continental Shelf G. C. Chang, T. D. Dickey Ocean Physics.

MIXED 12/4/021 Learning about Puget Sound: MIXED Kate Edwards UW Applied Physics Lab.

Carried Away! - Physical Dispersal of Marine Debris.

A Voyage of Discovery Physical oceanography Instructor: Dr. Cheng-Chien LiuCheng-Chien Liu Department of Earth Sciences National Cheng Kung University.

Navy Modeling Activities Presented by Erick Rogers “Ocean Dynamics and Prediction” Branch of the Oceanography Division of the Naval Research Laboratory.

Wind Driven Circulation - wind energy to the ocean is a “wind stress” - wind directly drives currents at ~2 - 3% of wind speed - wind directly drives currents.

Estuarine Variability  Tidal  Subtidal Wind and Atmospheric Pressure  Fortnightly M 2 and S 2  Monthly M 2 and N 2  Seasonal (River Discharge)

A Circulation Model to Investigate the Movement of Wastes from an Open Ocean Aquaculture Site David W. Fredriksson U. S. Naval Academy NOAA Research -

UCF Tides and Waves for the National Weather Service River Forecast System TIDES AND WAVES FOR THE NATIONAL WEATHER SERVICE.

Introduction In the next few slides you will get an overview of the types of models that the Navy is using – analysis systems, tidal models and the primitive.

Effects of Climate Change on Marine Ecosystems David Mountain US CLIVAR Science Symposium 14 July 2008.

Modelling Hydrodynamics in the Nearshore 21 May 2009 Jim Gunson, Graham Symonds, Liejun Zhong & Nick Mortimer CMAR.

Puget Sound Oceanography A bit on physics and circulation by F. Stahr Outline –general (mean) circulation –tidal circulation –mixing - where, when, consequences.

US Army Corps of Engineers Coastal and Hydraulics Laboratory Engineer Research and Development Center Lower Susquehanna River Watershed Assessment Two.

Statement D: Distribution authorized to DOD and U.S. DOD contractors only; Other requests must be referred to COMSPAWAR or the cognizant SPAWAR code /

NATO UNCLASSIFIED NATO Undersea Research Centre Partnering for Maritime Innovation NRL Stennis November 2006 Michel Rixen Multi-model.

Gayathri Namala Center for Computation & Technology Louisiana State University Representing the SURA Coastal Ocean Observing and Prediction Program (SCOOP)

1 NOS Coastal Ocean Operational Forecast Systems Presented By: Patrick Burke (NOS/CO-OPS) Contributors: Aijun Zhang (CO-OPS), Peter Stone (CO-OPS), Edward.

Super-Regional Modeling Testbed to Improve Forecasts of Environmental Processes for the U.S. Atlantic and Gulf of Mexico Coasts Super-Regional Modeling.

A Super-Regional Modeling Testbed for Improving Forecasts of Environmental Processes for the U.S. Atlantic and Gulf of Mexico Coasts Don Wright, SURA Principal.

River plume experiments with HYCOM in an idealized basin Rafael Vergara Schiller Villy Kourafalou University of Miami - RSMAS 11 th HYCOM meeting – Apr.

Physical and numerical issues in river plume modeling Rob Hetland Rocky Geyer Rich Signell.

Issues in Ocean-Atmosphere-Land-Ice Coupling Ocean Integration in Earth System Prediction Capability Data Assimilation University of Maryland September.

Enhancements to a Community Toolset for Ocean Model Data Interoperability: Unstructured grids, NCTOOLBOX, and Distributed Search Rich Signell (USGS), Woods.

SCCOOS Goals and Efforts Within COCMP, SCCOOS aims to develop products and procedures—based on observational data—that effectively evaluate and improve.

SYSTEMS IDEAS FOR SCIENTIFIC & SOCIETAL IMPERATIVES IN THE COASTAL OCEAN: GULF OF MEXICO EXAMPLE, INCLUDING BP OIL SPILL RES.PROF. CHRIS MOOERS, CEE/CECS/PSU.

The Littoral Sedimentation and Optics Model (LSOM)

Sensitivity study of St Andrew Bay rapid response system for Naval applications LCDR Patrice Pauly, French Navy Thesis Advisor:Pr. Peter C. Chu,NPS Second.

Coastal Process Modeling US Army Corps of Engineers Jeff Hanson Research Oceanographer MORPHOS Program Manager US Army Engineer Research and Development.

Role of the Gulf Stream and Kuroshio-Oyashio Systems in Large- Scale Atmosphere-Ocean Interaction: A Review Young-oh Kwon et al.

Land-Ocean Interactions: Estuarine Circulation. Estuary: a semi-enclosed coastal body of water which has a free connection with the open sea and within.

AOOS Modeling Strategy Workshop 22 January 2014 Anchorage, AK Seth Danielson, UAF

Tolman, Jan. 15, NCEP 1/17 Ocean modeling at NCEP Hendrik L. Tolman NOAA / NWS / NCEP / EMC Marine Modeling and Analysis Branch

Application of HYCOM in Eddy- Resolving Global Ocean Prediction Community Effort: Community Effort: NRL, Florida State, U. of Miami, GISS, NOAA/NCEP, NOAA/AOML,

Estuaries Chapter 8 – Talley et al. Outline: What is an estuary?

Coastal Oceanography Outline Global coastal ocean Dynamics Western boundary current systems Eastern boundary current systems Polar ocean boundaries Semi-enclosed.

OHHI Beach Modeling Group Meeting - October 25, 2006.

NATO UNCLASSIFIED NATO Undersea Research Centre Partnering for Maritime Innovation DART-ITHACA coordination meeting 30 Nov - 1 Dec 2006 Michel Rixen

River Mechanics Activities River Mechanics Group Hydrology Laboratory Office of Hydrologic Development National Weather Service National Oceanic and Atmospheric.

Matthew J. Hoffman CEAFM/Burgers Symposium May 8, 2009 Johns Hopkins University Courtesy NOAA/AVHRR Courtesy NASA Earth Observatory.

HYCOM and GODAE in Relation to Navy Ocean Prediction An Overview Presented by Harley Hurlburt Naval Research Laboratory Stennis Space Center, MS

9/16/10 NAVOCEANO: Present & Likely Future Activities Related to ePOPf Interests Frank Bub Ocean Modeling Technical Lead Naval Oceanographic Office (NAVOCEANO)

Estuarine Hydrodynamics

State Standards Hydrology

Estuarine Variability

Leibniz Institute for Baltic Sea Research

Coupled atmosphere-ocean simulation on hurricane forecast

Community Model for Wave and Current Prediction at Tidal Inlets

NRL Coupled Model Activities

WaveFlow KO Øyvind Breivik (MET Norway), Joanna Staneva (HZG), Jean Bidlot (ECMWF) and George Nurser (NOC)

Coupled Atmosphere-Wave-Ocean Modeling Experiments in Hurricanes

Ocean Currents Ocean water circulates in currents caused by wind and by density differences Currents are the flow of water between areas of different surface.

Dr. Richard Hires Center for Maritime Systems

하구및 연안생태Coastal management

하구및 연안생태Coastal management

하구및 연안생태Coastal management

하구및 연안생태Coastal management

An open-access service for on-demand coastal forecasts

Presentation transcript:

Under Development 2-way coupling between ocean and atmosphere circulation models – put the O in COAMPS Couple wave models with ocean and atmospheric circulation models Automate flow of data and model results from one model to another – DIOPS for waves Integrate sediment transport models with coastal circulation models And I haven’t even talked about ice modeling!

Distributed Integrated Ocean Prediction System Slides courtesy of Dean Wakeham DIOPS/SWAN Scientist Neptune Sciences, Inc.

Vision of DIOPS A distributed, forward deployed ocean wave and nearshore dynamics prediction software system, providing real-time, organic, relocateable wave prediction capability to operating forces. Courtesy of Dean Wakeham

COMPONENTS WAve Model (WAM) STeady-state WAVE Model (STWAVE) Combined REFraction/DIFfraction Model (REF/DIF) Navy Relocatable Tide/Surge Modeling System (PCTIDES) Navy SURF 3.1 Courtesy of Dean Wakeham

Surf Object SURF 3.1 Nearshore Object REFDIF STWAVE SWAN Tidal Object PCTIDES Offshore Object Coarse Medium Fine WAM Atmosphere Object TEDS via METCAST DIOPS Data Flow Bathymetry Object TEDS DBDB-V Product Dissemination NIPRNET and/or SIPRNET Web Servers TEDS Product Servers Courtesy of Dean Wakeham

Project 01A-2: Littoral Turbidity and Surface Drift Modeling Richard P. Signell NATO/SACLANT Undersea Research Centre La Spezia, Italy Photo: NRL-SSC Photo: SACLANTCEN

Surface Drift Dynamics Tides WindRiver inflow Wind Waves Stokes Drift ENVIR. FORCING OCEAN RESPONSE DRIFT RESPONSE Direct Windage Surface Heat Flux Wind Advected by Near-surface Currents Density Stratification Depth Dependent Currents Vertical Mixing Courtesy of Rich Signell (USGS / SACLANT)

Surface Drift Modeling Coupled operational models for wind, waves and 3D currents now exist, and we can now build (and assess!) an operational surface drift model. COAMPS, WAM/SWAN, and NCOM models  GNOME (Generalized NOAA Oil Modeling Environment) NAVO Persian Gulf Drift Forecast Courtesy of Rich Signell (USGS / SACLANT)

Littoral Turbidity Dynamics TidesWind Waves Steady barotropic/ baroclinic currents River inflow Oscillatory currents Sediment entrainment/transport Incident light Scattering and absorption ENVIR. FORCING OCEAN RESPONSE SEDIMENT RESPONSE OPTICAL RESPONSE (Keen, NRL) Courtesy of Rich Signell (USGS / SACLANT)