Presentation is loading. Please wait.

Presentation is loading. Please wait.

One-Dimensional Sea Ice-Ocean Model Applied to SHEBA Experiment in 1997- 1998 Winter Paper Review One-Dimensional Sea Ice-Ocean Model Applied to SHEBA.

Published byFrank Park Modified over 9 years ago

Similar presentations

Presentation on theme: "One-Dimensional Sea Ice-Ocean Model Applied to SHEBA Experiment in 1997- 1998 Winter Paper Review One-Dimensional Sea Ice-Ocean Model Applied to SHEBA."— Presentation transcript:

1 One-Dimensional Sea Ice-Ocean Model Applied to SHEBA Experiment in 1997- 1998 Winter Paper Review One-Dimensional Sea Ice-Ocean Model Applied to SHEBA Experiment in 1997- 1998 Winter Wen-Yih Sun and Jiun-Dar Chern Wen-Ien

2 Introduction SHEBA: The Surface Heat Budget of the Arctic Ocean The model includes 1. a mixed-layer ocean model, ( used to predict water temp., salinity, density, and turbulent kinetic energy ) 2. a multi-layer snow/ice model, ( used to predict the thickness, temp., and heat transfer of snow/sea ice ) and the interfaces among atmosphere, snow/sea ice, and sea water.

3 1. One-Dim. Mixed-Layer Ocean Model a. b. c. c. (Salinit y) (Densit y) (Ener gy) The equations for a one-dimensional ocean model, which include 27 layers. S: salinity, Δz: layer-thickness, ρ:density, T: water temperature, c: the specific heat capacity.

4 1. Here k-1/2 and k+1/2 stand for the value at the top and bottom of the k- layer. 2. is the eddy flux and is derived from. : the eddy coefficient 3. : the Newtonian forcing for salinity. a. Sanity ( )

5 1. : the density of sea water, = 1000 and = 273.15 K. 2. b. Density ( )

6 1. is the specific heat capacity of sea water. 2. : the Newtonian forcing for temperature. 3. : the net latent heat released from freezing or melting. : is the mass loss (gain) due to freeze (melt) at the open water surface or ice-water interface. are precipitation rate for rain and snow. is the new fallen snow density. 4. The freezing point of seawater:. c. Energy ( )

7 5. H is the heat flux inside the seawater. c. Energy Sensible Heat Flux Latent Heat Flux Heat Transfer of Precipitation albedo Downward Shortwave Radiation Upward and Downward Longwave Radiations Eddy Heat Flux

8 :wind speed near surface; c. Energy

9 To Be Continued…

Download ppt "One-Dimensional Sea Ice-Ocean Model Applied to SHEBA Experiment in 1997- 1998 Winter Paper Review One-Dimensional Sea Ice-Ocean Model Applied to SHEBA."

Similar presentations

Coupled Arctic Regional Atmosphere-Ocean-Sea Ice Model Minwei Qian and Colin Jones.

Coupled Arctic Regional Atmosphere-Ocean-Sea Ice Model Minwei Qian and Colin Jones.
A thermodynamic model for estimating sea and lake ice thickness with optical satellite data Student presentation for GGS656 Sanmei Li April 17, 2012.

A thermodynamic model for estimating sea and lake ice thickness with optical satellite data Student presentation for GGS656 Sanmei Li April 17, 2012.
The rate of change of the internal energy: e: internal energy q: heat flux  : viscous dissipation of kinetic energy The entropy  is related to e as:

The rate of change of the internal energy: e: internal energy q: heat flux  : viscous dissipation of kinetic energy The entropy  is related to e as:
Sandy desert Modifications of the surface radiation budget.

Sandy desert Modifications of the surface radiation budget.
MECHANISM OF HEAT TRANSFER Mode of Heat transfer Conduction Convection

MECHANISM OF HEAT TRANSFER Mode of Heat transfer Conduction Convection
{ Hydrosphere. H2O molecule Hooray for Polarity!!!! Polarity= Having a positively and a negatively charged end.

{ Hydrosphere. H2O molecule Hooray for Polarity!!!! Polarity= Having a positively and a negatively charged end.
Circulation in the atmosphere

Circulation in the atmosphere
Heat and freshwater budegts, fluxes, and transports Reading: DPO Chapter 5.

Heat and freshwater budegts, fluxes, and transports Reading: DPO Chapter 5.
Sea Ice Bearded seals on the ice, Pribilof Islands, February 2007 Joan Pravatiner November 20, 2007.

Sea Ice Bearded seals on the ice, Pribilof Islands, February 2007 Joan Pravatiner November 20, 2007.
Sandy Deserts Negligible Evaporation Q*  Q H + Q G Not terribly high Instability in afternoon.

Sandy Deserts Negligible Evaporation Q*  Q H + Q G Not terribly high Instability in afternoon.
Atmospheric Analysis Lecture 3.

Atmospheric Analysis Lecture 3.
Chapter 6: Global Fluxes and The Deep Circulation Heat Budget Conservation of Salt Oceanic Water Masses Oceanic Mixing Temperature - Salinity Diagrams.

Chapter 6: Global Fluxes and The Deep Circulation Heat Budget Conservation of Salt Oceanic Water Masses Oceanic Mixing Temperature - Salinity Diagrams.
Disko Bay, Greenland - 624,000 cubic miles of ice; 10% of Earth’s fresh water.

Disko Bay, Greenland - 624,000 cubic miles of ice; 10% of Earth’s fresh water.
Surface Energy Budget Q*=Net radiation QE=Latent Heat Flux

Surface Energy Budget Q*=Net radiation QE=Latent Heat Flux
Deep Ocean Circulation

Deep Ocean Circulation
Lecture 9 - 1 ERS 482/682 (Fall 2002) Snow hydrology ERS 482/682 Small Watershed Hydrology.

Lecture ERS 482/682 (Fall 2002) Snow hydrology ERS 482/682 Small Watershed Hydrology.
Sea-ice & the cryosphere

Sea-ice & the cryosphere
Thermohaline Circulation

Thermohaline Circulation
Heat Energy Solar and gravitational energy are the fundamental sources of energy for the Earth's climate system. Air-sea exchanges of heat (& freshwater)

Heat Energy Solar and gravitational energy are the fundamental sources of energy for the Earth's climate system. Air-sea exchanges of heat (& freshwater)
Chapter 9.

Chapter 9.

Similar presentations

Ads by Google