Presentation is loading. Please wait.

Presentation is loading. Please wait.

Ekman Spiral Boundary layer flow under horizontal homogeneous condition Assuming steady state and neglecting thermodynamic effect, Using K-theory Further.

Published byWillis Evelyn Price Modified over 8 years ago

Similar presentations

Presentation on theme: "Ekman Spiral Boundary layer flow under horizontal homogeneous condition Assuming steady state and neglecting thermodynamic effect, Using K-theory Further."— Presentation transcript:

1 Ekman Spiral Boundary layer flow under horizontal homogeneous condition Assuming steady state and neglecting thermodynamic effect, Using K-theory Further assuming Boundary conditions

2 Is usually defined as the depth of the Ekman layer.
Atmosphere: Ocean:

3 Oceanic Ekman layer Boundary condition: Solution:

4 Ekman transport The integrated water mass transport is at
layer Ekman layer Ekman transport The integrated water mass transport is at the right angle, 90 degree, to the wind direction, known as Ekman transport.

5 4. Ocean gyre Westerlies North Pacific gyre Easterlies

6 Estimate vertical secondary circulation
Is the depth of the Ekman layer. The integrated cross isobaric mass transport of the entire Ekman layer is

7 x y Hurricane

8 Secondary circulation Boundary layer Ekman pumping Inflow Frictional
Pressure grad. force Centrifugal force Pressure grad. force Centrifugal force Secondary circulation Frictional force Inflow Pressure grad. force Centrifugal force Boundary layer Ekman pumping

9 Hurricane Vortex X L Converging Spin up Diverging Spin down Ekman
Pressure grad. force Coriolis force L Centrifugal force Converging Spin up Diverging Spin down Buoyancy X Ekman Pumping Boundary Layer It is the convective clouds that generate spin up process to overcome the spin down process induced by the Ekman pumping

Download ppt "Ekman Spiral Boundary layer flow under horizontal homogeneous condition Assuming steady state and neglecting thermodynamic effect, Using K-theory Further."

Similar presentations

Making water move How it is mixed & transported

Making water move How it is mixed & transported
Section 2: The Planetary Boundary Layer

Section 2: The Planetary Boundary Layer
Introduction to Oceanography

Introduction to Oceanography
What Makes the Wind Blow?

What Makes the Wind Blow?
Ocean Currents – PART 2. Surface Currents Are Driven by the Winds  Winds that drive the ocean’s surface currents:  The westerlies  The trade winds.

Ocean Currents – PART 2. Surface Currents Are Driven by the Winds  Winds that drive the ocean’s surface currents:  The westerlies  The trade winds.
Hurricanes and climate ATOC 4720 class22. Hurricanes Hurricanes intense rotational storm that develop in regions of very warm SST (typhoons in western.

Hurricanes and climate ATOC 4720 class22. Hurricanes Hurricanes intense rotational storm that develop in regions of very warm SST (typhoons in western.
Atmospheric Motion ENVI 1400: Lecture 3.

Atmospheric Motion ENVI 1400: Lecture 3.
Wind Forced Ocean Circulation. Ekman Spiral and Ekman Mass Transport.

Wind Forced Ocean Circulation. Ekman Spiral and Ekman Mass Transport.
Currents Surface Currents –About 10% of the ocean’s water is in surface currents, water flowing horizontally in the uppermost 400 m Driven mostly by wind.

Currents Surface Currents –About 10% of the ocean’s water is in surface currents, water flowing horizontally in the uppermost 400 m Driven mostly by wind.
Western Intensification Subtropical gyres are asymmetric & have intense WBC’s Western intensification is created by the conservation of angular momentum.

Western Intensification Subtropical gyres are asymmetric & have intense WBC’s Western intensification is created by the conservation of angular momentum.
Steady State General Ocean Circulation “steady state” means: constant in time, no accelerations or Sum of all forces = 0 Outline:1. Ekman dynamics (Coriolis~Friction)

Steady State General Ocean Circulation “steady state” means: constant in time, no accelerations or Sum of all forces = 0 Outline:1. Ekman dynamics (Coriolis~Friction)
Ocean Gyres - combine knowledge of global winds and Ekman flow - surface transport can be determined from wind direction/velocity - surface transport alters.

Ocean Gyres - combine knowledge of global winds and Ekman flow - surface transport can be determined from wind direction/velocity - surface transport alters.
Outline Further Reading: Chapter 07 of the text book - vertical structure - surface circulation (wind driven circulation) - 3D circulation (thermohaline.

Outline Further Reading: Chapter 07 of the text book - vertical structure - surface circulation (wind driven circulation) - 3D circulation (thermohaline.
Advanced Oceanography Ocean Circulation - Chapter 1 A Review Circulation in both the oceans and the atmosphere is driven by energy from the Sun and modified.

Advanced Oceanography Ocean Circulation - Chapter 1 A Review Circulation in both the oceans and the atmosphere is driven by energy from the Sun and modified.
Wind-driven Ocean Circulation

Wind-driven Ocean Circulation
Potential temperature ( o C, Levitus 1994) Surface Global zonal mean.

Potential temperature ( o C, Levitus 1994) Surface Global zonal mean.
Define Current decreases exponentially with depth. At the same time, its direction changes clockwise with depth (The Ekman spiral). we have,. and At the.

Define Current decreases exponentially with depth. At the same time, its direction changes clockwise with depth (The Ekman spiral). we have,. and At the.
CIRCULATION OF OCEANS.

CIRCULATION OF OCEANS.
Surface wind stress Approaching sea surface, the geostrophic balance is broken, even for large scales. The major reason is the influences of the winds.

Surface wind stress Approaching sea surface, the geostrophic balance is broken, even for large scales. The major reason is the influences of the winds.
Physical Science Lecture 154 Instructor: John H. Hamilton.

Physical Science Lecture 154 Instructor: John H. Hamilton.

Similar presentations

Ads by Google