How do you calculate longshore transport?

How do you calculate longshore transport?

It is based on the principle that the volume of sand in transport, Qlst is proportional to the longshore wave power per unit length of the beach and given by,(1) Q lst = ρ K g / γ b 16 ( ρ s − ρ ) ( 1 − a ) H s , b 2.5 sin ⁡ ( 2 θ b ) where Qlst is the longshore transport rate in volume per unit time, K is an empirical …

What is alongshore sediment transport?

Longshore transport refers to the cumulative movement of beach and nearshore sand parallel to the shore by the combined action of tides, wind, and waves and the shore-parallel currents produced by them. It is also summed algebraically, at least conceptually, in the direction perpendicular to the shoreline.

How is coastal sediment transported?

Sediment is carried by the waves along the coastline. The movement of the material is known as longshore drift . Waves approach the coast at an angle because of the direction of prevailing wind. The swash will carry the material towards the beach at an angle.

How does a longshore currents transport sediment?

Longshore currents are affected by the velocity and angle of a wave. In either case, the water in a longshore current flows up onto the beach, and back into the ocean, as it moves in a “sheet” formation. As this sheet of water moves on and off the beach, it can “capture” and transport beach sediment back out to sea.

What is the direction of longshore transport?

The general direction of longshore drift is decided by the prevailing wind. In the diagram below the prevailing wind is approaching from the south-west. Therefore longshore drift is moving material from the west to the east.

What is the difference between longshore current and longshore transport?

A longshore current is a current that flows parallel to the shore within the zone of breaking waves. Longshore drift is the movement of sediments along a coast by waves that approach at an angle to the shore but then the swash recedes directly away from it.

Where does 80% to 90% of beach sand come from?

River sediments
River sediments are the source of 80 to 90 per cent of beach sand; some beaches are built to great widths by sediments washed to the sea by episodic floods, gradually eroding until the next major flood replenishes the sand. Coastlines are constantly changing due to the action of waves, currents, and tides.

Is longshore drift good or bad?

Longshore drift plays a large role in the evolution of a shoreline, as if there is a slight change of sediment supply, wind direction, or any other coastal influence longshore drift can change dramatically, affecting the formation and evolution of a beach system or profile.

What is coastal transport?

Coastal transport is an important coastal process that involves the movement of materials along the coast by the action of waves and winds. With the constant movement of waves, different materials are picked up and are transported to different areas, and can travel as far as thousands of kilometers.

What is sediment transport in geography?

Sediment transport is the movement of solid particles (sediment), typically due to a combination of gravity acting on the sediment, and/or the movement of the fluid in which the sediment is entrained.

What direction do longshore currents travel?

Figure 1 illustrates that the direction of longshore current is a function of the angle of wave appoach. For example, if the waves appoach the shoreline from the south, longshore current moves from south to north.

What is swash and backwash?

When a wave breaks, water is washed up the beach. This is called the swash . Then the water runs back down the beach, which is called the backwash . With a constructive wave, the swash is stronger than the backwash. With a destructive wave, the backwash is stronger than the swash.

Why is total longshore sediment transport ( LST ) needed?

The total longshore sediment transport (LST) rate is one of the most commonly required quantities in coastal engineering, needed in problems such as infilling of dredged channels, dispersion of beach fills and placed dredged material, and the morphodynamic response of coastal areas to engineering works.

How does wind affect Longshore suspended sediment transport?

In the first paper, a six-fold increase in LST rate on a Portuguese beach occurred when locally brisk winds blew in the same direction as the longshore currents. In the latter paper, sea breeze on Western Australian beaches was observed to increase the longshore suspended sediment transport by a factor of one hundred.

How is the LST rate calculated in the ocean?

In the following, the most commonly applied formulas for calculating the LST rate are first reviewed. The new formula is then derived based on an average concentration and longshore current velocity for the surf zone, where the current may originate from breaking waves, wind, or tides.

How did Inman and Bagnold describe the transport of sand?

Inman and Bagnold (1963) proposed a theory in which wave energy was expended to suspend and support the sand above the bottom, and any unidirectional current superimposed on the orbital wave motion could transport sand and produce a net drift in the direction of the current.