15-11-2012, 02:11 PM
Breakwaters
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Purposes of breakwaters
Offshore breakwaters, also called bulkheads, reduce the intensity of wave action in inshore waters and thereby reduce coastal erosion or provide safe harborage. Breakwaters may also be small structures designed to protect a gently sloping beachand placed one to three hundred feet offshore in relatively shallow water.
An anchorage is only safe if ships anchored there are protected from the force of high winds and powerful waves by some large underwater barrier which they can shelter behind. Natural harbours are formed by such barriers as headlands or reefs. Artificial harbors can be created with the help of breakwaters. Mobile harbours, such as the D-Day Mulberry harbours, were floated into position and acted as breakwaters. Some natural harbours, such as those in Plymouth Sound, Portland Harbourand Cherbourg, have been enhanced or extended by breakwaters made of rock.
[edit]Unintended consequences
When oncoming waves hit breakwaters, their erosive power is concentrated on these structures, which are some distance away from the coast. This creates an area of slack water between the breakwaters and the coast. Sediment deposition can thus occur in these waters and beaches can be built up or extended there. Breakwaters also prevent nearby unprotected sections of beaches from receiving fresh supplies of sediments and they may gradually shrink due to erosion in a process known as longshore drift. On the other hand, breakwaters can also encourage erosion of beach deposits from their base and thus increase longshore sediment transport.
Breakwaters are subject to damage, and overtopping by big storms can lead to big problems with draining any water that gets behind them.
Construction
Breakwaters are either constructed some distance from the coast or built with one end linked to it, in which case they are usually called sea walls. They may be either fixed or floating, the choice depending on normal water depth and tidal range. They usually consist of large pieces of concrete spaced about 50 m apart. Their design is influenced by the angle of wave approach and other environmental parameters. Breakwater construction can be either parallel or perpendicular to the coast, depending on what will maintain tranquil conditions.
Types of breakwater structures
A breakwater structure is designed to absorb the energy of the waves that hit it, either by using mass (e.g., with caissons), or by using a revetment slope (e.g. with rock or concrete armour units).
In Coastal Engineering, a revetment is a land backed structure whilst a breakwater is a sea backed water (i.e. water on both sides).
Caisson breakwaters typically have vertical sides and are usually erected where it is desirable to berth one or more vessels on the inner face of the breakwater. They use the mass of the caisson and the fill within it to resist the overturning forces applied by waves hitting them. They are relatively expensive to construct in shallow water, but in deeper sites they can offer a significant saving over
revetment breakwaters.
Rubble mound breakwaters use structural voids to dissipate the wave energy. Rock or concrete armour units on the outside of the structure absorb most of the energy, while gravels or sands prevent the wave energy's continuing through the breakwater core. The slopes of the revetment are typically between 1:1 and 1:2, depending upon the materials used. In shallow water, revetment breakwaters are usually relatively inexpensive. As water depth increases, the material requirements, and hence costs, increase significantly