# The Pick

A pump transports the water generally upwards, but in this occasion it would pump the water downwards, multiplying the speed of the water obtained by gravity within the pipe. By logic, a greater speed of the water, will cause that the generators produce a greater amount of electricity. The electrical generation by gravity of the water is the same principle used in hydroelectric. The drainage pipe this several meters below the pick up pipe. The water attracts to meter below the level of the sea and ends between 8 and 15 meters (following the geography of the land) below the level of the sea, almost the evenness of the sea floor and using a vane (which works just as a wind vane) the water of the unloading pipe is eliminated.

When the waves go towards the beach, the vane is aligned with the current and the water spurt always will leave in the same direction that the sea current. This way, the water that leaves the pipe wrath against the sea current and will not flow without finding resistance, allowing that the current within all the pipe is not affected. This simultaneously maintains the exit of the pipe of drainage of strange bodies, sand, sweepings, etc. clean In addition, the vane counts on a cover that is closed when water of sea wants to enter and it is abre when the water spurt is drained. If all the pipe would have a length of 3 kilometers and we would put a generator each 200 meters one of the other within the pipe. Serian 15 generators, where each generator would be able to produce a Megavatio, power that is sufficient to supply to 1.000 homes. Reason why 15 generators would produce sufficient electricity like supplying to 15.000 homes, but like the pump to increase to the force or pressure of the water on the generators, the amount of produced electricity can be multiplied.