JP4974017B1 - Fan-shaped buoyancy ship rotary drum water current generator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To continue power generation operation by generating electric power with sea water taken in under the sea surface and discharging the inflow sea water. <P>SOLUTION: A fan-shaped buoyancy ship floating on the sea surface is constructed. On an inclined plane formed on the inner periphery side thereof, there are installed many sets each having a drum can in which intake sea water flows and a generator which generates electric power with the sea water. The sea water flowing into for the water flow power generation is discharged against the sea water pressure of a discharge section under the water surface by a pump action generated by rotating an external rotating fan installed outside the buoyancy ship. <P>COPYRIGHT: (C)2013,JPO&amp;INPIT

Description

  In the present invention, a large amount of discharged seawater is drained as a rotating tidal current by the generation of a vortex in the tidal sea current due to the rotation of an outer rotating fan.

  The present invention is a revolutionary new technology.

  This will be described with reference to FIGS.

In the present invention, a water current generator is installed in a conical ship that forms a fan shape when viewed from the horizontal plane, and a seawater intake is provided below the draft line 3 m to 5 m, and power is generated by the seawater taken from the seawater intake. In order to drain water after power generation, a conical cylinder that forms a fan shape when viewed from the horizontal plane is provided on the outer part of the ship, and the seawater is rotated between the ship and the cylinder by rotating the cylinder. This is a power generator that generates a vortex sea current between the ship's rim and the bottom of the ship, and if the vortex sea current starts to rotate vigorously, the eddy sea current entrains the wastewater from the water current generator and always generates power and drains simultaneously. is there.
Moreover, in order to assist drainage, high-pressure air may be introduced into a space installed at the bottom of the water current generator.

  By treating a large amount of wastewater due to the generation of rotating vortices, wastewater treatment, which is the biggest concern in subsea power generation, has greatly advanced, greatly contributing to future power generation.

  If we aim for large-capacity power generation, it will be a large amount of wastewater treatment, but I thought that it would be easy to discharge if I made a rotating flow using the unrecognizable rotating power in a one-bottle bottle. If the rotation is done with the `` Tarai '' in the figure, if you rotate while using buoyancy, you will always get a powerful rotating vortex seawater flow and a large amount of drainage will be performed sufficiently is there.

In reality, no one was able to talk about power generation under the sea a few meters below, but I couldn't deal with it, but many people are interested in this simple discovery. I think that in the near future we will surely help the “marine nation Japan”.
It is possible to withdraw completely from nuclear power generation without imposing large loads on agriculture, of course, fishing, development of marine resources, etc. Will also be able to respond sufficiently.

An external rotary fan is provided outside the fan-shaped power generation ship, and a rotating vortex is created between the power generation ship and drainage. It is an installation drawing of a fan generator in a large-scale ship of 1 km × 800 m, a detailed drawing of an external rotating fan, and an installation drawing for inflow of eddy currents. Installation chart of 64 rotary generators and 30 standing drum water current generators in the fan-type buoyancy ship rotary power generation facility and “Deep seawater discharge deep sea ship” for processing waste water from this vertical generator It is a shoseki illustration. If a powerful “underwater pressure barrier” is installed in the periphery of the power generation facility from the sea part to the above-mentioned “Deep seawater discharge deep sea ship”, the seawater part inside it will be almost free of water pressure, making it larger in the sea. Power generation advances greatly.

[Fig. 1] As shown in the figure, a drum-shaped water-flow rotating generator is installed in a fan-shaped ship, and an "external rotating fan" is installed outside to treat a large amount of discharged seawater. Rotating at a high speed to completely treat the drainage.
[Fig. 2] Installation diagram for inflow of a rotating eddy current in a generator in a fan-shaped buoyancy ship. It is aimed at power.
[Fig. 3] From now on, by installing a fan-shaped buoyancy ship rotary power generation facility and a standing drum water current generator, such as 2km x 2km, it will be able to cope with stormy weather and other typhoons at sea. The fan-shaped buoyancy ship rotary generator seems to be weak during stormy weather and typhoons, so the drainage at that time is switched to the drain for the standing drum water current generator so that both power generation facilities are always on It generates electricity.
[Fig. 4] The biggest problems with subsea power generation are water pressure, swells during stormy weather, typhoons, and strong sea currents, but if you completely surround the power generation facility as shown in the figure Various problems make great progress.

Claims (1)

  In the present invention, a water current generator is installed in a conical ship that forms a fan shape when viewed from the horizontal plane, and a seawater intake is provided below the draft line 3 m to 5 m, and power is generated by the seawater taken from the seawater intake. In order to drain water after power generation, a conical cylinder that forms a fan shape when viewed from the horizontal plane is provided on the outer part of the ship, and the seawater is rotated between the ship and the cylinder by rotating the cylinder. A power generator that generates vortex seawater flow between the ship's rim and the bottom of the ship, and when the vortex seawater current starts to rotate vigorously, the vortex seawater current engulfes drainage from the water current generator, and power generation and drainage are always performed simultaneously.

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