JP4993027B1 - This is the overall concept of large-capacity power generation and mass wastewater treatment in rotary fan power generation. - Google Patents

Abstract

A major problem is how to increase the power generation capacity of a buoyancy rotating fan power generation, which is one of the subsea power generations, and a new power generation method for solving this problem is provided.
SOLUTION: Powerful jet seawater is ejected to each rotary fan from a high water pressure jet ejection device, and the wastewater is treated in a large amount in the seawater discharge pressure machine room below, and wastewater that cannot be treated is installed below it. It is processed by the air vessel stable ship that has been. Also, select a place as close as possible to the land.
[Selection] Figure 2

Description

It is a new concept of large-capacity power generation in rotary fan power generation.

  This is a powerful and reliable installation concept for each facility to reliably process a large amount of wastewater.

  This will be described with reference to FIGS.

  As shown in the figure, large-capacity power generation can be achieved by rotating the upper and lower rotator fans in different directions.

  The major issue is how to increase the power generation capacity of buoyant rotary fan power generation, which is one of the subsea power generations, and is a new power generation method for solving this problem.

  If the efficiency of power generation based on the rotation of a rotating fan, which imposes an important role in subsea power generation, is improved, the amount of powerful power generation hardly requires any changes to the rotating fan power generation system in subsea power generation. Can be secured.

The difference between the success or failure of subsea power generation is whether or not it is possible to secure a really strong power generation, but it is important to increase the power generation capacity of the buoyancy type rotary fan that should be the main force more powerfully It's a new way of thinking from the thought of being there.
The power generation capacity by the new method has a strong power generation capacity, and the possibility of underwater power generation will be visible in the future.

The rotating direction of the rotating fan is as shown in the figure, and the rotating force of each 60m rotating fan is used in the opposite direction. An overview of a buoyancy-rotating ship, an underwater stability chart with a disk-shaped ocean current stabilization submarine fan, an overall view of a powerful seawater discharge method in a seawater discharge machine room, an air vessel stability ship with a stronger seawater discharge capacity, and its processing capacity It is the whole figure in the sea of the "large depth deep sea water discharge pressure deep sea ship" which is the "exhaust seawater treatment facility" when exceeding. A large-capacity 1,000m x 500m x 300m that has never been considered in the whole world after assembling the deep-sea erecting method of the large-capacity "large-depth deep sea discharge pressure deep-sea ship" that is unthinkable at present The assembly method to install a large-capacity “deep deep seawater discharge deep sea ship” in the deep sea and the installation of this large container ship enable the treatment of wastewater from dozens of buoyant rotating fan power generation facilities. Then, large-scale large-capacity power generation facilities that cannot be imagined will appear.

  A high-pressure air chamber for introducing a high-pressure air into the ship, a cylindrical outer rotating fan Y, and a cylindrical inner rotating fan R disposed inside the outer rotating fan , And a main power generation shaft is provided at the center of the inner rotating fan R, and the rotational force of the outer rotating fan Y and the inner rotating fan R is transmitted between the outer rotating fan Y and the inner rotating fan R. Six power generation shafts are provided, and the outer rotary fan Y and the inner rotary fan R are subjected to a jet jet obtained by mixing seawater ejected from the outside of the ship into the ship and high-pressure air introduced from the high-pressure air chamber, The main power generation shaft is rotated by rotating the inner rotation fan R, and the six power generation shafts are rotated by rotating the outer rotation fan Y and the inner rotation fan R in the opposite directions. The generator is connected to the shaft and the six generator shafts. It is a power generation device that performs.

Claims (1)

  A ship is provided in the sea, a high-pressure air chamber for introducing high-pressure air into the ship, a cylindrical outer rotary fan Y, a cylindrical inner rotary fan R disposed inside the outer rotary fan, 6 is provided so that the main power generation shaft is provided at the center of the inner rotating fan R, and the rotational force of the outer rotating fan Y and the inner rotating fan R is transmitted between the outer rotating fan Y and the inner rotating fan R. A power generation shaft is provided, and the outer rotary fan Y and the inner rotary fan R are subjected to an inner jet by mixing seawater jetted into the ship from outside the ship and high-pressure air introduced from the high-pressure air chamber. The main power generating shaft is rotated by rotating the rotating fan R, and the six power generating shafts are rotated by rotating the outer rotating fan Y and the inner rotating fan R in opposite directions. And power generation by a generator connected to the six power generation shafts. It is a power generation device that performs.

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