JP7076219B2 - Deep sea water temperature difference power generation device - Google Patents

Description

The present invention provides a deep water storage tank having a large inner and outer diameter at the upper part of one end and an opening for water discharge on the water surface, and a riser tube having a deep water intake opening at the other end at the lower part of the deep water storage tank. The deep water intake structure is provided in a large cylinder shape to pump up deep water with less energy, and a large inner rotating member that rotates by the flow of working gas provided in the large cylinder cylinder airtight space enables high power generation. Regarding deep water temperature difference power generation equipment.
The "large cylinder" in the present invention means that the inner diameter of the cylinder is "large" compared to the inner and outer diameter widths of the cylinder, and the length of the cylinder is shorter than the outer diameter of the cylinder. It means a large cylindrical space with a large inner and outer diameter, which is about the same length to about ten times as long and has a three-dimensionally constant volume.

Japan's land is the 60th largest in the world, but the depth of the sea near Japan is deep, so the capacity of seawater in Japan's exclusive economic zone is the largest in the world, and it is not possible to use deep water as natural energy. is important. The applicant has already proposed a fish cage and a farmed cage that also serves as a fish cage (Japanese Patent Laid-Open No. 2011-217615) and a tsunami countermeasure floating island (Japanese Patent Laid-Open No. 2015-214861).

JP 2011-217615 JP 2015-214861

Ocean temperature difference power generation that opens the future (published on February 2007, published by Sunmark Publishing, author Haruo Uehara)

The first object of the present invention is to provide a novel deep sea water temperature difference power generation device, which can pump up deep sea water with a small amount of energy and generate a large amount of deep sea water temperature difference power generation.
A second object of the present invention is to provide a deep sea water temperature difference power generation annular fishing device that utilizes the deep sea water temperature difference power generation device.
A third object of the present invention is to provide a chain ring fishing device for deep water temperature difference power generation tsunami countermeasures using the deep water temperature difference power generation device.

The present invention has a deep water storage tank having a large outer diameter and a water discharge opening on the water surface at the upper part of one end, and a riser tube having a deep water intake opening at the other end at the lower part of the deep water storage tank. Deep water intake structure is provided in a large cylinder shape to pump up deep water with less energy, and deep water that can generate high power by a large inner rotating member that rotates by the flow of working gas provided in the large cylinder cylinder airtight space. It provides a temperature difference power generation device.
The deep water temperature difference power generation device according to claim 1 is built in a large cylindrical cylindrical airtight space having a large inner and outer diameters containing a working fluid gas and a large cylindrical cylindrical airtight space, and is rotated by the flow of the working gas. A rotating body structure parallel to the sea surface equipped with a large inner rotating member having fixed rotating wings at equal intervals, and a magnet and a coil that move in conjunction with the rotation of the rotating body structure are arranged to induce electromagnetic induction. A large cylinder with a large inner and outer diameter, which has an upper air layer, an upper air outlet for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. It is composed of a cylindrical deep water storage floating body member provided with a water storage tank or having an upper air layer, an upper air discharge port for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. Large cylinder Cylindrical outer shape Cylindrical deep water storage Float member group provided with the lower end of the large cylinder cylindrical deep water storage tank or the large cylinder cylindrical outer shape cylindrical deep water storage float member group Cylindrical deep water storage float A deep water intake structure having a riser tube with a deep water intake opening is provided at the lower end of the member, and the inside of the large cylindrical cylindrical deep water storage tank or the large cylindrical outer cylindrical deep water storage floating member group. The water discharge opening that penetrates the inside of the cylindrical deep water storage floating member and has the same water surface as the water surface outside the large cylindrical cylindrical deep water storage tank or the outside of the cylindrical deep water storage floating member. The air in the upper air layer is exhausted by a natural energy means in the large cylindrical cylindrical deep water storage tank or in the cylindrical deep water storage floating member, which is provided with a cylindrical internal penetrating member having a specific gravity smaller than that of water. The water surface inside the large cylindrical cylindrical deep water storage tank or inside the cylindrical deep water storage floating member is above the water surface outside the large cylindrical cylindrical deep water storage tank or outside the cylindrical deep water storage floating member. By moving the member inside the cylinder, the member is moved to the upper part of the large cylinder cylindrical deep water storage tank or the upper part of the cylindrical deep water storage floating member, and the large cylinder cylindrical deep water is moved from the water discharge opening. From the bottom of the large cylinder cylindrical deep water storage floating member or the large cylindrical outer cylindrical deep water storage floating member group that discharges the deep water stored in the storage tank or the cylindrical deep water storage floating member to the outside. The cylindrical surface water storage floating member or the cylindrical surface water storage floating member containing the inserted surface water is incorporated in the large cylindrical cylindrical deep water storage tank or the cylindrical deep water storage floating member. Working fluid condenser A first connecting tube that connects the working fluid evaporator built in the cylindrical surface water storage floating body member, the working gas space of the large cylindrical cylindrical airtight space, and the condenser. The airtight member is provided with a tip nozzle for injecting into the rotary blade, and the working gas space of the large cylindrical cylindrical airtight space is arranged at an equidistant cylindrical angle including a second connecting pipe for connecting the evaporator. A plurality of second airtight members and a working fluid connecting tube for connecting the evaporator and the condenser are provided.
The working gas that has passed through the first connecting tube that connects the working gas space of the large cylinder cylindrical airtight space and the condenser is in the large cylinder cylindrical deep water storage tank or the cylindrical deep water storage floating member. The condenser in the fluid becomes a working fluid of a liquid, and the working fluid of the liquid passes through an evaporator built in the cylindrical surface water storage floating body member through the working fluid connecting pipe and becomes a working fluid of a gas. It is characterized in that the large inner rotating member is injected to the rotary blades fixed at equal intervals through a tip nozzle provided in the second connecting pipe to rotate the large inner rotating member to generate power.
The deep water temperature difference power generator according to claim 2 includes a condenser that passes through the working fluid deep water, an evaporator that passes through the working fluid surface water, and an upper part that discharges air from the upper air layer and the upper air layer. Large cylindrical cylindrical outer shape composed of a cylindrical deep water storage floating body member having an air discharge port and a water discharge opening on the water surface at the upper end of the large cylindrical deep water storage floating body member group. A deep water intake structure having a riser tube for a deep water intake opening is provided at the lower end of the lower end of the cylindrical deep water storage floating member group of the cylindrical deep water storage floating member group, and the large cylindrical outer cylindrical deep water storage floating member is provided. Penetration inside a cylinder that penetrates the inside of a group of cylindrical deep water storage float members and closes the water discharge opening when the water surface inside is the same as the water surface outside the cylindrical deep water storage float member. The member is provided, and the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage floating member, and the water surface in the cylindrical deep water storage floating member is set from the water surface outside the cylindrical deep water storage floating member. By moving it to the upper part, the cylinder internal penetrating member is moved to the upper part of the cylindrical deep water storage floating body member, and the deep water stored in the cylindrical deep water storage floating body member is discharged to the outside from the water discharge opening. Large cylinder Cylindrical outer shape Cylindrical deep water storage float member group, cylindrical surface water storage float member containing surface water inserted from the bottom, and a plurality of the cylindrical deep water storage float member and the cylindrical surface water A large cylinder cylindrical outer shape cylindrical deep water storage float member group in which storage float members are alternately arranged in a cylindrical shape, a large cylinder cylindrical airtight space having a large inner and outer diameters containing a working fluid gas, and the large cylinder cylindrical airtightness. A rotating body structure parallel to the sea surface having a large inner rotating member having rotating blades that are built in the space and rotate by the flow of working gas and have fixed rotating blades at equal intervals, and the rotation of the large inner rotating member. A power generation device in which magnets and coils interlocked by gear interlocking are arranged to generate power as known by electromagnetic induction, and the large cylinder cylindrical outer cylinder deep water storage floating body member group arranged in the lower part of the large cylinder cylindrical airtight space. A plurality of first airtight members including a first connecting tube for connecting the condenser built in the large cylindrical cylindrical airtight space and the plurality of cylindrical deep water storage floating members, and the above. A plurality of second airtight members having a tip nozzle for injecting into a rotary blade and incorporating a second connecting tube for connecting the large cylindrical cylindrical airtight space and the evaporator, and a plurality of alternately arranged in a cylindrical shape. Cylindrical deep water storage float The large cylindrical cylindrical type provided with a plurality of heat insulating blocking coupling members including a working fluid connecting tube for connecting the condenser built in the body member and the cylindrical surface water storage floating body member and the adjacent evaporator. The working gas that has passed through the plurality of first connecting pipes connecting the airtight space and the condenser becomes a working fluid of the liquid by the plurality of the condensers built in the cylindrical deep water storage floating body member, and the liquid becomes the liquid. The working fluid of the above passes through the plurality of the evaporators built in the cylindrical surface water storage floating body member via the working fluid connecting pipe to become a gaseous working fluid and is provided in the plurality of second connecting pipes. It is characterized in that the large inner rotating member is injected through a tip nozzle into the rotary blade having a fixed angle at equal intervals to rotate the large inner rotating member to generate power.
The deep water temperature difference power generation device according to claim 3 is built in a large cylindrical cylindrical airtight space having a large inner and outer diameters containing a working fluid gas and a large cylindrical cylindrical airtight space, and is rotated by the flow of the working gas. A rotating body structure parallel to the sea surface equipped with a large inner rotating member having fixed rotating wings at equal intervals, and a magnet and a coil that move in conjunction with the rotation of the rotating body structure are arranged to induce electromagnetic induction. A large cylinder with a large inner and outer diameter, which has an upper air layer, an upper air outlet for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. It is composed of a cylindrical deep water storage floating body member provided with a water storage tank or having an upper air layer, an upper air discharge port for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. Large cylinder Cylindrical outer shape Cylindrical deep water storage Float member group provided with the lower end of the large cylinder cylindrical deep water storage tank or the large cylinder cylindrical outer shape cylindrical deep water storage float member group Cylindrical deep water storage float A deep water intake structure having a riser tube with a deep water intake opening is provided at the lower end of the member, and the inside of the large cylindrical cylindrical deep water storage tank or the large cylindrical outer cylindrical deep water storage floating member group. The water discharge opening that penetrates the inside of the cylindrical deep water storage floating member and has the same water surface as the water surface outside the large cylindrical cylindrical deep water storage tank or the outside of the cylindrical deep water storage floating member. The air in the upper air layer is exhausted by a natural energy means in the large cylindrical cylindrical deep water storage tank or in the cylindrical deep water storage floating member, which is provided with a cylindrical internal penetrating member having a specific gravity smaller than that of water. The water surface inside the large cylindrical cylindrical deep water storage tank or inside the cylindrical deep water storage floating member is above the water surface outside the large cylindrical cylindrical deep water storage tank or outside the cylindrical deep water storage floating member. By moving the member inside the cylinder, the member is moved to the upper part of the large cylinder cylindrical deep water storage tank or the upper part of the cylindrical deep water storage floating member, and the large cylinder cylindrical deep water is moved from the water discharge opening. From the bottom of the large cylinder cylindrical deep water storage floating member or the large cylindrical outer cylindrical deep water storage floating member group that discharges the deep water stored in the storage tank or the cylindrical deep water storage floating member to the outside. Cylindrical surface water storage floating member or cylindrical surface water storage floating member containing the inserted surface water, and the deep water storage tank, the cylindrical deep water storage floating member, or the cylindrical deep water storage floating member. Alternatively, a condenser of the working fluid incorporated in the cylindrical deep water storage floating member or the cylindrical deep water storage floating member, an evaporator of the working fluid built in the surface water storage floating member, and the large cylinder. It is connected by a plurality of first airtight members incorporating a first connecting tube that connects the cylindrical airtight space and the condenser, and is arranged at an angle equal to the working gas space of the large cylinder cylindrical airtight space. A plurality of second connecting tubes having a plurality of the cylindrical deep water storage fluid members to be formed and a tip nozzle for injecting into the rotary blade and connecting the large cylindrical cylindrical airtight space with the evaporator. An operation of connecting a plurality of surface water storage fluid members connected by two airtight members and arranged at equal intervals to the large cylindrical cylindrical airtight space, and the evaporator and the adjacent condenser. The working gas provided with a fluid connecting pipe and passing through the first connecting pipe built in the plurality of first airtight members connecting the working gas space of the large cylinder cylindrical airtight space and the condenser is provided. A condenser built in the deep water storage tank or the cylindrical deep water storage floating member becomes a working fluid of a liquid, and the working fluid of the liquid passes through the evaporator through the working fluid connecting pipe and is a gas. It becomes the working fluid of the above and is injected into the rotary blade fixed at an evenly spaced angle of the large inner rotating member via the tip nozzle provided in the second connecting pipe built in the plurality of second airtight members. The large inner rotating member is rotated to generate power.
The deep sea water temperature difference power generation annular fishing apparatus according to claim 4 includes a plurality of deep sea water storage floating members arranged at an angle equal to the large cylinder cylindrical airtight space, and the large cylinder cylindrical airtight space. Claimed to include the plurality of surface water storage floating members arranged at equal intervals in a cylindrical shape, and the heat insulating blocking coupling member for connecting the deep water storage floating member and the adjacent surface water storage floating member. 2. The deep sea water temperature difference power generation device according to 2.
The deep water temperature difference power generation annular fishery device according to claim 5 contains a gas of a working fluid, and the inside of the cylinder is a large cylindrical cylindrical airtight space having a large inner and outer diameters that allows sunlight to pass through, and the inside of the large cylindrical cylindrical airtight space. A rotating body structure parallel to the sea surface equipped with a large inner rotating member having rotating blades with fixed angles at equal intervals because it is built in and rotated by the flow of working gas, and interlocks with the rotation of the rotating body structure. A power generation device in which a moving magnet and a coil are arranged to generate power by electromagnetic induction, an upper air outlet for discharging air from the upper air layer and the upper air layer, and a water discharge opening on the water surface are located at the upper end of one end. A large cylindrical cylindrical deep water storage tank having a large inner and outer diameter is provided, and a deep water intake structure having a riser tube for a deep water intake opening is provided at the lower end of the large cylindrical cylindrical deep water storage tank, and the large size is provided. Inside a cylinder that penetrates the inside of a cylindrical cylindrical deep water storage tank and closes the water discharge opening when the water surface inside is the same as the water surface outside the large cylindrical cylindrical deep water storage tank. The water surface in the large cylinder cylindrical deep water storage tank is provided with a penetrating member, and the air in the upper air layer is exhausted by natural energy means in the large cylinder cylindrical deep water storage tank. By moving the member above the water surface outside the water storage tank, the cylindrical internal penetrating member is moved to the upper part of the large cylinder cylindrical deep water storage tank, and the large cylinder cylindrical deep water storage tank is moved from the water discharge opening. A large cylinder cylindrical deep water storage floating member that discharges the deep water stored in the cylinder to the outside, a condenser of the working fluid built in the large cylinder cylinder deep water storage tank, and the large cylinder cylinder deep water storage. Large cylinder of floating member Cylindrical Cylindrical Deep water storage Floating member that is arranged outside the cylindrical deep water storage tank and contains surface water that is inserted from the bottom, and operation that is built into the cylindrical surface water storage floating member. A fluid evaporator, a first airtight member incorporating a first connecting tube connecting the working gas space of the large cylindrical airtight space and the condenser, and a first airtight member.
A plurality of second cylinders having a tip nozzle for injecting into the rotary blade and having a second connecting pipe for connecting the working gas space of the large cylindrical cylindrical airtight space and the evaporator, which are arranged at equal intervals in a cylindrical shape. It is provided with the airtight member of the above and a working fluid connecting pipe connecting the evaporator and the condenser, and has passed through the first connecting pipe connecting the working gas space of the large cylindrical airtight space and the condenser. The working gas becomes a liquid working fluid by the condenser in the large cylindrical cylindrical deep water storage tank, and the working fluid of the liquid is incorporated in the tubular surface water storage floating body member via the working fluid connecting pipe. It passes through the evaporator and becomes a working fluid of gas, which is injected into the rotating blades of the large inner rotating member at equal intervals through the tip nozzle provided in the second connecting pipe, and is injected into the large inner rotating blade. It is characterized in that the rotating member is rotated to generate power and the deep water discharged from the deep water storage tank is discharged to the sea in the large cylinder of the large cylinder cylindrical airtight space.
The deep water temperature difference power generation ring fishing apparatus according to claim 6 discharges a condenser that passes through the working fluid deep water, an evaporator that passes through the working fluid surface water, and air in the upper air layer and the upper air layer. A large cylinder formed of a cylindrical deep water storage floating member having an upper air discharge port and an opening for water discharge on the water surface at one end. A deep water intake structure having a riser tube for a deep water intake opening is provided at the lower end of the lower end of the cylindrical deep water storage float member group of the cylindrical outer shape cylindrical deep water storage float member group, and the large cylindrical outer cylinder deep water storage float member is provided. When the water surface inside the cylindrical deep water storage floating member of the member group penetrates the inside of the cylindrical deep water storage floating member and is the same as the water surface outside the cylindrical deep water storage floating member, the specific gravity of closing the water discharge opening is smaller than that of water. A penetrating member is provided, and the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage floating member, and the water surface in the cylindrical deep water storage floating member is the water surface outside the cylindrical deep water storage floating member. By moving it to the upper part, the cylinder internal penetrating member is moved to the upper part of the cylindrical deep water storage floating body member, and the deep water stored in the cylindrical deep water storage floating body member is discharged to the outside from the water discharge opening. Large cylinder Cylindrical outer shape Cylindrical deep water storage float member group, surface water inserted from the bottom, cylindrical surface water storage float member incorporating the evaporator, and a plurality of the cylindrical deep water storage float member and A large cylindrical outer cylinder deep-layer water storage floating member group in which the cylindrical surface water storage floating members are alternately arranged in a cylindrical shape, and a group of cylindrical deep water storage floating members, and the inside of the cylinder is parallel to the sea surface through which sunlight passes. It is equipped with a large cylinder-cylindrical airtight space with a large inner and outer diameter, and a large inner rotating member that is built in the large cylinder-cylindrical airtight space and has rotating wings with fixed angles at equal intervals to rotate by the flow of working gas. A rotating body structure parallel to the sea surface, a power generation device in which magnets and coils interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged to generate power as known by electromagnetic induction, and the large cylindrical cylindrical airtight space. The large cylinder cylindrical outer shape cylindrical deep water storage floating member group arranged at the bottom, the large cylinder cylindrical airtight space, and the condenser built in the plurality of cylindrical deep water storage floating members are connected to each other. A plurality of first airtight members having a built-in connecting pipe, and a plurality of second connecting pipes having a tip nozzle for injecting into the rotary blade and connecting the large cylindrical cylindrical airtight space and the evaporator. Second of Working fluid connection that connects the airtight member, the condenser built in the cylindrical deep water storage floating member and the cylindrical surface water storage floating member alternately arranged in a cylindrical shape, and the adjacent evaporator. With multiple heat-insulating barrier coupling members with built-in tubes,
One piece located outside the cylindrical deep water storage floating member and the cylindrical surface water storage floating member, having an air layer of 5 meters or more, a weight that can withstand a tsunami, and a thickness and height that can withstand tensile force. Alternatively, an annular outer wall floating body member in which a large number of floating body members having two holes are connected by a connecting member, a floating body member provided in any of the large number of floating body members and having fresh water at the bottom, and the large number of floating bodies. A natural energy power generation device such as a wind power generator arranged in any of the members, a fishing device or a cultivation device held by the annular outer wall floating member, and connecting the large cylindrical cylindrical airtight space and the condenser. The working gas that has passed through the plurality of first connecting pipes becomes a liquid working fluid by the condenser incorporated in the cylindrical deep water storage floating body member, and the liquid working fluid is passed through the working fluid connecting pipe. The large inner rotating member is evenly spaced via the tip nozzles provided in the plurality of second connecting pipes to become a working fluid of gas through the plurality of the evaporators built in the cylindrical surface water storage floating body member. The deep water discharged from the cylindrical deep water storage floating body member is discharged into the large cylinder of the large cylinder cylindrical airtight space while injecting the large inner rotating member into the rotating blade having a fixed angle of. It is characterized by being discharged into the sea.
The deep water temperature difference power generation ring fishing apparatus according to claim 7 discharges a condenser that passes through the working fluid deep water, an evaporator that passes through the working fluid surface water, and air in the upper air layer and the upper air layer. A large cylinder formed of a cylindrical deep water storage floating member having an upper air discharge port and an opening for water discharge on the water surface at one end. A deep water intake structure having a riser tube for a deep water intake opening is provided at the lower end of the lower end of the cylindrical deep water storage float member group of the cylindrical outer shape cylindrical deep water storage float member group, and the large cylindrical outer cylinder deep water storage float member is provided. When the water surface inside the cylindrical deep water storage floating member of the member group penetrates the inside of the cylindrical deep water storage floating member and is the same as the water surface outside the cylindrical deep water storage floating member, the specific gravity of closing the water discharge opening is smaller than that of water. A penetrating member is provided, and the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage floating member, and the water surface in the cylindrical deep water storage floating member is the water surface outside the cylindrical deep water storage floating member. By moving it to the upper part, the cylinder internal penetrating member is moved to the upper part of the cylindrical deep water storage floating body member, and the deep water stored in the cylindrical deep water storage floating body member is discharged to the outside from the water discharge opening. Large-sized cylindrical outer shape Cylindrical deep water storage floating member group, cylindrical surface water storage floating member member containing surface water inserted from the bottom, and a plurality of the cylindrical deep water storage floating member members and the cylindrical surface layer. Large cylinder with alternating water storage float members Cylindrical outer shape Cylindrical deep-layer water storage float member group, and the inside of the cylinder has a large inner and outer diameter parallel to the sea surface through which sunlight passes. Parallel to the sea surface with a large cylinder-cylindrical airtight space and a large inner rotating member with rotating wings that are built into the large cylinder-cylindrical airtight space and rotate by the flow of working gas. A rotating body structure, a power generation device in which magnets and coils interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged to generate power as known by electromagnetic induction, and a large cylinder cylindrical airtight space are arranged below. A first connecting tube for connecting the large cylindrical outer cylinder deep water storage floating member group, the large cylindrical cylindrical airtight space, and the condenser built in the plurality of cylindrical deep water storage floating members. A plurality of second airtight members having a plurality of built-in first airtight members and a second connecting tube having a tip nozzle for injecting into the rotary blade and connecting the large cylindrical cylindrical airtight space with the evaporator. Airtight member and circle A working fluid connecting a plurality of cylindrical deep water storage floating members and a plurality of the condensers built in the cylindrical surface water storage floating members and a plurality of adjacent evaporators alternately arranged in a cylindrical shape. A plurality of heat insulating blocking coupling members having a built-in connecting pipe, an air layer of 5 meters or more located outside the cylindrical deep water storage floating member and the cylindrical surface water storage floating member, and a weight capable of withstanding a tsunami. An annular outer wall floating member in which a large number of floating members having one or two holes having a thickness and height capable of withstanding the tensile force are joined by a coupling member, and one of the large number of floating members. It is provided with a floating member having fresh water at the bottom, a natural energy power generation device such as a wind power generator arranged in any of the many floating members, and a fishing device or a cultivation device held by the annular outer wall floating member. The working gas that has passed through the first connecting pipe built in the plurality of first airtight members connecting the working gas space of the large cylindrical cylindrical airtight space and the condenser is the cylindrical deep water storage. The condenser of the working fluid built in the floating body member becomes the working fluid of the liquid, and the working fluid of the liquid passes through the evaporator through the working fluid connecting pipe and becomes the working fluid of the gas, and becomes the plurality of second airtightness. The large inner rotating member, which is rotated by the flow of working gas provided in the large cylindrical cylindrical airtight space, is fixed at an evenly spaced angle via the tip nozzle provided in the second connecting pipe built in the sex member. The deep water discharged from the cylindrical deep water storage floating body member is discharged to the sea in the large cylinder of the large cylinder cylindrical airtight space while injecting into the rotating blade to rotate the large inner rotating member to generate power. It is characterized by.

The deep water temperature difference power generation tsunami countermeasure annular device according to claim 8 discharges a condenser that passes through the working fluid deep water, an evaporator that passes through the working fluid surface water, and air in the upper air layer and the upper air layer. A large cylinder formed of a cylindrical deep water storage floating member having an upper air discharge port and an opening for water discharge on the water surface at one end. Cylindrical deep water storage of a group of cylindrical deep water storage floating members A deep water intake structure having a riser tube with a deep water intake opening is provided at the lower end of the floating body member, and the large cylindrical outer cylindrical deep water storage is provided. Cylindrical deep water storage of the floating body member group A cylinder that penetrates the inside of the floating body member and closes the water discharge opening when the water surface inside is the same as the water surface outside the cylindrical deep water storage floating body member. An internal penetrating member is provided, and the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage floating member, and the water surface in the cylindrical deep water storage floating member is outside the cylindrical deep water storage floating member. By moving the member above the water surface, the cylinder internal penetrating member is moved to the upper part of the cylindrical deep water storage floating member, and the deep water stored in the cylindrical deep water storage floating member is moved to the outside through the water discharge opening. The cylindrical deep water storage floating member to be discharged, the surface water inserted from the bottom, the cylindrical surface water storage floating member containing the evaporator, and a plurality of the cylindrical deep water storage floating member and the cylindrical shape. A large cylinder cylindrical outer shape cylinder deep water storage floating member group in which surface water storage floating members are alternately arranged in a cylindrical shape, a large cylinder cylindrical airtight space having a large inner and outer diameters containing a working fluid gas, and the large cylinder cylinder. A rotating body structure parallel to the sea surface having a large inner rotating member having rotating blades with fixed angles at equal intervals because the cylinder is built in the airtight space and is rotated by the flow of the working gas, and the large inner rotating member. A power generation device in which magnets and coils interlocked by rotation and gear interlocking are arranged to generate power as known by electromagnetic induction, and the large cylinder cylindrical outer cylinder deep water storage floating body arranged in the lower part of the large cylinder cylindrical airtight space. A group of members, and a plurality of first airtight members having a first connecting tube for connecting the condenser built in the large cylindrical airtight space and the plurality of cylindrical deep water storage floating members. , A plurality of second airtight members having a tip nozzle for injecting into the rotary blade and incorporating a second connecting tube for connecting the large cylindrical cylindrical airtight space and the evaporator, and a plurality of second airtight members alternately arranged in a cylindrical shape. Multiple cylindrical deep water storage floats A plurality of heat insulating blocking coupling members including a working fluid connecting tube for connecting the plurality of condensers built in the body member and the cylindrical surface water storage floating body member and the plurality of adjacent evaporators, and the said Cylindrical deep water storage float member and an air layer located outside the cylindrical surface water storage float member with a sea surface height of 10 meters or more, a weight that can withstand a tsunami, and a thickness and height that can withstand tensile force. An annular outer wall floating member in which a large number of floating members having one or two holes are joined by a coupling member, a floating member provided in any of the large number of floating members and having fresh water at the bottom, and the above. A renewable energy power generation device such as a wind power generator arranged in any of a large number of floating body members, a fishing device or a cultivation device held by the annular outer wall floating body member, and the cylindrical deep water storage from the water discharge opening. A deep water storage device that stores the deep water discharged from the floating member and discharges the stored deep water to the sea in the large cylinder of the large cylindrical airtight space and the annular outer wall floating member are connected by a coupling member. The working gas that has passed through the plurality of first connecting pipes connecting the large cylindrical airtight space and the condenser is incorporated in the cylindrical deep water storage floating member. The condenser becomes a working fluid of a liquid, and the working fluid of the liquid passes through a plurality of the evaporators built in the cylindrical surface water storage floating body member via the working fluid connecting pipe and is a working fluid of a gas. Then, through the tip nozzles provided in the plurality of second connecting pipes, the large inner rotating member is sprayed onto the rotary blades fixed at equal intervals to rotate the large inner rotating member to generate power. Cylindrical deep layer water storage The deep layer water discharged from the floating body member is characterized by being discharged to the sea in the large cylinder of the large cylinder cylindrical airtight space.
The deep water temperature difference power generation tsunami countermeasure annular device according to claim 9 has a condenser that passes through the working fluid deep water, an evaporator that passes through the working fluid surface water, and air in the upper air layer and the upper air layer. A large cylinder composed of a cylindrical deep water storage floating member having an upper air discharge port for discharging and an opening for water discharge on the water surface at one end. Cylindrical outer shape Cylindrical deep water storage Floating member group cylindrical deep water storage A deep water intake structure having a riser tube with a deep water intake opening is provided at the lower other end of the floating body member, and the large cylindrical outer shape cylindrical deep water storage. Cylindrical deep water storage of the floating body member group A cylinder with a specific gravity smaller than that of water that penetrates the inside of the floating body member and closes the water discharge opening when the water surface inside is the same as the water surface outside the cylindrical deep water storage floating body member. An internal penetrating member is provided, and the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage floating member, and the water surface in the cylindrical deep water storage floating member is outside the cylindrical deep water storage floating member. By moving the member above the water surface, the cylindrical deep water storage floating member is moved to the upper part of the cylindrical deep water storage floating member, and the deep water stored in the cylindrical deep water storage floating member is moved to the outside through the water discharge opening. The cylindrical deep water storage floating member to be discharged, the surface water inserted from the bottom, and the cylindrical surface water storage floating member containing the evaporator.
A large cylindrical outer cylinder deep water storage float member group in which a plurality of the cylindrical deep water storage float members and the cylindrical surface water storage float members are alternately arranged in a cylindrical shape, and inside and outside containing a working fluid gas. A sea surface equipped with a large-diameter large cylinder-cylindrical airtight space and a large inner rotating member having rotating wings fixed at equal intervals to rotate by the flow of working gas built in the large-cylindrical airtight space. A rotating body structure parallel to the above, a power generation device in which magnets and coils interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged to generate power as known by electromagnetic induction, and the lower part of the large cylindrical cylindrical airtight space. First, the large cylinder cylindrical outer shape cylindrical deep water storage floating member group, the large cylinder cylindrical airtight space, and the condenser built in the plurality of cylindrical deep water storage floating members are connected to each other. A plurality of first airtight members having a built-in connecting pipe, and a plurality of having a second connecting pipe for connecting the large cylindrical cylindrical airtight space and the evaporator, which are provided with a tip nozzle for injecting into the rotary blade. 2. It is located outside the cylindrical deep water storage floating member and the cylindrical surface water storage floating member, and has a height above the sea surface. An annular outer wall float made by connecting a large number of floating members with one or two holes with an air layer of 10 meters or more, a weight that can withstand a tsunami, and a thickness and height that can withstand tensile force. A member, a floating member provided in any of the large number of floating members and having fresh water at the bottom, a renewable energy power generation device such as a wind power generator arranged in any of the large number of floating members, and the water discharge. A deep water storage device that stores the deep water discharged from the cylindrical deep water storage floating member from the opening and discharges the stored deep water to the sea in a large cylinder, and the annular outer wall floating member by a coupling member. The working gas that has been provided with a coupled chain-shaped annular outer wall floating member and has passed through a plurality of the first connecting pipes connecting the large cylindrical airtight space and the condenser is contained in the cylindrical deep water storage floating member. The built-in condenser becomes a liquid working fluid, and the liquid working fluid passes through a plurality of the evaporators built in the cylindrical surface water storage floating member via the working fluid connecting pipe to operate the gas. It becomes a fluid and the tip cylinder provided in the plurality of second connecting pipes. The deep water discharged from the cylindrical deep water storage floating body member is ejected to the rotary blades fixed at equal intervals of the large inner rotating member via a slip to rotate the large inner rotating member to generate power. It is characterized in that it is discharged to the sea in the large cylinder of the large cylinder type airtight space.
The method according to any one of claims 8 to 9, wherein the deep sea water temperature difference power generation tsunami countermeasure chain annular device according to claim 10 includes a chain annular outer wall floating member in which the annular outer wall floating member is connected by a coupling member. Deep water temperature difference power generation Tsunami countermeasures Chain ring device.
The deep water temperature difference power generation device according to claim 11 is built in a large cylindrical cylindrical airtight space having a large inner and outer diameters containing a working fluid gas and a large cylindrical cylindrical airtight space, and is rotated by the flow of the working gas. A rotating body structure parallel to the sea surface equipped with a large inner rotating member having fixed rotating wings at equal intervals, and a magnet and a coil that move in conjunction with the rotation of the rotating body structure are arranged to induce electromagnetic induction. A large cylinder with a large inner and outer diameter, which has an upper air layer, an upper air outlet for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. It is composed of a cylindrical deep water storage floating body member provided with a water storage tank or having an upper air layer, an upper air discharge port for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. Large cylinder Cylindrical outer shape Cylindrical deep water storage Float member group provided with the lower end of the large cylinder cylindrical deep water storage tank or the large cylinder cylindrical outer shape cylindrical deep water storage float member group Cylindrical deep water storage float A deep water intake structure having a riser tube with a deep water intake opening is provided at the lower end of the member, and the inside of the large cylindrical cylindrical deep water storage tank or the large cylindrical outer cylindrical deep water storage floating member group. Cylindrical deep water storage float member that penetrates the inside of the cylindrical deep water storage float member and the water surface inside is outside the large cylinder cylindrical deep water storage tank or the large cylinder cylindrical outer shape cylindrical deep water storage float member group. The above is provided in the large cylindrical cylindrical deep water storage tank or in the cylindrical deep water storage floating member having a cylindrical internal penetrating member having a specific gravity smaller than that of water when the water surface is the same as the outside water surface. The air in the upper air layer is exhausted by natural energy means, and the water surface in the large cylindrical deep water storage tank or in the cylindrical deep water storage floating member is outside the large cylindrical cylindrical deep water storage tank or in the above. By moving the member above the water surface outside the cylindrical deep water storage floating member, the cylindrical internal penetrating member is moved to the upper part of the large cylindrical cylindrical deep water storage tank or the upper part of the cylindrical deep water storage floating member. Large cylinder Cylindrical deep water storage Floating member or large cylinder that discharges deep water stored in the large cylinder cylindrical deep water storage tank or the cylindrical deep water storage floating member to the outside from the water discharge opening. Cylindrical outer shape Cylindrical deep water storage float member group, large cylinder cylindrical deep water storage float member, large cylinder cylindrical deep water storage float member, large cylinder cylinder deep water storage float member Outside the cylindrical deep water storage tank A tubular surface water storage float member or a cylindrical surface water storage float member that is arranged on the side and contains surface water that is inserted from the bottom, and an evaporator of a working fluid that is built in the tubular surface water storage float member. The large cylinder cylindrical airtightness is provided with a first airtight member having a built-in first connecting pipe connecting the working gas space of the large cylinder cylindrical airtight space and the condenser, and a tip nozzle to inject into the rotary blade. A plurality of second airtight members arranged at equal intervals in a cylindrical shape incorporating a second connecting tube for connecting the working gas space of the space and the evaporator, and connecting the evaporator and the condenser. The working gas passing through the first connecting pipe which is provided with the working fluid connecting pipe and connects the working gas space of the large cylinder cylindrical airtight space and the condenser is in the large cylinder cylindrical deep water storage tank. The condenser becomes a working fluid of a liquid, and the working fluid of the liquid passes through an evaporator built in the cylindrical surface water storage floating body member via the working fluid connecting pipe and becomes a working fluid of a gas. It is characterized in that the large inner rotating member is injected through a tip nozzle provided in the connecting pipe to the rotary blade having a fixed angle at equal intervals to rotate the large inner rotating member to generate power.
The deep water temperature difference power generation device according to claim 12 includes a condenser that passes through the working fluid deep water, an evaporator that passes through the working fluid surface water, and an upper part that discharges air from the upper air layer and the upper air layer. Large cylinder with large inner and outer diameters having an air outlet and a water discharge opening on the water surface at the top of one end. A large cylinder cylindrical outer shape cylindrical deep water storage floating member group composed of a cylindrical deep water storage floating member having a discharge port and a water discharge opening on the water surface at the upper end of the large cylinder cylindrical deep layer. A deep water intake structure having a riser tube for a deep water intake opening is provided at the lower end of the lower end of the water storage tank or the lower end of the cylindrical deep water storage float member of the large cylindrical outer cylinder deep water storage float member group. At the same time, the water surface inside the large cylinder cylindrical deep water storage tank penetrates the inside of the large cylinder cylindrical deep water storage tank or the inside of the cylindrical deep water storage float member of the large cylinder cylindrical outer shape cylindrical deep water floating member group, and the water surface inside is the large cylinder cylindrical cylinder depth. The large-sized cylindrical cylindrical deep-layer water storage is provided with a cylindrical internal penetration member having a specific gravity smaller than that of water that closes the water discharge opening when the water surface is the same as the outside of the layered water storage tank or the outside of the cylindrical deep-layer water storage floating member. The water surface in the large cylindrical cylindrical deep water storage tank or in the cylindrical deep water storage float member is exhausted by natural energy means in the tank or in the cylindrical deep water storage float member. By moving the member outside the large-sized cylindrical cylindrical deep-layer water storage tank or above the water surface outside the cylindrical deep-layer water storage floating member, the cylindrical internal penetrating member is moved to the upper part of the large-sized cylindrical cylindrical deep-layer water storage tank or the above. A large cylinder that is moved to the upper part of the cylindrical deep water storage floating member and discharges the deep water stored in the large cylindrical cylindrical deep water storage tank or the cylindrical deep water storage floating member to the outside through the water discharge opening. Cylindrical Cylindrical Deep Water Storage Floating Member or Large Cylindrical Outer Cylindrical Deep Water Storage Floating Member Group, Surface Water Inserted from the Bottom, Cylindrical Surface Water Storage Floating Member or Cylindrical Surface Water The storage floating member, the large cylindrical outer cylindrical deep water storage floating member group in which a plurality of the cylindrical deep water storage floating member and the cylindrical surface water storage floating member are alternately arranged in a cylindrical shape, and a working fluid. A large cylinder-cylindrical airtight space with a large inner and outer diameter that contains the gas of Sea with rotating members A rotating body structure parallel to the surface, a power generation device in which magnets and coils interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged to generate power as known by electromagnetic induction, and the large cylindrical cylindrical airtight space. The large cylinder cylindrical outer shape cylindrical deep water storage floating member group arranged at the bottom, the large cylinder cylindrical airtight space, and the condenser built in the plurality of cylindrical deep water storage floating members are connected to each other. A plurality of first airtight members having a built-in connecting pipe, and a plurality of second connecting pipes having a tip nozzle for injecting into the rotary blade and connecting the large cylindrical cylindrical airtight space and the evaporator. The second airtight member of the above, a plurality of cylindrical deep water storage floating members arranged alternately in a cylindrical shape, and the condenser built in the cylindrical surface water storage floating body member and the adjacent evaporator are connected. The working gas that has passed through the plurality of first connecting pipes connecting the large cylindrical cylindrical airtight space and the condenser is provided with a plurality of heat insulating blocking coupling members having a built-in working fluid connecting pipe. The plurality of the condensers built in the deep water storage tank become the working fluid of the liquid, and the working fluid of the liquid is the plurality of the above built in the cylindrical surface water storage floating body member via the working fluid connecting pipe. It passes through the evaporator and becomes a working fluid of gas, and is injected into the rotary blades of the large inner rotating member having fixed angles at equal intervals through the tip nozzles provided in the plurality of second connecting pipes. It is characterized by rotating a rotating member to generate power.

The deep water temperature difference power generation device of the present invention is provided with a large inner / outer diameter at the upper part of one end, and is provided with an upper air layer, an upper air discharge opening for discharging air from the upper air layer, and a water discharge opening on the water surface. By arranging the deep water storage floating member equipped with the deep water storage tank in the shape of a large cylinder, deep water can be pumped up with less energy, and the large cylinder cylinder type has a large inside that rotates due to the flow of working gas provided in the airtight space. The rotating member enables high power generation.
Further, the deep water temperature difference power generation annular fishing apparatus according to the present invention is the annular fishing apparatus because deep water is discharged into the sea inside the cylinder of the large cylinder cylindrical airtight space and sunlight is incident on the sea inside the large cylinder. A large catch is possible within.
Further, in the tsunami countermeasure chain deep water temperature difference power generation annular fishing apparatus according to the present invention, the tsunami countermeasure annular outer wall floating islands are arranged outside the large cylindrical cylindrical airtight space, and the ends of the tsunami countermeasure annular outer wall floating islands are overlapped with each other. By providing a tsunami countermeasure chain ring fishing device that arranges tsunamis in a chain, it is possible to mitigate or prevent the invasion of tsunami.

In the first embodiment of the deep water temperature difference power generation device according to the present invention, a condenser passing through the working fluid g deep water, an evaporator passing through the working fluid g surface water, and an inner / outer diameter containing a gas of the working fluid are incorporated. Large large cylindrical cylindrical airtight space, a large external support member having an inner wall surface that engages with a plurality of intermediate balls or intermediate cylindrical rollers and the plurality of intermediate balls or intermediate cylindrical rollers, and the plurality of intermediate balls. Alternatively, it is provided with an outer wall that engages with the intermediate cylindrical roller and a large inner rotating member provided with rotating blades having fixed angles at approximately equal intervals to rotate due to the flow of working gas, and is built in the large cylindrical cylindrical airtight space. A rotating body structure substantially parallel to the sea surface, a power generation device in which magnets and coils interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged to generate power as known by electromagnetic induction, and a large one at the upper part of one end. A large cylindrical deep water storage tank with an inner / outer diameter, an upper air layer, an upper air discharge opening for discharging air from the upper air layer, and a water discharge opening on the water surface, and a built-in condenser. A deep water intake structure provided with a riser tube having a deep water intake opening at the other end at the lower part of the large cylindrical cylindrical deep water storage tank and the inside of the large cylindrical cylindrical deep water storage tank. When the water surface of the large cylinder is the same as the water surface outside the large cylinder cylindrical deep water storage tank, the large cylinder cylindrical deep water has a cylindrical internal penetrating member having a specific gravity smaller than that of water to close the water discharge opening. The air in the upper air layer is exhausted in the storage tank by natural energy means, and the water surface in the large cylinder cylindrical deep water storage tank is moved above the water surface outside the large cylinder cylindrical deep water storage tank. Moves the cylindrical internal penetrating member to the upper part of the large cylinder cylindrical deep water storage tank, and discharges the deep water stored in the large cylinder cylindrical deep water storage tank to the outside through the water discharge opening. A cylindrical surface water storage floating member having a large deep water storage floating member and a heating means for heating the surface water arranged outside the large cylindrical cylindrical deep water storage tank and inserted from the bottom by a natural energy power generation means. And four first airtight pillar members arranged at an angle of, for example, 90 degrees, including a first connecting tube connecting the working gas space of the large cylindrical cylindrical airtight space and the condenser, and the rotation. A plurality of second cylinders equipped with a tip nozzle that injects into the wing and have a built-in second connecting pipe that connects the working gas space of the large cylindrical airtight space and the evaporator, and are arranged at substantially equal intervals in a cylindrical shape. The airtight pillar member, the large deep water storage floating member, and the cylinder. A heat insulating blocking coupling member in the eight equal division directions that connects the surface water storage floating member, for example, at an angle of 45 degrees, and the evaporator and the condenser that are arranged at the center of the insulating blocking coupling member are connected. The large cylinder cylindrical deep water storage tank is provided with a working fluid connecting pipe to exhaust the air above the cylindrical internal penetrating member in the large cylinder cylindrical deep water storage tank, and the water surface in the large cylinder cylindrical deep water storage tank is the large cylinder. Cylindrical Cylindrical deep water storage tank By moving it above the water surface outside the water surface, the cylindrical internal penetrating member is moved to the upper part, and the deep water stored from the water discharge opening is transferred to the large cylindrical cylindrical deep water storage tank. By discharging the seawater or lake water in the riser pipe to the upper part and circulating the seawater or lake water in the deep water intake structure, the deep water is discharged from the deep water intake opening to the large cylindrical cylindrical deep water. The working gas that has passed through the first connecting pipe that connects the working gas space of the large cylinder cylindrical airtight space and the condenser while taking water into the storage tank is built in the large cylinder cylindrical deep water storage tank. The condenser becomes a liquid working fluid, and the liquid working fluid passes through an evaporator built in the cylindrical surface water storage floating body member via the working fluid connecting pipe and becomes a gas working fluid. (Ii) It is characterized in that the large inner rotating member is injected to the rotary blade having a fixed angle at substantially equal intervals via a tip nozzle provided in the connecting pipe.

The second embodiment of the deep water temperature difference power generation device according to the present invention is provided with a condenser that passes through the working fluid deep water, an evaporator that passes through the working fluid surface water, and a large inner / outer diameter at the upper part of one end. Of the cylindrical deep water storage tank and the cylindrical deep water storage tank having the upper air layer, the upper air discharge opening for discharging the air of the upper air layer, and the water discharge opening on the water surface, and incorporating the condenser. For draining water when the riser tube having the deep water intake opening at the other end at the bottom and the water surface inside the cylindrical deep water storage tank are the same as the water surface outside the cylindrical deep water storage tank. A cylindrical internal penetrating member having a specific gravity smaller than that of water is provided to close the opening, and the air in the upper air layer is exhausted by a natural energy means in the cylindrical deep water storage tank, and the water surface in the deep water storage tank is the deep layer. By moving the member above the water surface outside the water storage tank, the cylinder internal penetrating member is moved to the upper part of the cylindrical deep water storage tank, and the deep water stored in the cylindrical deep water storage tank through the water discharge opening. A cylindrical deep water storage floating member that discharges water to the outside, a heating means that heats the surface water inserted from the bottom by a natural energy power generation means, and a cylindrical surface water storage floating member that incorporates the evaporator. A large cylindrical outer cylindrical floating body member group in which the cylindrical deep water storage floating member and the cylindrical surface water storage floating member are alternately arranged in a cylindrical shape, and a large cylindrical cylinder having a large inner and outer diameters containing a working fluid gas. A mold airtight space, a large outer support member having an inner side wall that engages with a plurality of intermediate balls or intermediate cylindrical rollers and the plurality of intermediate balls or intermediate cylindrical rollers, and the plurality of intermediate balls or intermediate cylindrical rollers. It is provided with a large inner rotating member provided with a rotating wing having a fixed angle at approximately equal intervals because it rotates by an engaging outer wall and a flow of working gas. A parallel rotating body structure, a power generation device in which magnets and coils interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged to generate power as known by electromagnetic induction, and the lower part of the large cylindrical cylindrical airtight space. A first connecting tube that connects the large-sized cylindrical outer cylindrical floating body member group arranged in the large-sized cylinder-shaped cylindrical airtight space and the condenser built in the plurality of the cylindrical deep-layer water storage floating body members. A plurality of second members having a plurality of built-in first airtight column members and a second connecting tube having a tip nozzle for injecting into the rotary blade and connecting the large cylindrical cylindrical airtight space with the evaporator. Airtight pillar members and multiple cylinders arranged alternately A plurality of heat insulations including a working fluid connecting tube for connecting a plurality of the condensers built in the cylindrical deep water storage floating member and a plurality of adjacent evaporators. It is provided with a sex blocking coupling member, and the air above the cylindrical deep water storage tank is exhausted in the cylindrical deep water storage tank, and the water surface in the cylindrical deep water storage tank is the water surface outside the cylindrical deep water storage tank. By moving it to the upper part, the cylinder internal penetrating member is moved to the upper part, and the deep water stored from the water discharge opening is discharged to the outside of the cylindrical deep water storage tank to discharge the seawater or lake water in the riser pipe. By moving to the upper part and circulating seawater or lake water in the cylindrical deep water storage floating body member, deep water is taken into the cylindrical deep water storage tank from the deep water intake opening and the large cylinder cylindrical airtight space. And the working gas that has passed through the plurality of first connecting pipes connecting the condensers becomes a liquid working fluid by the plurality of the condensers built in the cylindrical deep water storage tank, and the liquid working fluid becomes the working fluid of the liquid. Through the working fluid connecting pipe, it passes through the plurality of the evaporators built in the cylindrical surface water storage floating body member to become a gaseous working fluid, and through the tip nozzles provided in the plurality of second connecting pipes. The large inner rotating member is characterized in that it is injected into the rotary blade having a fixed angle at substantially equal intervals.
The plurality of cylindrical deep water storage floating members and the cylindrical surface water storage floating members alternately arranged in a cylindrical shape are alternately arranged in an inner cylindrical shape on a plurality of concentric circles, and the outer concentric circles and the inner concentric circles are cylinders. An embodiment in which the deep water storage floating member and the cylindrical surface water storage floating member are connected in a net shape via the heat insulating blocking coupling member is also within the scope of the present invention.

In the second embodiment of the deep water temperature difference power generation device according to the present invention, a plurality of the cylindrical surface water storage floating members are arranged in a cylindrical shape of an outer concentric circle, and a plurality of the cylindrical deep layers are arranged in a cylindrical shape of an inner concentric circle. Water storage Floating members are connected and arranged by a heat insulating blocking coupling member, and if necessary, a plurality of the cylindrical surface water storage floating members are further arranged in a cylindrical shape of inner concentric circles, and a plurality of the cylindrical surface water storage members are arranged. The configuration in which each of the floating member and the plurality of cylindrical deep water storage floating members is connected to the heat insulating blocking coupling member is also within the scope of the present invention.

The airtight member of the large cylindrical cylindrical airtight space is divided into equal parts other than the known gear interlocking, for example, and the equally divided airtight member is assembled together with the divided airtight member having the gear interlocking built-in via a coupling member, and the large outer shape is formed. The support member and the large inner rotating member are divided into equal parts, for example, and the large outer support member provided with an inner side wall that engages with a plurality of the intermediate balls or intermediate cylindrical rollers is housed in the large cylindrical cylindrical airtight space. Large outer support member equal parts divided into equal parts are assembled via a coupling member, and have an outer wall that engages with the intermediate ball or intermediate cylindrical roller, and are rotated by the flow of working gas, so the angles are approximately equal. The large inner rotating member provided with the fixed rotary blade of the large inner rotating member is divided into, for example, evenly divided into the large cylindrical cylindrical airtight space, so that the large inner rotating member equal component can be rotated inward through a coupling member. Assembled.

According to the present invention, a large cylinder cylindrical deep water storage tank or a large cylinder cylindrical outer shape cylindrical floating body member group is provided with a large inner / outer diameter at the upper part of one end, and the upper part of the upper air layer and the upper part for discharging the air of the upper air layer. By arranging the deep water storage floating member having a deep water storage tank having an air discharge opening and a water discharge opening on the water surface in a large cylindrical shape, deep water can be pumped up with less energy and the large cylinder cylindrical airtightness. A large inner rotating member that rotates by the flow of working gas provided in the space enables high-power power generation.

The first embodiment of the deep water temperature difference power generation annular fishing apparatus according to the present invention incorporates a condenser that passes through the working fluid gas deep water, an evaporator that passes through the working fluid gas surface water, and a working fluid gas. At the same time, the inside of the cylinder engages with a large cylindrical cylindrical airtight space with a large inner and outer diameter that is substantially parallel to the sea surface through which sunlight passes, and a plurality of intermediate balls or intermediate cylindrical rollers and the plurality of intermediate balls or intermediate cylindrical rollers. A large external support member having an inner side wall, an outer wall engaging with the plurality of intermediate balls or intermediate cylindrical rollers, and a large rotating wing having a fixed angle at approximately equal intervals to rotate due to the flow of working gas. A rotating body structure provided with an inner rotating member and built in the large cylindrical airtight space substantially parallel to the sea surface, and magnets and coils interlocking with the rotation of the large inner rotating member are arranged and known by electromagnetic induction. The condenser is provided with a power generation device that generates power as described above, an upper air layer having a large inner and outer diameter at one end, an upper air discharge opening for discharging air from the upper air layer, and a water discharge opening on the water surface. A deep water intake structure having a built-in large cylinder cylindrical deep water storage tank and a riser tube having a deep water intake opening at the other end at the lower part of the large cylinder cylindrical deep water storage tank and the large cylinder cylinder. A cylindrical internal penetration member that penetrates the inside of a cylindrical deep water storage tank and closes the water discharge opening when the water surface inside is the same as the water surface outside the large cylindrical cylindrical deep water storage tank. In the large cylinder cylindrical deep water storage tank, the air in the upper air layer is exhausted by natural energy means, and the water surface in the large cylinder cylindrical deep water storage tank is set to the large cylinder cylindrical deep layer. By moving the member above the water surface outside the water storage tank, the cylindrical internal penetrating member is moved to the upper part of the large cylinder cylindrical deep water storage tank, and the large cylinder cylindrical deep water storage is moved from the water discharge opening. A large deep water storage floating member that discharges the deep water stored in the tank to the outside and a surface water that is arranged outside the large cylindrical cylindrical deep water storage tank and is inserted from the bottom are heated by a natural energy power generation means. Four cylindrical surface water storage floating members with a built-in heating means and a first connecting tube that connects the working gas space of the large cylindrical cylindrical airtight space and the condenser, for example, arranged at an angle of 90 degrees. The first airtight column member and the tip nozzle that injects into the rotary blade are provided, and a second connecting pipe that connects the working gas space of the large cylindrical cylindrical airtight space and the evaporator is built in, and the cylinders are approximately equally spaced. Multiple second airtight column members arranged at an angle of And the heat insulating blocking coupling member in the eight equal division directions connecting the large deep water storage floating body member and the cylindrical surface water storage floating body member at an angle of, for example, 45 degrees, and the central portion of the heat insulating blocking coupling member. The working fluid connecting pipe that connects the evaporator and the condenser, and the air layer that is located outside the cylindrical surface water storage floating body member and has a height above the sea surface of 5 meters or more and the weight that can withstand a tsunami. An annular outer wall floating member in which a large number of floating members having one or two holes having a thickness and height capable of withstanding the tensile force are connected by a connecting member, and any of the above-mentioned large number of floating members. A floating member having fresh water at the bottom, a natural energy power generation device such as a wind power generator arranged in any of the many floating members, a fishing device or a cultivation device held by the annular outer wall floating member, and the above. A chain-shaped annular outer wall floating member in which an annular outer wall floating member is connected by a coupling member is provided, and the air above the cylindrical internal penetrating member is exhausted in the large cylindrical cylindrical deep water storage tank to exhaust the large cylindrical cylindrical shape. By moving the water surface in the cylindrical deep water storage tank to the upper part from the water surface outside the large cylindrical cylindrical deep water storage tank, the cylindrical internal penetrating member is moved to the upper part and the deep water stored from the water discharge opening. Is discharged to the outside of the large cylinder cylindrical deep water storage tank, the seawater or lake water in the riser pipe is moved to the upper part, and the seawater or lake water in the deep water intake structure is circulated to circulate the deep water intake opening. The working gas that has passed through the first connecting pipe that connects the working gas space of the large cylinder cylindrical airtight space and the condenser while taking in deeper water into the large cylinder cylindrical deep water storage tank is the working gas. The condenser built in the large cylindrical cylindrical deep water storage tank becomes a working fluid of liquid, and the working fluid of the liquid evaporates in the cylindrical surface water storage floating body member via the working fluid connecting pipe. It is characterized in that it passes through a vessel, becomes a working fluid of a gas, and is injected into the rotary blade having a fixed angle at substantially equal intervals of a large inner rotating member via a tip nozzle provided in the second connecting pipe.

In the second embodiment of the deep water temperature difference power generation annular fishing apparatus according to the present invention, a condenser that passes through the working fluid gas deep water, an evaporator that passes through the working fluid gas surface water, and a large inner and outer diameters are provided at the upper part of one end. A cylindrical deep water storage tank and a cylindrical deep water storage tank equipped with an upper air layer, an upper air discharge opening for discharging air from the upper air layer, and a water discharge opening on the water surface, and a built-in condenser. The water when the riser tube having the deep water intake opening at the other end at the lower part of the tank and the water surface inside the cylindrical deep water storage tank are the same as the water surface outside the cylindrical deep water storage tank. A cylindrical internal penetrating member having a specific gravity smaller than that of water is provided to close the discharge opening, and the air in the upper air layer is exhausted by a natural energy means in the cylindrical deep water storage tank to remove the water surface in the deep water storage tank. By moving the member above the water surface outside the deep water storage tank, the cylindrical internal penetrating member was moved to the upper part of the cylindrical deep water storage tank and stored in the cylindrical deep water storage tank through the water discharge opening. A plurality of cylindrical deep water storage floating members that discharge deep water to the outside, a heating means that heats the surface water inserted from the bottom by a natural energy power generation means, and a cylindrical surface water storage floating member that incorporates the evaporator. A large cylindrical outer cylindrical floating body member group in which the cylindrical deep water storage floating member and the cylindrical surface water storage floating member are alternately arranged in a cylindrical shape, and a gas of a working fluid is incorporated, and the inside of the cylinder is the sun. It is provided with a large cylindrical cylindrical airtight space having a large inner and outer diameter substantially parallel to the sea surface through which light passes, and an inner side wall that engages a plurality of intermediate balls or intermediate cylindrical rollers and the plurality of intermediate balls or intermediate cylindrical rollers. A large outer support member, an outer wall that engages with the plurality of intermediate balls or intermediate cylindrical rollers, and a large inner rotating member provided with rotating blades having fixed angles at approximately equal intervals to rotate due to the flow of working gas. A rotating body structure that is substantially parallel to the sea surface built in the large cylindrical cylindrical airtight space, and magnets and coils that are interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged and as is known by electromagnetic induction. A power generation device for generating power, the large cylindrical outer cylindrical floating body member group arranged under the large cylindrical cylindrical airtight space, the large cylindrical cylindrical airtight space, and a plurality of the cylindrical deep water storage floating bodies. The large cylindrical cylindrical airtight space and the evaporation are provided with a plurality of first airtight column members having a first connecting tube for connecting the condenser built in the member, and a tip nozzle for injecting into the rotary blade. A compound with a built-in second connecting pipe that connects the vessels Next to several second airtight pillar members, and a plurality of cylindrical deep water storage float members and a plurality of the condensers built in the cylindrical surface water storage float members alternately arranged in a cylindrical shape. 5 An annular outer wall floating member in which a large number of floating members having one or two holes having an air layer of metric or more and a weight that can withstand a tsunami and a thickness and a height that can withstand tensile force are connected by a coupling member. , A floating member provided with any of the large number of floating members and having fresh water at the bottom, a natural energy power generation device such as wind power generation arranged in any of the large number of floating members, and the annular outer wall floating member. The water surface in the cylindrical deep water storage tank is evacuated from the air above the cylindrical internal penetrating member in the cylindrical deep water storage tank, and the water surface in the cylindrical deep water storage tank is the cylindrical deep water. By moving the member above the water surface outside the storage tank to the upper part, the deep water stored through the water discharge opening is discharged to the outside of the cylindrical deep water storage tank and inside the riser pipe. By moving the seawater or lake water to the upper part and circulating the seawater or lake water in the cylindrical deep water storage floating body member, the deep water is taken into the cylindrical deep water storage tank from the deep water intake opening and the large size. The working gas that has passed through the plurality of first connecting pipes connecting the cylindrical airtight space and the condenser becomes the working fluid of the liquid by the condenser built in the cylindrical deep water storage tank, and the liquid The working fluid passes through the plurality of the evaporators built in the cylindrical surface water storage floating body member via the working fluid connecting pipe to become a gas working fluid, and the tips provided in the plurality of second connecting pipes. The deep water discharged from the cylindrical deep water storage tank is ejected through the nozzle to the rotary blades fixed at substantially equal intervals of the large inner rotating member, and the deep water discharged from the cylindrical deep water storage tank is injected into the large cylinder of the large cylinder cylindrical airtight space. It is characterized by being discharged into the sea.

The cylindrical deep water storage floating member is arranged inside the annular outer wall floating member in which a large number of the floating members are connected by the coupling member, and sunlight passes through the inside of the cylinder of the large cylindrical cylindrical airtight space. It is a good fishing spot because deep water containing a large amount of water is discharged into the inside of the cylinder of the large cylinder-shaped airtight space.
Since the large number of the annular outer wall floating members are connected to the holes perpendicular to the sea surface by a metal wire, even if a wind power generator is installed in any of the floating members, they will not tip over.
The fishing apparatus or aquaculture apparatus held by the annular floating member is also an example, but is not limited to, the fishing cage already proposed by the present applicant and the aquaculture cage (Japanese Patent Laid-Open No. 2011-217615) that also serves as a fishing cage. Known fishing or aquaculture equipment can also be implemented.

The first embodiment of the tsunami countermeasure chain deep water temperature difference power generation tsunami countermeasure chain annular fishing apparatus according to the present invention is a condenser that passes through the working fluid deep water and an evaporator that passes through the working fluid surface water. A large cylindrical cylindrical airtight space with a large inner and outer diameter that allows sunlight to pass through while containing the gas of the working fluid, and a plurality of intermediate balls or intermediate cylindrical rollers and the plurality of intermediate balls or intermediate cylindrical rollers. A large external support member having an inner side wall that engages with the outer wall, and an outer wall that engages with the plurality of intermediate balls or intermediate cylindrical rollers, and a rotating wing having a fixed angle at approximately equal intervals because it is rotated by the flow of working gas. A rotating body structure substantially parallel to the sea surface built in the large cylindrical airtight space, and magnets and coils interlocking with the rotation of the large inner rotating member are arranged and electromagnetically arranged. It is equipped with a power generation device that generates power as known by induction, an upper air layer having a large inner and outer diameter at one end, an upper air discharge opening for discharging air from the upper air layer, and a water discharge opening on the water surface. A deep-layer water intake structure including a large-sized cylindrical cylindrical deep water storage tank containing the condenser and a riser tube having a deep-level water intake opening at the other end at the lower part of the large-sized cylindrical cylindrical deep-layer water storage tank. When the water surface inside the large-sized cylindrical cylindrical deep-layer water storage tank penetrates the inside and is the same as the water surface outside the large-sized cylindrical cylindrical deep-layer water storage tank, the specific gravity of closing the water discharge opening is smaller than that of water. It has a cylindrical internal penetrating member, and the air in the upper air layer is exhausted by natural energy means in the large cylinder cylindrical deep water storage tank, and the water surface in the large cylinder cylindrical deep water storage tank is the large cylinder. Cylindrical Cylindrical Deep water storage tank By moving it above the water surface outside the water surface, the cylindrical internal penetration member is moved to the upper part of the large cylindrical cylindrical deep water storage tank, and the large cylindrical cylinder is moved from the water discharge opening. Renewable energy power generation of a large deep water storage floating member that discharges the deep water stored in the cylindrical deep water storage tank to the outside and surface water that is placed outside the large cylindrical cylindrical deep water storage tank and inserted from the bottom. A cylindrical surface water storage floating body member having a built-in heating means for heating by means and a first connecting tube for connecting the working gas space of the large cylindrical cylindrical airtight space and the condenser are built-in, for example, arranged at an angle of 90 degrees. A cylinder with a built-in second connecting pipe that connects the working gas space of the large cylinder cylindrical airtight space with the four first airtight pillar members and the tip nozzle that injects into the rotary blade. Multiple second cylinders arranged at approximately evenly spaced angles The airtight pillar member, the large deep water storage floating member, and the cylindrical surface water storage floating member are connected to each other, for example, at an angle of 45 degrees. A working fluid connecting pipe that is located in the center of the coupling member and connects the evaporator and the condenser, and an air layer and a tsunami that are located outside the cylindrical surface water storage floating body member and have a sea level of 10 meters or more. An annular outer wall floating member in which a large number of floating members having one or two holes having a weight that can withstand the force and a thickness and a height that can withstand the tensile force are joined by a connecting member, and the large number of floating members. A floating member provided in any of the above and having fresh water at the bottom, a natural energy power generation device such as a wind power generator arranged in any of the large number of floating members, and a fishing device held by the annular outer wall floating member. A culture apparatus and a chain-shaped annular outer wall floating member in which the annular outer wall floating member is connected by a connecting member are provided, and air above the cylindrical internal penetrating member is exhausted in the large cylindrical cylindrical deep water storage tank. By moving the water surface in the large cylinder cylindrical deep water storage tank to the upper part from the water surface outside the large cylinder cylindrical deep water storage tank, the cylindrical internal penetrating member is moved to the upper part and from the water discharge opening. By discharging the stored deep water out of the large cylindrical deep water storage tank, moving the seawater or lake water in the riser pipe to the upper part, and circulating the seawater or lake water in the deep water intake structure. Deep water was taken into the large cylinder cylindrical deep water storage tank from the deep water intake opening, and passed through the first connecting pipe connecting the working gas space of the large cylinder cylindrical airtight space and the condenser. The working gas becomes a liquid working fluid by the condenser built in the large cylindrical cylindrical deep water storage tank, and the working fluid of the liquid becomes the cylindrical surface water storage floating member via the working fluid connecting pipe. It passes through the evaporator built in the cylinder, becomes a working fluid of gas, and is injected into the rotary blades of the large inner rotating member, which are fixed at approximately equal intervals, via the tip nozzle provided in the second connecting pipe. It is characterized by.

The second embodiment of the tsunami countermeasure chain deep water temperature difference power generation annular fishing apparatus according to the present invention has a condenser that passes through the working fluid deep water, an evaporator that passes through the working fluid surface water, and an upper end. A cylindrical deep water storage tank and a cylinder having a large inner and outer diameters, an upper air layer, an upper air discharge opening for discharging air from the upper air layer, and a water discharge opening on the water surface, and a built-in condenser. A riser tube with a deep water intake opening at the other end at the bottom of the deep water storage tank and the water surface inside the cylindrical deep water storage tank are the same as the water surface outside the cylindrical deep water storage tank. At one time, the deep water storage tank is provided with a cylindrical internal penetrating member having a specific gravity smaller than that of water to close the water discharge opening, and the air in the upper air layer is exhausted by a natural energy means in the cylindrical deep water storage tank. By moving the inner water surface above the water surface outside the deep water storage tank, the cylindrical internal penetrating member is moved to the upper part of the cylindrical deep water storage tank, and the cylindrical deep water storage tank is moved from the water discharge opening. A cylindrical deep water storage float member that discharges the deep water stored in the cylinder to the outside, a heating means that heats the surface water inserted from the bottom by a natural energy power generation means, and a cylindrical surface water storage float that incorporates the evaporator. A large cylindrical outer cylindrical floating body member group in which a plurality of the cylindrical deep water storage floating member and the cylindrical surface water storage floating member are alternately arranged in a cylindrical shape, and a gas of a working fluid are incorporated. The inside of the cylinder is a large cylindrical cylindrical airtight space with a large inner and outer diameter that is substantially parallel to the sea surface through which sunlight passes, and the inside that engages with a plurality of intermediate balls or intermediate cylindrical rollers and the plurality of intermediate balls or intermediate cylindrical rollers. A large outer support member with a wall and an outer wall that engages with the plurality of intermediate balls or intermediate cylindrical rollers, and a large inner with fixed rotary blades at approximately equal intervals to rotate due to the flow of working gas. A rotating body structure provided with a rotating member and built in the large cylindrical airtight space substantially parallel to the sea surface, and magnets and coils interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged to induce electromagnetic induction. As is known from the above, a power generation device that generates power, a group of large-sized cylindrical outer cylindrical floating body members arranged below the large-sized cylindrical airtight space, the large-sized cylindrical cylindrical airtight space, and a plurality of the cylindrical shapes. The large cylindrical cylindrical airtightness provided with a plurality of first airtight column members having a first connecting tube for connecting the condenser built in the deep water storage floating body member and a tip nozzle for injecting into the rotary blade. A second connecting tube that connects the space and the evaporator A plurality of second airtight pillar members incorporating the above, and a plurality of cylindrical deep water storage float members and a plurality of the above-mentioned condensations incorporated in the cylindrical surface water storage float members alternately arranged in a cylindrical shape. A plurality of heat insulating blocking coupling members incorporating a working fluid connecting tube for connecting the vessel and a plurality of adjacent evaporators, and outside the cylindrical deep water storage floating member and the cylindrical surface water storage floating member. An annular outer wall in which a large number of floating members with one or two holes that are located and have an air layer of 10 meters or more, a weight that can withstand a tsunami, and a thickness and height that can withstand tensile force are connected by a coupling member. A floating body member, a floating body member provided in any of the large number of floating body members and having fresh water at the bottom, a natural energy power generation device such as a wind power generator arranged in any of the large number of floating body members, and the annular shape. A fishing device or a culture device held by an outer wall floating member, and a chain-shaped annular outer wall floating member in which the annular outer wall floating member is connected by a connecting member are provided, and the cylindrical internal penetration member is provided in a cylindrical deep water storage tank. By exhausting the air from the upper part of the cylinder and moving the water surface in the cylindrical deep water storage tank to the upper part from the water surface outside the cylindrical deep water storage tank, the cylindrical internal penetrating member is moved to the upper part and the water discharge opening. To discharge the stored deep water out of the cylindrical deep water storage tank, move the seawater or lake water in the riser pipe to the upper part, and circulate the seawater or lake water in the cylindrical deep water storage floating body member. As a result, deep water is taken into the cylindrical deep water storage tank from the deep water intake opening, and the working gas that has passed through the plurality of first connecting pipes connecting the large cylindrical cylindrical airtight space and the condenser. The condenser built in the cylindrical deep water storage tank becomes a liquid working fluid, and the liquid working fluid is a plurality of the above built in the cylindrical surface water storage floating body member via the working fluid connecting pipe. It passes through an evaporator to become a working fluid of gas, and is sprayed onto the rotary blades of a large inner rotating member having a fixed angle at substantially equal intervals through tip nozzles provided in the plurality of second connecting pipes. It is characterized in that the deep water discharged from the cylindrical deep water storage tank is discharged to the sea in the large cylinder of the large cylinder cylindrical airtight space.

In the above embodiment of the deep water temperature difference power generation tsunami countermeasure chain ring fishing apparatus according to the present invention, the chain ring outer wall floating body member only floats on the sea surface until it reaches the shore or the sandy beach at the entrance of the bay, and is not strong due to the tsunami. The chain-shaped annular outer wall floating member that moves unaffected and reaches the shore, beach, or reef rides on or stops, and the chain-shaped annular outer wall floating member that does not reach the shore, beach, or reef is the coast, beach, or reef. The arch-shaped chain-shaped annular outer wall floating body member bends and moves while the chain-shaped annular outer wall floating body members are connected to each other by the connecting member. Then, the chain-shaped annular outer wall floating member rides on the shore or sandy beach at the entrance of the bay, and the chain-shaped annular outer wall floating member having an air layer having a height of 10 meters or more can mitigate or prevent the invasion of the tsunami into the bay. It is possible. Further, for example, by arranging a plurality of arch-shaped chain-shaped annular outer wall floating members so as to overlap the ends of the circular chain-shaped annular outer wall floating members, the operation of the ship is not hindered during normal times and during a tsunami. The circular chain-shaped annular outer wall floating member overlaps at the end, and it becomes possible to mitigate or prevent the invasion of the tsunami from the entrance of the bay into the bay.
A large number of floating island members having an air layer having a sea level of 10 meters or more and a weight capable of withstanding a tsunami are described in the tsunami countermeasure floating island (Japanese Patent Laid-Open No. 2015-214861) already proposed by the present applicant. All floating members can be implemented.
Further, the annular outer wall floating body member in which the large number of floating body members are connected to the floating body member having holes vertically above the sea surface by a connecting member such as a metal wire chain is provided with a natural energy power generation device such as wind power generation in the floating body member. But it doesn't fall.
Further, since it is provided in any of the large number of floating members and has fresh water at the bottom, fresh water can be supplied on the coast when a tsunami occurs.
Further, a metal blind plate is connected to the metal wire wedge by a separate metal wire wedge to fill the gap between the multiple floating member members on the outside of the outer world side of the large number of floating member members. ..
The fishing apparatus or aquaculture apparatus held by the annular outer wall floating member is also an example, but is not limited to, the fishing cage already proposed by the present applicant and the aquaculture cage (Japanese Patent Laid-Open No. 2011-217615) that also serves as a fishing cage. A fishing device or aquaculture device known in the above can also be implemented.

In large cities and open seas such as Tokyo Bay, Osaka Bay, and Ise Bay, where there are many underground facilities, if the arch-shaped annular outer wall floating member is placed, the chain annular outer wall floating member will reach the coast or sandy beach at the entrance of the bay. The chain-shaped annular outer wall floating member that only floats on the surface of the sea and moves without being affected by the tsunami and reaches the shore, sandy beach, or reef, rides on or stops, and does not reach the shore, sandy beach, or reef. The chain-shaped annular outer wall floating member bends and moves while the chain-shaped annular outer wall floating member is connected to each other by the connecting member until the chain-shaped annular outer wall floating member reaches the coast, a sandy beach, or a rocky reef. Then, the chain-shaped annular outer wall floating member rides on the shore or sandy beach at the entrance of the bay, and the chain-shaped annular outer wall floating member having an air layer having a height of 10 meters or more can mitigate or prevent the invasion of the tsunami into the bay. It is possible. Further, for example, by arranging a plurality of arch-shaped chain-shaped annular outer wall floating members so as to overlap the ends of the circular chain-shaped annular outer wall floating members, the operation of the ship is not hindered during normal times and during a tsunami. The circular chain-shaped annular outer wall floating member overlaps at the end, and it becomes possible to mitigate or prevent the invasion of the tsunami from the entrance of the bay into the bay.
Even on the Pacific coast or the coast of the Sea of Japan, which does not constitute the Tohoku Bay, the circular ring-shaped outer wall floating member having a circular chain-shaped annular outer wall floating member is overlapped with the circular ring-shaped outer wall floating member at the end of the chain-shaped annular outer wall floating member. By arranging a plurality of chain-shaped annular outer wall floating members, an air layer having a height of 5 meters or more (preferably 15 meters) allows the tsunami to enter the coast during a tsunami without hindering the operation of the ship during normal times. It is possible to relax or prevent it by the floating member of.

Claims (12)

A large cylindrical airtight space with a large inner and outer diameter that contains the working fluid gas,
A rotating body structure parallel to the sea surface and provided with a large inner rotating member having rotating blades with fixed angles at equal intervals to rotate by the flow of working gas, which is built in the large cylindrical cylindrical airtight space.
A power generation device in which magnets and coils that move in conjunction with the rotation of the rotating structure are arranged to generate electricity by electromagnetic induction.
A large cylindrical cylindrical deep water storage tank with a large inner and outer diameter having an upper air layer, an upper air outlet for discharging air from the upper air layer, and a water discharge opening on the water surface at one end, or an upper part. Large cylinder cylindrical outer shape cylindrical deep water made of a cylindrical deep storage floating body member having an air layer, an upper air outlet for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. Deep water intake at the lower end of the large cylinder cylindrical deep water storage tank provided with the storage floating member group or at the lower end of the cylindrical deep water storage floating member of the large cylinder cylindrical outer shape cylindrical deep water storage floating member group. A deep water intake structure having a riser tube with an opening is provided, and the inside of the large cylinder cylindrical deep water storage tank or the inside of the cylindrical deep water storage float member of the large cylinder cylindrical outer shape cylindrical deep water storage float member group. When the water surface inside the large cylinder is the same as the water surface outside the large cylinder cylindrical deep water storage tank or outside the cylindrical deep water storage floating member, the inside of the cylinder whose specific gravity that closes the water discharge opening is smaller than that of water. In the large cylindrical deep water storage tank provided with a penetrating member, the air in the upper air layer is exhausted by natural energy means in the large cylindrical deep water storage tank or in the cylindrical deep water storage floating member. Alternatively, the cylindrical deep water storage floating member can be moved above the water surface outside the large cylindrical cylindrical deep water storage tank or outside the cylindrical deep water storage floating member to move the cylindrical internal penetrating member. Move to the upper part of the large cylindrical cylindrical deep water storage tank or the upper part of the cylindrical deep water storage floating member, and move the large tubular cylindrical deep water storage tank or the cylindrical deep water storage floating member from the water discharge opening. A large-sized cylindrical cylindrical deep-layer water storage floating body member for discharging the deep water stored in the above-mentioned large-sized cylindrical cylindrical outer-sized cylindrical deep-layer water storage floating body member,
Cylindrical surface water storage floating member or cylindrical surface water storage floating member containing surface water inserted from the bottom,
A working fluid condenser built in the large cylindrical deep sea water storage tank or the cylindrical deep water storage floating member.
A working fluid evaporator built in the cylindrical surface water storage float member or the cylindrical surface water storage float member, and the like.
A first airtight member incorporating a first connecting pipe that connects the working gas space of the large cylindrical cylindrical airtight space and the condenser,
A plurality of second units arranged at equal intervals in a cylindrical shape having a tip nozzle for injecting into the rotary blade and incorporating a second connecting pipe for connecting the working gas space of the large cylindrical cylindrical airtight space and the evaporator. Airtight member and
A working fluid connecting tube for connecting the evaporator and the condenser is provided.
The working gas that has passed through the first connecting tube that connects the working gas space of the large cylinder cylindrical airtight space and the condenser is in the large cylinder cylindrical deep water storage tank or the cylindrical deep water storage floating member. The condenser in the fluid becomes a working fluid of a liquid, and the working fluid of the liquid passes through an evaporator built in the cylindrical surface water storage floating member or the cylindrical surface water storage floating member via the working fluid connecting pipe. Then, it becomes a working fluid of gas and is injected into the rotary wing fixed at equal intervals of the large inner rotating member through the tip nozzle provided in the second connecting pipe to rotate the large inner rotating member. A deep water temperature difference power generation device characterized by generating power. Working fluid, a condenser that passes through deep sea water,
An evaporator that passes through the surface water of the working fluid,
A large cylindrical outer cylinder composed of a cylindrical deep water storage floating body member having an upper air layer, an upper air outlet for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. A deep water intake structure having a riser tube for a deep water intake opening is provided at the lower end of the lower end of the cylindrical deep water storage float member of the large cylindrical outer shape cylindrical deep water storage float member group. When the water surface penetrates the inside of the cylindrical deep water storage floating body member of the large cylinder cylindrical outer shape cylindrical deep water storage floating body member group and the water surface inside is the same as the water surface outside the cylindrical deep water storage floating body member. A cylindrical deep water storage floating member having a specific gravity smaller than that of water for closing the discharge opening is provided, and the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage floating member. By moving the water surface above the water surface outside the cylindrical deep water storage floating member, the cylindrical internal penetrating member is moved to the upper part of the cylindrical deep water storage floating member, and the cylindrical deep water is moved from the water discharge opening. The cylindrical deep water storage floating member that discharges the deep water stored in the storage floating member to the outside,
Cylindrical surface water storage floating body member containing surface water inserted from the bottom,
The large cylinder cylindrical outer shape cylindrical deep water storage floating member group in which a plurality of the cylindrical deep water storage floating member and the cylindrical surface water storage floating member are alternately arranged in a cylindrical shape.
A large cylindrical airtight space with a large inner and outer diameter that contains the working fluid gas,
A rotating body structure parallel to the sea surface and provided with a large inner rotating member having rotating blades with fixed angles at equal intervals to rotate by the flow of working gas, which is built in the large cylindrical cylindrical airtight space.
A power generation device in which magnets and coils interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged to generate electricity as known by electromagnetic induction.
The large cylinder cylindrical outer shape cylindrical deep sea water storage floating body member group arranged in the lower part of the large cylinder cylindrical airtight space,
A plurality of first airtight members including a first connecting tube for connecting the condenser built in the large cylindrical cylindrical airtight space and the plurality of cylindrical deep sea water storage floating members, and a plurality of first airtight members.
A plurality of second airtight members having a tip nozzle for injecting the rotary blade and incorporating a second connecting pipe for connecting the large cylindrical airtight space and the evaporator.
A plurality of cylindrical deep water storage floating members arranged alternately in a cylindrical shape and a plurality of working fluid connecting pipes for connecting the condenser built in the cylindrical surface water storage floating member and the adjacent evaporator. The working fluid that has passed through the plurality of first connecting pipes that are provided with a heat insulating blocking coupling member and that connect the large cylindrical airtight space and the condenser is incorporated in the cylindrical deep water storage floating body member. The plurality of the condensers becomes a liquid working fluid, and the liquid working fluid passes through the plurality of the evaporators built in the cylindrical surface water storage floating body member via the working fluid connecting pipe and is a gas. It becomes the working fluid of the above and is injected into the rotary blades of the large inner rotating member fixed at equal intervals through the tip nozzles provided in the plurality of second connecting pipes to rotate the large inner rotating member to generate power. A deep water temperature difference power generator characterized by A large cylindrical airtight space with a large inner and outer diameter that contains the working fluid gas,
A rotating body structure parallel to the sea surface and provided with a large inner rotating member having rotating blades with fixed angles at equal intervals to rotate by the flow of working gas, which is built in the large cylindrical cylindrical airtight space.
A power generation device in which magnets and coils that move in conjunction with the rotation of the rotating structure are arranged to generate electricity by electromagnetic induction.
A large cylindrical cylindrical deep water storage tank with a large inner and outer diameter having an upper air layer, an upper air outlet for discharging air from the upper air layer, and a water discharge opening on the water surface at one end, or an upper part. A large cylindrical outer cylinder deep layer composed of a cylindrical deep water storage floating body member having an air layer, an upper air discharge port for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. A deep layer is provided at the lower end of the large cylinder cylindrical deep water storage tank provided with the water storage floating member group, or at the lower end of the cylindrical deep water storage floating member of the large cylinder cylindrical outer shape cylindrical deep water storage floating member group. A deep water intake structure having a riser tube with a water intake opening, and a cylindrical deep water storage float member inside the large cylinder cylindrical deep water storage tank or the large cylinder cylindrical outer shape cylindrical deep water storage float member group. When the water surface inside the large cylinder is the same as the water surface outside the large cylinder cylindrical deep water storage tank or the outside of the cylindrical deep water storage floating member, the specific gravity that closes the water discharge opening is greater than that of water. The large-sized cylindrical cylindrical deep-layer water is provided with a small cylindrical internal penetrating member, and the air in the upper air layer is exhausted by natural energy means in the large-sized cylindrical deep-layer water storage tank or the cylindrical deep-layer water storage floating member. Inside the cylinder by moving the water surface inside the storage tank or inside the cylindrical deep water storage floating member to above the water surface outside the large cylinder cylindrical deep water storage tank or outside the cylindrical deep water storage floating member. The penetrating member is moved to the upper part of the large cylinder cylindrical deep water storage tank or the upper part of the cylindrical deep water storage floating member, and the large cylinder cylindrical deep water storage tank or the cylindrical deep layer is moved from the water discharge opening. A large tubular cylindrical deep water storage floating member that discharges deep water stored in the water storage floating member to the outside, or a group of the large cylindrical outer cylindrical deep water storage floating member members.
Cylindrical surface water storage floating member or cylindrical surface water storage floating member containing surface water inserted from the bottom,
A working fluid condenser built in the large cylindrical deep sea water storage tank or the cylindrical deep water storage floating member.
An evaporator of the working fluid built in the surface water storage floating body member, and
It is connected by a plurality of first airtight members incorporating a first connecting tube that connects the large cylinder cylindrical airtight space and the condenser, and is equidistant from the working gas space of the large cylinder cylindrical airtight space. The plurality of cylindrical deep water storage floating members arranged at an angle, and
The large-sized cylinder-cylindrical airtight space provided with a tip nozzle for injecting into the rotary blade and connected by a plurality of second airtight members having a second connecting pipe for connecting the large-sized cylinder-cylindrical airtight space and the evaporator. And a plurality of the surface water storage floating members arranged at equal intervals in a cylindrical shape, and
A working fluid connecting tube for connecting the evaporator and the adjacent condenser is provided.
The working gas that has passed through the first connecting tube built in the plurality of first airtight members connecting the working gas space of the large cylinder cylindrical airtight space and the condenser is the deep layer of the large cylinder cylindrical cylinder. A condenser built in the water storage tank or the cylindrical deep water storage floating member becomes a working fluid of a liquid, and the working fluid of the liquid passes through the evaporator through the working fluid connecting pipe and operates a gas. It becomes a fluid and is sprayed onto the rotary wing fixed at an evenly spaced angle of the large inner rotating member via a tip nozzle provided in a second connecting pipe built in the plurality of second airtight members. A deep water temperature difference power generation device characterized by rotating a large inner rotating member to generate power. A plurality of cylindrical deep water storage floating members arranged at an equidistant angle with the large cylindrical airtight space, and a plurality of members arranged at an equidistant angle with the large cylindrical airtight space. 2. The deep water temperature difference power generation device according to claim 2, further comprising the above-mentioned surface water storage floating body member, the heat insulating blocking coupling member for connecting the above-mentioned cylindrical deep water storage floating body member and the adjacent above-mentioned surface water storage floating body member. A large cylindrical cylindrical airtight space with a large inner and outer diameter that contains the working fluid gas and allows sunlight to pass through the inside of the cylinder.
A rotating body structure parallel to the sea surface and provided with a large inner rotating member having rotating blades with fixed angles at equal intervals to rotate by the flow of working gas, which is built in the large cylindrical cylindrical airtight space.
A power generation device in which magnets and coils that move in conjunction with the rotation of the rotating structure are arranged to generate electricity by electromagnetic induction.
A large cylinder with a large inner and outer diameter having a large inner / outer diameter having an upper air layer, an upper air discharge port for discharging air from the upper air layer, and a water discharge opening on the water surface at one end, and a large-sized cylindrical deep water storage tank. A deep water intake structure having a riser tube with a deep water intake opening is provided at the lower end of the cylindrical cylindrical deep water storage tank, and the water surface inside penetrates the inside of the large cylindrical cylindrical deep water storage tank. Large cylinder Cylindrical deep water storage tank The upper part in the large cylinder cylindrical deep water storage tank provided with a cylindrical internal penetration member having a specific gravity smaller than that of water that closes the water discharge opening when the water surface is the same as the water surface outside the large cylinder cylindrical deep water storage tank. By exhausting the air in the air layer by natural energy means and moving the water surface in the large cylindrical cylindrical deep water storage tank to the upper part of the water surface outside the large cylindrical cylindrical deep water storage tank, the cylindrical internal penetrating member Is moved to the upper part of the large cylindrical cylindrical deep water storage tank, and the deep water stored in the large tubular cylindrical deep water storage tank is discharged to the outside through the water discharge opening. Storage floating member and
The working fluid condenser built in the large cylindrical deep sea water storage tank,
A tubular surface water storage float member having a built-in surface water that is arranged outside the large cylinder cylindrical deep sea water storage tank and is inserted from the bottom of the large cylinder cylindrical deep sea water storage float member.
An evaporator of the working fluid built in the tubular surface water storage floating body member, and
A first airtight member incorporating a first connecting pipe that connects the working gas space of the large cylindrical cylindrical airtight space and the condenser,
A plurality of second units arranged at equal intervals in a cylindrical shape having a tip nozzle for injecting into the rotary blade and incorporating a second connecting pipe for connecting the working gas space of the large cylindrical cylindrical airtight space and the evaporator. Airtight member and
A working fluid connecting tube for connecting the evaporator and the condenser is provided.
The working gas that has passed through the first connecting tube that connects the working gas space of the large cylinder cylindrical airtight space and the condenser is a working fluid of liquid by the condenser in the large cylinder cylindrical deep water storage tank. The working fluid of the liquid passes through the evaporator built in the tubular surface water storage floating body member via the working fluid connecting pipe and becomes a working fluid of gas, and is a tip nozzle provided in the second connecting pipe. The large inner rotating member is injected into the rotary blade having a fixed angle at equal intervals to rotate the large inner rotating member to generate electricity, and the deep layer discharged from the large cylindrical cylindrical deep water storage tank. A deep water temperature difference power generation annular fishing apparatus characterized in that water is discharged into the sea in a large cylinder in the large cylinder type airtight space. Working fluid, a condenser that passes through deep sea water,
An evaporator that passes through the surface water of the working fluid,
A large cylindrical outer cylinder composed of a cylindrical deep water storage floating body member having an upper air layer, an upper air outlet for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. A deep water intake structure having a riser tube for a deep water intake opening is provided at the lower end of the lower end of the cylindrical deep water storage float member of the large cylindrical outer shape cylindrical deep water storage float member group. When the water surface penetrates the inside of the cylindrical deep water storage floating body member of the large cylinder cylindrical outer shape cylindrical deep water storage floating body member group and the water surface inside is the same as the water surface outside the cylindrical deep water storage floating body member, the water discharge. The water surface in the cylindrical deep water storage floating body member is provided with a cylindrical internal penetrating member having a specific gravity smaller than that for closing the opening, and the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage floating body member. Is moved above the water surface outside the cylindrical deep water storage floating member to move the cylindrical internal penetrating member to the upper part of the cylindrical deep water storage floating member, and the cylindrical deep water storage is moved from the water discharge opening. Large cylinder cylindrical outer shape cylindrical deep water storage floating body member group that discharges the deep water stored in the floating body member to the outside
Cylindrical surface water storage floating member with built-in surface water and evaporator inserted from the bottom,
A group of large-sized cylindrical outer cylinder deep-sea water storage float members in which a plurality of the above-mentioned cylindrical surface water storage float members are alternately arranged in a cylindrical shape.
A large cylindrical cylindrical airtight space with a large inner and outer diameter parallel to the sea surface that contains the working fluid gas and the inside of the cylinder allows sunlight to pass through.
A rotating body structure parallel to the sea surface and provided with a large inner rotating member having fixed rotating blades at equal intervals to rotate by the flow of working gas, which is built in the large cylindrical cylindrical airtight space.
A power generation device in which magnets and coils interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged to generate electricity as known by electromagnetic induction.
The large cylinder cylindrical outer shape cylindrical deep sea water storage floating body member group arranged in the lower part of the large cylinder cylindrical airtight space,
A plurality of first airtight members including a first connecting tube for connecting the condenser built in the large cylindrical cylindrical airtight space and the plurality of cylindrical deep sea water storage floating members, and a plurality of first airtight members.
A plurality of second airtight members having a tip nozzle for injecting the rotary blade and incorporating a second connecting pipe for connecting the large cylindrical airtight space and the evaporator.
A plurality of cylindrical deep sea water storage floating members arranged alternately in a cylindrical shape and a plurality of working fluid connecting pipes for connecting the condenser built in the cylindrical surface water storage floating member and the adjacent evaporator. With a variety of heat-insulating barrier coupling members,
One piece located outside the cylindrical deep water storage floating member and the cylindrical surface water storage floating member, having an air layer of 5 meters or more, a weight that can withstand a tsunami, and a thickness and height that can withstand a tensile force. Alternatively, an annular outer wall floating body member in which a large number of floating body members having two holes are connected by a connecting member,
A floating member provided with any of the large number of floating members and having fresh water at the bottom, and a floating member.
It is provided with a renewable energy power generation device such as wind power generation arranged in any of the plurality of floating body members, and a fishing device or aquaculture device held by the annular outer wall floating body member.
The working gas that has passed through the plurality of first connecting pipes connecting the large-sized cylindrical cylindrical airtight space and the condenser becomes a liquid working fluid by the condenser incorporated in the cylindrical deep water storage floating body member. The working fluid of the liquid passes through the plurality of the evaporators built in the cylindrical surface water storage floating body member via the working fluid connecting pipe to become a working fluid of gas, and is provided in the plurality of the second connecting pipes. The large inner rotating member is sprayed to the fixed rotary blades at equal intervals through the tip nozzle to rotate the large inner rotating member to generate power, and the large inner rotating member is discharged from the cylindrical deep water storage floating body member. A deep water temperature difference power generation annular fishing apparatus characterized in that deep water is discharged into the sea in the large cylinder of the large cylinder type airtight space. Working fluid, a condenser that passes through deep sea water,
An evaporator that passes through the surface water of the working fluid,
A large cylindrical outer cylinder composed of a cylindrical deep water storage floating body member having an upper air layer, an upper air outlet for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. A deep water intake structure having a riser tube for a deep water intake opening is provided at the lower end of the lower end of the cylindrical deep water storage float member of the large cylindrical outer shape cylindrical deep water storage float member group. When the water surface inside the large cylindrical deep water storage float member group penetrates the inside of the cylindrical deep water storage float member group and the water surface inside is the same as the water surface outside the cylindrical deep water storage float member, the water is discharged. A cylindrical deep water storage floating member having a specific gravity smaller than that for closing the opening is provided, and the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage floating member to remove the water surface in the cylindrical deep water storage floating member. By moving the member above the water surface outside the cylindrical deep water storage floating member, the cylindrical internal penetrating member is moved to the upper part of the cylindrical deep water storage floating member, and the cylindrical deep water storage floating member is moved from the water discharge opening. A cylindrical deep water storage floating member that discharges the deep water stored in the member to the outside,
Cylindrical surface water storage floating body member containing surface water inserted from the bottom,
The large cylinder cylindrical outer shape cylindrical deep water storage floating member group in which a plurality of the cylindrical deep water storage floating member and the cylindrical surface water storage floating member are alternately arranged in a cylindrical shape.
A large cylindrical cylindrical airtight space with a large inner and outer diameter parallel to the sea surface that contains the working fluid gas and allows sunlight to pass through.
A rotating body structure parallel to the sea surface and provided with a large inner rotating member having rotating blades with fixed angles at equal intervals to rotate by the flow of working gas, which is built in the large cylindrical cylindrical airtight space.
A power generation device in which magnets and coils interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged to generate electricity as known by electromagnetic induction.
The large cylinder cylindrical outer shape cylindrical deep sea water storage floating body member group arranged in the lower part of the large cylinder cylindrical airtight space,
A plurality of first airtight members including a first connecting tube for connecting the condenser built in the large cylindrical cylindrical airtight space and the plurality of cylindrical deep sea water storage floating members, and a plurality of first airtight members.
A plurality of second airtight members having a tip nozzle for injecting the rotary blade and incorporating a second connecting pipe for connecting the large cylindrical airtight space and the evaporator.
Working fluid connecting a plurality of cylindrical deep water storage floating members and a plurality of the condensers built in the cylindrical surface water storage floating members and a plurality of adjacent evaporators alternately arranged in a cylindrical shape. Multiple heat insulating blocking coupling members with built-in connecting pipes,
One piece located outside the cylindrical deep water storage floating member and the cylindrical surface water storage floating member, having an air layer of 5 meters or more, a weight that can withstand a tsunami, and a thickness and height that can withstand a tensile force. Alternatively, an annular outer wall floating body member in which a large number of floating body members having two holes are connected by a connecting member,
A floating member provided with any of the large number of floating members and having fresh water at the bottom, and a floating member.
Renewable energy power generation equipment such as wind power generation arranged in any of the many floating members, and
A fishing device or aquaculture device held by the annular outer wall floating member is provided.
The working gas that has passed through the first connecting pipe built in the plurality of first airtight members connecting the working gas space of the large cylinder cylindrical airtight space and the condenser is the cylindrical deep water storage floating body. The condenser of the working fluid built in the member becomes the working fluid of the liquid, and the working fluid of the liquid passes through the evaporator through the working fluid connecting pipe and becomes the working fluid of the gas, and becomes the working fluid of the gas. The large inner rotating member rotated by the flow of the working gas provided in the large cylinder cylindrical airtight space was fixed at an evenly spaced angle through the tip nozzle provided in the second connecting pipe built in the member. The large inner rotating member is injected to the rotary blade to generate power, and the deep water discharged from the cylindrical deep water storage floating body member is discharged to the sea in the large cylinder of the large cylinder cylindrical airtight space. Characterized deep water temperature difference power generation ring fishing Working fluid A condenser that passes through deep sea water and
An evaporator that passes through the surface water of the working fluid,
A large cylindrical outer cylinder composed of a cylindrical deep water storage floating body member having an upper air layer, an upper air outlet for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. A deep water intake structure having a riser tube for a deep water intake opening is provided at the lower end of the lower end of the cylindrical deep water storage float member of the large cylindrical outer shape cylindrical deep water storage float member group. When the water surface penetrates the inside of the cylindrical deep water storage floating body member of the large cylinder cylindrical outer shape cylindrical deep water storage floating body member group and the water surface inside is the same as the water surface outside the cylindrical deep water storage floating body member, the water discharge. The water surface in the cylindrical deep water storage floating body member is provided with a cylindrical internal penetrating member having a specific gravity smaller than that for closing the opening, and the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage floating body member. Is moved above the water surface outside the cylindrical deep water storage floating member to move the cylindrical internal penetrating member to the upper part of the cylindrical deep water storage floating member, and the cylindrical deep water storage is moved from the water discharge opening. Large cylinder cylindrical outer shape cylindrical deep water storage floating body member group that discharges the deep water stored in the floating body member to the outside
Surface water inserted from the bottom and a cylindrical surface water storage floating member containing the evaporator,
The large cylinder cylindrical outer shape cylindrical deep water storage float member group in which a plurality of the cylindrical deep water storage float members and the cylindrical surface water storage float members are alternately arranged in a cylindrical shape,
A large cylindrical airtight space with a large inner and outer diameter that contains the working fluid gas,
A rotating body structure parallel to the sea surface and provided with a large inner rotating member having rotating blades with fixed angles at equal intervals to rotate by the flow of working gas, which is built in the large cylindrical cylindrical airtight space.
A power generation device in which magnets and coils interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged to generate electricity as known by electromagnetic induction.
It is incorporated in the large cylinder cylindrical outer shape cylindrical deep water storage floating body member group arranged in the lower part of the large cylinder cylindrical airtight space, the large cylinder cylindrical airtight space, and a plurality of the cylindrical deep water storage floating body members. A plurality of first airtight members incorporating a first connecting tube for connecting the condenser, and
A plurality of second airtight members having a tip nozzle for injecting the rotary blade and incorporating a second connecting pipe for connecting the large cylindrical airtight space and the evaporator.
Working fluid connecting a plurality of cylindrical deep water storage floating members and a plurality of the condensers built in the cylindrical surface water storage floating members and a plurality of adjacent evaporators alternately arranged in a cylindrical shape. Multiple heat insulating blocking coupling members with built-in connecting pipes,
An air layer located outside the cylindrical deep water storage float member and the cylindrical surface water storage float member with a sea level of 10 meters or more, a weight that can withstand a tsunami, and a thickness and height that can withstand a tensile force. An annular outer wall floating member in which a large number of floating members having one or two holes provided with a sword are joined by a connecting member, and an annular outer wall floating member.
A floating member provided with any of the large number of floating members and having fresh water at the bottom, and a floating member.
Renewable energy power generation equipment such as wind power generation arranged in any of the many floating members, and
A fishing device or aquaculture device held by the annular outer wall floating member,
A deep water storage device that stores and stores the deep water discharged from the cylindrical deep water storage floating member through the water discharge opening and discharges the stored deep water into the sea inside the large cylinder of the large cylindrical cylindrical airtight space. And a chain-shaped annular outer wall floating body member in which the annular outer wall floating body member is connected by a connecting member.
The working gas that has passed through the plurality of first connecting pipes connecting the large cylindrical airtight space and the condenser becomes a liquid working fluid by the condenser built in the cylindrical deep water storage floating body member. The working fluid of the liquid passes through the plurality of the evaporators built in the cylindrical surface water storage floating body member via the working fluid connecting pipe to become a working fluid of gas, and is provided in the plurality of the second connecting pipes. The large inner rotating member is sprayed to the fixed rotary blades at equal intervals through the tip nozzle to rotate the large inner rotating member to generate power, and the large inner rotating member is discharged from the cylindrical deep water storage floating body member. A deep water temperature difference power generation tsunami countermeasure annular device characterized in that deep water is discharged into the sea inside a large cylinder in the large cylinder type airtight space. Working fluid, a condenser that passes through deep sea water,
An evaporator that passes through the surface water of the working fluid,
A large cylindrical outer cylinder composed of a cylindrical deep water storage floating body member having an upper air layer, an upper air outlet for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. A deep water intake structure having a riser tube for a deep water intake opening is provided at the lower end of the lower end of the cylindrical deep water storage float member of the large cylindrical outer shape cylindrical deep water storage float member group. When the water surface penetrates the inside of the cylindrical deep water storage floating body member of the large cylinder cylindrical outer shape cylindrical deep water storage floating body member group and the water surface inside is the same as the water surface outside the cylindrical deep water storage floating body member, the water discharge. The water surface in the cylindrical deep water storage floating body member is provided with a cylindrical internal penetrating member having a specific gravity smaller than that for closing the opening, and the air in the upper air layer is exhausted by natural energy means in the cylindrical deep water storage floating body member. Is moved above the water surface outside the cylindrical deep water storage floating member to move the cylindrical internal penetrating member to the upper part of the cylindrical deep water storage floating member, and the cylindrical deep water storage is moved from the water discharge opening. The cylindrical deep water storage floating body member that discharges the deep water stored in the floating body member to the outside,
Surface water inserted from the bottom and a cylindrical surface water storage floating member containing the evaporator,
The large cylinder cylindrical outer shape cylindrical deep water storage float member group in which a plurality of the cylindrical deep water storage float members and the cylindrical surface water storage float members are alternately arranged in a cylindrical shape,
A large cylindrical airtight space with a large inner and outer diameter that contains the working fluid gas,
A rotating body structure parallel to the sea surface and provided with a large inner rotating member having rotating blades with fixed angles at equal intervals to rotate by the flow of working gas, which is built in the large cylindrical cylindrical airtight space.
A power generation device in which magnets and coils interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged to generate electricity as known by electromagnetic induction.
It is incorporated in the large cylinder cylindrical outer shape cylindrical deep water storage floating body member group arranged in the lower part of the large cylinder cylindrical airtight space, the large cylinder cylindrical airtight space, and a plurality of the cylindrical deep water storage floating body members. A plurality of first airtight members incorporating a first connecting tube for connecting the condenser, and
A plurality of second airtight members including a tip nozzle for injecting the rotary blade and a second connecting pipe for connecting the large cylindrical airtight space and the evaporator.
Working fluid connecting a plurality of cylindrical deep water storage floating members and a plurality of the condensers built in the cylindrical surface water storage floating members and a plurality of adjacent evaporators alternately arranged in a cylindrical shape. Multiple heat insulating blocking coupling members with built-in connecting pipes,
An air layer located outside the cylindrical deep water storage float member and the cylindrical surface water storage float member with a sea level of 10 meters or more, a weight that can withstand a tsunami, and a thickness and height that can withstand a tensile force. An annular outer wall buoyant member in which a large number of buoyant members having one or two holes with a sword are joined by a connecting member.
A floating body member provided with any of the large number of floating body members and having fresh water at the bottom, and a renewable energy power generation device such as a wind power generator arranged in any of the large number of floating body members.
A deep water storage device that stores the deep water discharged from the cylindrical deep water storage floating member through the water discharge opening and discharges the stored deep water to the sea in a large cylinder.
A chain-shaped annular outer wall floating body member in which the annular outer wall floating body member is connected by a connecting member is provided.
The working gas that has passed through the plurality of first connecting pipes connecting the large cylindrical airtight space and the condenser becomes a liquid working fluid by the condenser built in the cylindrical deep water storage floating body member. The working fluid of the liquid passes through the plurality of the evaporators built in the cylindrical surface water storage floating body member via the working fluid connecting pipe to become a working fluid of gas, and is provided in the plurality of the second connecting pipes. The large inner rotating member is sprayed to the fixed rotary blades at equal intervals through the tip nozzle to rotate the large inner rotating member to generate power, and the large inner rotating member is discharged from the cylindrical deep water storage floating body member. A deep water temperature difference power generation tsunami countermeasure annular device, characterized in that deep water is discharged into the sea inside a large cylinder in the large cylinder type airtight space. The deep sea water temperature difference power generation tsunami countermeasure chain annular device according to any one of claims 8-9, comprising a chain annular outer wall floating member in which an annular outer wall floating member is coupled by a coupling member. A large cylindrical airtight space with a large inner and outer diameter that contains the working fluid gas,
A rotating body structure parallel to the sea surface and provided with a large inner rotating member having rotating blades with fixed angles at equal intervals to rotate by the flow of working gas, which is built in the large cylindrical cylindrical airtight space.
A power generation device in which magnets and coils that move in conjunction with the rotation of the rotating structure are arranged to generate electricity by electromagnetic induction.
A large cylindrical cylindrical deep water storage tank with a large inner and outer diameter having an upper air layer, an upper air outlet for discharging air from the upper air layer, and a water discharge opening on the water surface at one end, or an upper part. A large cylindrical outer cylindrical deep layer composed of a cylindrical deep water storage floating body member having an air layer, an upper air discharge port for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. A deep layer is provided at the lower end of the large cylinder cylindrical deep water storage tank provided with a water storage floating member group, or at the lower end of the cylindrical deep water storage floating member of the large cylinder cylindrical outer shape cylindrical deep water storage floating member group. A deep water intake structure having a riser tube with a water intake opening is provided, and a cylindrical deep water storage floating member of the large cylindrical cylindrical deep water storage tank or the large cylindrical outer cylindrical deep water storage floating member group. The water surface inside the large cylinder is the same as the water surface outside the large cylinder cylindrical deep water storage tank or outside the cylindrical deep water storage float member of the large cylinder cylindrical outer shape cylindrical deep water storage float member group. When the cylinder internal penetrating member having a specific gravity smaller than that of water is provided to close the water discharge opening, the air in the upper air layer is subjected to natural energy in the large cylindrical cylindrical deep water storage tank or in the cylindrical surface water storage floating body member. Exhaust by means and the water surface in the large cylindrical deep water storage tank or in the cylindrical deep water storage floating member is outside the large cylindrical cylindrical deep water storage tank or outside the cylindrical deep water storage floating member. By moving the member above the water surface of the cylinder, the cylinder internal penetrating member is moved to the upper part of the large cylinder cylindrical deep water storage tank or the upper part of the cylindrical deep water storage floating member, and the large cylinder is moved from the water discharge opening. A large cylinder cylindrical deep water storage floating member or a large cylindrical outer cylindrical deep water storage floating member that discharges the deep water stored in the cylindrical deep water storage tank or the cylindrical deep water storage floating member to the outside. With a group,
A working fluid condenser built in the large cylindrical cylindrical deep sea water storage tank or a cylindrical surface water storage floating body member.
Cylindrical surface water storage floating member or cylindrical surface water storage floating member containing surface water inserted from the bottom,
A working fluid evaporator built in the cylindrical surface water storage float member or the cylindrical surface water storage float member, and the like.
A first airtight member incorporating a first connecting pipe connecting the working gas space of the large cylindrical cylindrical airtight space and the condenser,
A plurality of second units arranged at equal intervals in a cylindrical shape having a tip nozzle for injecting into the rotary blade and incorporating a second connecting pipe for connecting the working gas space of the large cylindrical cylindrical airtight space and the evaporator. Airtight member and
A working fluid connecting tube for connecting the evaporator and the condenser is provided.
The working gas that has passed through the first connecting tube that connects the working gas space of the large cylinder cylindrical airtight space and the condenser is in the large cylinder cylindrical deep water storage tank or in the cylindrical surface water storage floating body member. The condenser becomes a liquid working fluid, and the liquid working fluid passes through an evaporator built in the tubular surface water storage floating body member via the working fluid connecting pipe and becomes a gas working fluid. (Ii) Deep water characterized by injecting gas into the rotary blades of the large inner rotating member having a fixed angle at equal intervals via a tip nozzle provided in the connecting pipe to rotate the large inner rotating member to generate power. Temperature difference power generator. Working fluid, a condenser that passes through deep sea water,
An evaporator that passes through the surface water of the working fluid,
A large cylindrical cylindrical deep water storage tank with a large inner and outer diameter having an upper air layer, an upper air outlet for discharging air from the upper air layer, and a water discharge opening on the water surface at one end, or an upper part. A large cylindrical outer cylinder deep layer composed of a cylindrical deep water storage floating body member having an air layer, an upper air discharge port for discharging air from the upper air layer, and a water discharge opening on the water surface at one end. A deep layer is provided at the lower end of the large cylinder cylindrical deep water storage tank provided with the water storage floating member group, or at the lower end of the cylindrical deep water storage floating member of the large cylinder cylindrical outer shape cylindrical deep water storage floating member group. A deep water intake structure having a riser tube with a water intake opening, and a cylindrical deep water storage float member inside the large cylinder cylindrical deep water storage tank or the large cylinder cylindrical outer shape cylindrical deep water storage float member group. When the water surface inside the large cylinder is the same as the water surface outside the large cylinder cylindrical deep water storage tank or the outside of the cylindrical deep water storage floating member, the specific gravity that closes the water discharge opening is greater than that of water. The large-sized cylindrical cylindrical deep-layer water is provided with a small cylindrical internal penetrating member, and the air in the upper air layer is exhausted by natural energy means in the large-sized cylindrical deep-layer water storage tank or the cylindrical deep-layer water storage floating member. Inside the cylinder by moving the water surface inside the storage tank or inside the cylindrical deep water storage floating member to above the water surface outside the large cylinder cylindrical deep water storage tank or outside the cylindrical deep water storage floating member. The penetrating member is moved to the upper part of the large cylinder cylindrical deep water storage tank or the upper part of the cylindrical deep water storage floating member, and the large cylinder cylindrical deep water storage tank or the cylindrical deep layer is moved from the water discharge opening. A large tubular cylindrical deep water storage floating member that discharges deep water stored in the water storage floating member to the outside, or a group of the large cylindrical outer cylindrical deep water storage floating member members.
Surface water inserted from the bottom and a tubular surface water storage float member or a cylindrical surface water storage float member containing the evaporator,
The large cylinder cylindrical outer shape cylindrical deep water storage float member group in which a plurality of the cylindrical deep water storage float members and the cylindrical surface water storage float members are alternately arranged in a cylindrical shape,
A large cylindrical airtight space with a large inner and outer diameter that contains the working fluid gas,
A rotating body structure parallel to the sea surface and provided with a large inner rotating member having rotating blades with fixed angles at equal intervals to rotate by the flow of working gas, which is built in the large cylindrical cylindrical airtight space.
A power generation device in which magnets and coils interlocked by the rotation of the large inner rotating member and interlocking with gears are arranged to generate electricity as known by electromagnetic induction.
The large cylinder cylindrical outer shape cylindrical deep sea water storage floating body member group arranged in the lower part of the large cylinder cylindrical airtight space,
A plurality of first airtight members including a first connecting tube for connecting the condenser built in the large cylindrical cylindrical airtight space and the plurality of cylindrical deep sea water storage floating members, and a plurality of first airtight members.
A plurality of second airtight members having a tip nozzle for injecting the rotary blade and incorporating a second connecting pipe for connecting the large cylindrical airtight space and the evaporator.
A plurality of cylindrical deep sea water storage floating members arranged alternately in a cylindrical shape and a plurality of working fluid connecting pipes for connecting the condenser built in the cylindrical surface water storage floating member and the adjacent evaporator. Equipped with a heat insulating barrier coupling member,
A plurality of the working gases that have passed through the plurality of first connecting pipes connecting the large-sized cylindrical cylindrical airtight space and the condenser are contained in the cylindrical deep water storage tank or the cylindrical deep water storage floating body member. The condenser becomes a working fluid of a liquid, and the working fluid of the liquid passes through a plurality of the evaporators built in the cylindrical surface water storage floating body member through the working fluid connecting pipe and the working fluid of a gas. Then, through the tip nozzles provided in the plurality of second connecting pipes, the large inner rotating member is injected into the rotary blade having a fixed angle at equal intervals, and the large inner rotating member is rotated to generate power. A featured deep water temperature difference power generator.