CN111907654A

CN111907654A - Integrated development platform of TLP floating fan and aquaculture net cage

Info

Publication number: CN111907654A
Application number: CN202010830444.3A
Authority: CN
Inventors: 李晔; 毋晓妮; 夏英凯; 章丽骏; 林志良
Original assignee: Shanghai Jiaotong University
Current assignee: Shanghai Jiaotong University
Priority date: 2020-08-18
Filing date: 2020-08-18
Publication date: 2020-11-10

Abstract

The invention provides an integrated development platform of a TLP floating fan and a culture net cage, which comprises a TLP floating fan body, an upper fan, the culture net cage, a net cage carrying device, a tension type mooring system and an anchoring foundation, wherein the upper fan is arranged above the TLP floating fan body; the TLP floating type fan main body comprises a circumferential main buoy, a vertical buoy, a bottom secondary buoy, a fan tower cylinder and a support piece; a circumferential main buoy is fixed on each vertical buoy; a buoyancy tank, a ballast tank and a control system tank are arranged in the circumferential main buoy; a control end is arranged in the control system cabin; the outside of the vertical float is provided with a vertical slide rail, and the aquaculture net cage can be movably fixed on the vertical slide rail along the vertical slide rail through the net cage carrying device and the driving device. The integrated development platform for the TLP floating fan and the aquaculture net cage realizes effective combination of the floating fan and the fishery net cage, and effectively solves the problems of shortage of deep and open sea fishery aquaculture equipment and low comprehensive resource acquisition application rate of the floating offshore fan in the future.

Description

Integrated development platform of TLP floating fan and aquaculture net cage

Technical Field

The invention relates to the technical field of marine new energy fishery breeding equipment, in particular to an integrated development platform of a TLP floating fan and a breeding net cage.

Background

With the wide concern of the international society on ocean resources, particularly renewable energy, the strengthening of the comprehensive development of the abundant wind energy and fishery resources in the ocean has become a main concern of the technical development of ocean development equipment.

The development of onshore and offshore wind power resources gradually reaches a certain scale, and the fixed fan technology widely adopted in the area is gradually mature, so that the main challenge of developing the wind power resources in the deep and open sea area and improving the utilization rate of equipment effectively and economically becomes the current deep and open sea development equipment. When the water depth is more than 50m, the floating type fan becomes important equipment for wind power development. The floating type fan needs to have good wind wave resistance and severe sea condition resistance besides meeting the requirement of high-efficiency power generation performance; meanwhile, because the cost is high, how to combine the characteristics of good water areas in deep and distant sea areas to comprehensively develop other ocean energy and fishery energy will greatly improve the utilization rate of the large-scale equipment and provide good economic benefits. However, the existing floating wind power equipment only considers the wind power development function, lacks the function of multipurpose resource development, has low economic benefit and urgently needs to develop the comprehensive fishery breeding function. The development of deep sea fishery breeding equipment is also a main concern of development of fishery resources in the year. Compared with the water pollution and the easy interference of offshore water areas, the deep and distant sea water areas provide good marine ranching conditions. However, the method also needs to face severe sea conditions, so that proper wind wave resistant fishery development equipment is needed for deep and far sea fishery resource development.

Therefore, the respective advantages of the TLP offshore wind turbine and the fishery net cage are combined, and the problems of low utilization rate of the offshore floating wind turbine and lack of deep and open sea fishery culture equipment can be effectively solved; the stability and the safety of the TLP floating fan are improved, comprehensive equipment capable of improving the utilization rate and the economic benefit of deep and far sea equipment is developed, and the intelligentization and the maximization of deep sea fishery cultivation are realized, so that the method has important significance for the development of new deep sea energy and the acquisition of fishery resources in the future.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides an integrated development platform of a TLP floating fan and a aquaculture net cage, which realizes the effective combination of the floating fan and the aquaculture net cage by connecting the aquaculture net cage to the periphery of the TLP floating fan, and effectively solves the problems of shortage of deep and far sea aquaculture equipment and low comprehensive resource acquisition application rate of future floating offshore fans. Meanwhile, the integrated development platform of the TLP floating fan and the culture net cage increases the safety and the structural reliability of the floating wind power equipment, and is suitable for various water depths; the carried net cage has simple structure, can adjust the position according to the sea condition, is easy to construct and is convenient for marine installation; the utilization rate of deep open sea equipment and the economic benefit of the system are improved; the intellectualization and the large-scale of the deep-sea fishery breeding are realized.

In order to achieve the above object, the present invention provides an integrated development platform of a TLP floating fan and aquaculture cages, comprising a TLP floating fan body, at least one upper fan, a plurality of aquaculture cages, a plurality of cage-carrying devices, a tension mooring system and at least one anchoring foundation; the TLP floating fan body comprises a plurality of circumferential main pontoons, a plurality of vertical pontoons, a plurality of bottom secondary pontoons, at least one fan tower, and a plurality of struts; the upper fan, the fan tower drum, the supporting piece and the vertical buoy are sequentially connected; each vertical float bowl is fixedly provided with one circumferential main float bowl; at least one floating cabin, at least one ballast cabin and a control system cabin are arranged in the circumferential main buoy; a control end is arranged in the control system cabin, and the upper fan is electrically connected with the control end; a vertical slide rail is arranged outside the vertical float bowl and is arranged along the vertical direction, and the aquaculture net cage can be movably fixed on the vertical slide rail along the vertical slide rail through the net cage carrying device and a driving device; the driving device is connected with the control end; the bottom secondary floating cylinders are connected to the bottoms of the two adjacent vertical floating cylinders; the bottom of the bottom secondary buoy is provided with a plurality of anchoring points, and the tensioning type mooring system is connected between the anchoring points and the anchoring foundation.

Preferably, the wind power generation device comprises four vertical buoys, four cylindrical circumferential main buoys, four cylindrical bottom secondary buoys and a fan tower; the diameter of the circumferential main buoy is larger than that of the bottom secondary buoy; the vertical buoys are uniformly distributed on the periphery of the fan tower drum along the circumferential direction.

Preferably, the aquaculture net cage is a polygonal box-type net cage, and the aquaculture net cage comprises at least one peripheral frame and a netting arranged in the peripheral frame.

Preferably, the peripheral frame of each aquaculture net cage is connected with the net cage carrying devices corresponding to the two adjacent vertical buoys.

Preferably, the aquaculture net cage comprises 6-8 peripheral frames, and the peripheral frames are cylindrical.

Preferably, the peripheral frame and the net cage carrying device form a plurality of connection points which are matched with each other, and the peripheral frame and the net cage carrying device are connected through the connection points.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

1. provides an integrated device for comprehensively developing wind energy and fishery resources in deep and distant sea;

2. the safety and the structural reliability of the TLP floating fan are improved, and the TLP floating fan is suitable for various water depths;

3. the carried net cage has simple structure, can adjust the position according to the sea condition, is easy to construct and is convenient for marine installation;

4. the utilization rate of deep open sea equipment and the economic benefit of the system are improved;

5. the intellectualization and the large-scale of the deep-sea fishery breeding are realized.

Drawings

Fig. 1 is a schematic structural diagram of an integrated development platform of a TLP floating fan and a aquaculture cage according to an embodiment of the invention;

fig. 2 is a top view of the integrated development platform of the TLP floating blower and the aquaculture cage according to the embodiment of the invention.

Detailed Description

The following description of the preferred embodiments of the present invention, with reference to the accompanying drawings 1 and 2, will provide a better understanding of the function and features of the invention.

Referring to fig. 1 and 2, an integrated development platform for a TLP floating blower and aquaculture cages according to an embodiment of the invention includes a TLP floating blower main body 1, at least one upper blower 2, a plurality of aquaculture cages 3, a plurality of cage carrying devices 4, a tension mooring system 5, and at least one anchoring foundation 6; the TLP floating wind turbine body 1 comprises a plurality of circumferential main pontoons 11, a plurality of vertical pontoons 12, a plurality of bottom secondary pontoons 13, at least one wind turbine tower 14 and a plurality of struts 15; the upper fan 2, the fan tower 14, the supporting piece 15 and the vertical buoy 12 are connected in sequence; a circumferential main buoy 11 is fixed on each vertical buoy 12; at least one buoyancy tank 16, at least one ballast tank 17 and a control system tank 18 are arranged in the circumferential main buoy 11; a control end is arranged in the control system cabin 18, and the upper fan 2 is electrically connected with the control end; a vertical slide rail 121 is arranged outside the vertical buoy 12, the vertical slide rail 121 is arranged along the vertical direction, and the aquaculture net cage 3 is movably fixed on the vertical slide rail 121 along the vertical slide rail 121 through the net cage carrying device 4 and a driving device; the driving device is connected with the control end; the bottom secondary pontoon 13 is connected to the bottoms of two adjacent vertical pontoons 12; the bottom of the bottom secondary buoy 13 is provided with a plurality of mooring points 131 and the taut mooring system 5 is connected between the mooring points 131 and the anchoring foundation 6.

Through the cooperation of the control end, the driving device, the net cage carrying device 4 and the vertical slide rail 121, the position of the aquaculture net cage 3 on the vertical slide rail 121 can be adjusted, and then the height of the aquaculture net cage 3 is adjusted. The upper fan 2 is electrically connected with the control end to provide electric power required by the overall system control of the aquaculture net cage 3, so that the intellectualization of the integrated complementary system is realized.

The device comprises four vertical buoys 12, four cylindrical circumferential main buoys 11, four cylindrical bottom secondary buoys 13 and a fan tower 14; the diameter of the circumferential main buoy 11 is larger than that of the bottom secondary buoy 13; the vertical buoys 12 are evenly distributed circumferentially around the fan tower 14.

The support member 15 is connected between the fan tower 14 and the vertical pontoons 12, and the bottom sub-pontoons 13 are connected between the bottoms of the adjacent vertical pontoons 12 and cooperate to maintain the stability and overall strength of the structure in a quadrilateral shape.

The buoyancy tank 16 and the ballast tank 17 are used for adjusting the stability and draught of the structure; the control end is used for adjusting the position of the aquaculture net cage 3 and the aquaculture equipment system.

In this embodiment, the aquaculture net cage 3 is a polygonal box-type net cage, and the aquaculture net cage 3 includes at least one peripheral frame 31 and a netting 32 disposed in the peripheral frame 31.

The peripheral frame 31 of each aquaculture net cage 3 is connected with the net cage carrying devices 4 corresponding to the two adjacent vertical buoys 12.

The aquaculture net cage 3 can vertically move along the vertical slide rail 121 through the net cage carrying device 4, and extreme storms under severe sea conditions are avoided.

In this embodiment, the aquaculture net cage 3 includes 6 to 8 peripheral frames 31, and the peripheral frames 31 are cylindrical.

The peripheral frame 31 and the cage-carrying device 4 form a plurality of connection points that are engaged with each other, and the peripheral frame 31 and the cage-carrying device 4 are connected through the connection points.

The integrated development platform of the TLP floating fan and the culture net cage provided by the embodiment of the invention comprises the following installation and construction steps:

1. the TLP floating fan body 1, the tension mooring system 5 and the anchoring base 6 are installed.

2. The aquaculture net cage 3 is installed through the net cage carrying device 4, and the position of the aquaculture net cage is adjusted through the vertical slide rail 121.

3. And debugging the control end to finish installation.

The integrated development platform of the TLP floating fan and the aquaculture net cage 3 provided by the embodiment of the invention provides integrated complementary equipment for comprehensively acquiring deep and far sea wind energy and fishery resources; the safety and the structural reliability of the floating wind power equipment are improved, and the floating wind power equipment is suitable for various water depths; the carried net cage has simple structure, can adjust the position according to the sea condition, is easy to construct and is convenient for marine installation; the utilization rate of deep open sea equipment and the economic benefit of the system are improved; the intellectualization and the large-scale of the deep-sea fishery breeding are realized. The problem of deep and open sea fishery breeding equipment lack and the problem of low comprehensive resource acquisition and application rate of future floating type offshore wind turbines is solved.

While the present invention has been described in detail and with reference to the embodiments thereof as illustrated in the accompanying drawings, it will be apparent to one skilled in the art that various changes and modifications can be made therein. Therefore, certain details of the embodiments are not to be interpreted as limiting, and the scope of the invention is to be determined by the appended claims.

Claims

1. An integrated development platform of a TLP floating fan and culture cages is characterized by comprising a TLP floating fan body, at least one upper fan, a plurality of culture cages, a plurality of cage carrying devices, a tensioning mooring system and at least one anchoring foundation; the TLP floating fan body comprises a plurality of circumferential main pontoons, a plurality of vertical pontoons, a plurality of bottom secondary pontoons, at least one fan tower, and a plurality of struts; the upper fan, the fan tower drum, the supporting piece and the vertical buoy are sequentially connected; each vertical float bowl is fixedly provided with one circumferential main float bowl; at least one floating cabin, at least one ballast cabin and a control system cabin are arranged in the circumferential main buoy; a control end is arranged in the control system cabin, and the upper fan is electrically connected with the control end; a vertical slide rail is arranged outside the vertical float bowl and is arranged along the vertical direction, and the aquaculture net cage can be movably fixed on the vertical slide rail along the vertical slide rail through the net cage carrying device and a driving device; the driving device is connected with the control end; the bottom secondary floating cylinders are connected to the bottoms of the two adjacent vertical floating cylinders; the bottom of the bottom secondary buoy is provided with a plurality of anchoring points, and the tensioning type mooring system is connected between the anchoring points and the anchoring foundation.

2. The TLP floating blower and aquaculture cage integrated development platform of claim 1, comprising four vertical pontoons, four cylindrical circumferential main pontoons, four cylindrical bottom secondary pontoons and a blower tower; the diameter of the circumferential main buoy is larger than that of the bottom secondary buoy; the vertical buoys are uniformly distributed on the periphery of the fan tower drum along the circumferential direction.

3. The TLP floating blower and aquaculture cage integrated development platform of claim 2, wherein the aquaculture cage is a polygonal box cage, and the aquaculture cage comprises at least one peripheral frame and a netting disposed in the peripheral frame.

4. The TLP floating blower and aquaculture cage integrated development platform of claim 3, wherein the peripheral frame of each aquaculture cage connects the cage-carrying devices corresponding to two adjacent vertical pontoons.

5. The TLP floating fan and aquaculture cage integrated development platform of claim 4, wherein said aquaculture cage comprises 6-8 said peripheral frames, said peripheral frames being cylindrical.

6. The TLP floating blower and aquaculture cage integrated development platform of claim 4, wherein the peripheral frame and the cage-carrying device form a plurality of connection points that are mated with each other, the peripheral frame and the cage-carrying device being connected through the connection points.