CN104094885A

CN104094885A - High-efficiency and low-carbon aquaculture system of penaeus vanmamei

Info

Publication number: CN104094885A
Application number: CN201410374232.3A
Authority: CN
Inventors: 刘兴国; 曾宪磊; 顾兆俊; 朱浩; 徐皓
Original assignee: Fishery Machinery and Instrument Research Institute of CAFS
Current assignee: Fishery Machinery and Instrument Research Institute of CAFS
Priority date: 2014-07-31
Filing date: 2014-07-31
Publication date: 2014-10-15
Anticipated expiration: 2034-07-31
Also published as: CN104094885B

Abstract

The invention relates to a high-efficiency and low-carbon aquaculture system of penaeus vanmamei, and belongs to the field of aquaculture. The high-efficiency and low-carbon aquaculture system of penaeus vanmamei comprises an aquaculture pond, a facility water treatment pond and a microorganism water treatment pond, wherein the facility water treatment pond and the microorganism water treatment pond are respectively arranged in parallel at the left and right of the aquaculture pond and communicated with the aquaculture pond; a sunlight greenhouse equipped with an arch-shaped slope surface covers the aquaculture pond; two sets of water circulating filtering systems are respectively formed between the facility water treatment pond, the aquaculture pond and the microorganism water treatment pond. According to the high-efficiency and low-carbon aquaculture system of penaeus vanmamei, the whole device is simple in structure, the operation is conveniently carried out, and a high-efficiency facility system is brought for aquaculture of penaeus vanmamei; in addition, the aquaculture cycle is prolonged, the aquaculture effect is improved, the influence of outside on the aquaculture environment is prevented; the quality of water for aquaculture is ensured through the water circulating purifying systems, and thereby the water resource can be saved, and the aquaculture pollution is also reduced; bait is cultured through waste, and thus the amount of fed feed can be effectively decreased.

Description

A kind of high-efficiency low-carbon culture of Penaeus vannamei system

Technical field

The present invention relates to aquaculture field, particularly a kind of high-efficiency low-carbon culture of Penaeus vannamei system.

Background technology

In the alive boundary of Penaeus Vannmei shrimp culture industry, occupy critical positions, one of three large shrimps that world today's cultured output is the highest, there is fast growth, premunition waits by force clear superiority, Penaeus Vannmei was introduced after China by South America in later 1980s, rapidly, within 2013, cultured output reaches 700,000 tons, becomes the main economic shrimp culture kind of China in cultivation development at home.Penaeus Vannmei belongs to temperature, tropical shrimps, higher to water quality requirement, can adopt master to support, raise together with, overlap the different aquaculture models such as foster on aquaculture model, and breeding facility mainly contains high-order pond, greenhouse, pond etc.Because breeding way is simple, in recent years, along with improving constantly of cultured output, breeding environment goes from bad to worse, and the farming disease harms constantly occurs, and has seriously restricted the development of culture of Penaeus vannamei industry.Because Penaeus Vannmei is high to temperature, water quality requirement, can only cultivate every year one batch of shrimp under northern area general condition, productivity effect is not high simultaneously.In order to improve culture efficiency, aspect breeding facility, carry out the exploration of various ways both at home and abroad, research and develop the modes such as cultivation, racetrack cultivation, high-elevation breeding pond, green house cultivation stage by stage, solve some problems.But lack for the intensive high-efficiency low-carbon aquaculture model system in the area such as suburb, city and the north always.

Summary of the invention

The present invention is directed to prior art above shortcomings, a kind of high-efficiency low-carbon culture of Penaeus vannamei system is provided, easy enforcement easy and simple to handle, extends the culture-cycle, and water-saving and emission-reducing improves Substance Transformation efficiency, increases output.

The present invention is achieved by the following technical solutions:

A kind of high-efficiency low-carbon culture of Penaeus vannamei system, comprises culturing pool, the facility water treating pond and the microorganism water treating pond that are parallel to respectively culturing pool left and right and communicate with culturing pool, and culturing pool top covers the sunlight temperature canopy of arch;

In the middle of the bottom of described culturing pool, be provided with Ji Wupaiwukou, be covered with and block shrimp graticule mesh on described Ji Wupaiwukou, Ji Wupaiwukou communicates with facility water treating pond and microorganism water treating pond respectively by interior blow-off pipe;

Described facility water treating pond is followed successively by the dirty pond of connected collection, sedimentation basin, the first biochemical filter tank and the second biochemical filter tank from front to back, the front end in the dirty pond of described collection communicates with interior blow-off pipe, collect the outer blow-off pipe being provided with at the bottom of the pond in dirty pond with exterior, the left and right sides in described sedimentation basin, the first biochemical filter tank and the second biochemical filter tank is equipped with the curb being attached thereto; Partition wall between the curb in the dirty pond of described collection and sedimentation basin left side is provided with overflow pipe, and the partition wall bottom between partition wall bottom and described the second biochemical filter tank and the curb in its left side between the partition wall bottom between described sedimentation basin and the curb in its left side, the curb on described the first He Qi right side, biochemical filter tank is respectively equipped with row's water inlet pipe; On partition wall on partition wall on partition wall between described sedimentation basin and the curb on its right side, between the curb in described the first biochemical filter tank and its left side and between the curb on described the second He Qi right side, biochemical filter tank, be respectively equipped with row's overflow pipe; On partition wall on partition wall between the curb on the curb on described sedimentation basin right side and the first right side, biochemical filter tank and between the curb in described the first left side, biochemical filter tank and the curb in the second left side, biochemical filter tank, be respectively equipped with overflow pipe, described overflow pipe is positioned at water level, described water inlet pipe is positioned at lower water level, between the curb on described the second right side, biochemical filter tank and culturing pool, communicates by return pipe;

Described microorganism water treating pond is the dirty sedimentation basin of connected collection, biological flocculation culture pond, collecting basin and return pipe composition side by side successively from front to back; The dirty sedimentation basin of described collection communicates with interior blow-off pipe, collects the outer blow-off pipe being provided with at the bottom of the pond of dirty sedimentation basin with exterior, and the partition wall between the dirty sedimentation basin of described collection and biological flocculation culture pond was provided with the mouth of a river; Between described biological flocculation culture pond and collecting basin, communicate by overflow pipe; Between described collecting basin and culturing pool, communicate by return pipe.

Wherein, the outer blow-off pipe of Di Zi rear end, the pond forward end in the dirty pond of described collection is downward-sloping, collects in dirty pond solid-liquid separating machine is housed.

Wherein, in described the first biochemical filter tank and the second biochemical filter tank, the 3 D elastic filler that specific surface area is 120m2/m3 is housed.

Wherein, in described biological flocculation culture pond, be provided with deflector along fore-and-aft direction, between the front and back pool wall of described deflector and biological flocculation culture pond, leave interval, between a pool wall in the left and right sides pool wall of the rearward end of deflector and biological flocculation culture pond, be provided with the hydraulic turbine, described biological flocculation culture pond has biological flocculation flora by inoculation and adds carbon source and cultivate enriched biological floc sedimentation.

Wherein, at the bottom of the pond lower than culturing pool at the bottom of the pond of described facility water treating pond, the right pool wall in the dirty pond of described collection is provided with the draining intubate being connected with interior blow-off pipe, and described draining intubate is positioned at the front lower place of right pool wall, at the bottom of the pond of the mouth of pipe higher than the dirty pond of collection.

Wherein, at the bottom of the pond higher than culturing pool at the bottom of the pond of described microorganism water treating pond, at the bottom of the pond of the dirty sedimentation basin of described collection, be provided with the draining intubate being connected with interior blow-off pipe, at the bottom of the pond of the mouth of pipe of described draining intubate higher than the dirty sedimentation basin of collection.

Wherein, the high-order pond that described culturing pool is square fillet, is downward-sloping to collection dirt, discharging pollution mouth along surrounding at the bottom of the pond in described high-order pond, and gradient is 1%, the HDPE plastic cloth that at the bottom of the surrounding in described high-order pond and pond, equal cladding thickness is 0.5mm.

Wherein, in described culturing pool, be provided with two water-mill oxygen increasing machines, two combined artificial pasture and water floating beds and a surge machine; Described two water-mill oxygen increasing machines and two combined artificial pasture and water floating beds distribute along the Central Symmetry of culturing pool respectively; Described surge machine be positioned at Ji Wupaiwukou directly over.

Wherein, on former and later two facades of described sunlight temperature canopy, be respectively equipped with import and export, described two import and export, toward culturing pool third side to extending respectively a service bridge, are equipped with feeder on described service bridge.

Beneficial effect of the present invention is:

1) for culture of Penaeus vannamei provides a good breeding environment, be both incubated, extended the culture-cycle, realized annual 2～3 batches of cultivation, prevented again outer bound pair breeding environment impact;

2) water circulation cleaning system has ensured cultivate water, and saving water resource reduces and pollutes;

3) utilize discarded object to cultivate biological flocculation bait, purified water quality, reduced again feed input;

4) single unit system is simple in structure, is convenient to implementation and operation.

Brief description of the drawings

Fig. 1 is plan structure schematic diagram of the present invention;

Fig. 2 is facade sectional structure schematic diagram of the present invention;

Fig. 3 is the structure for amplifying schematic diagram of facility water treating pond in Fig. 1;

Fig. 4 is the structure for amplifying schematic diagram of microorganism water treating pond in Fig. 1.

Embodiment

Below in conjunction with specific embodiments and the drawings, further set forth the present invention.

As shown in Figures 1 to 4, a kind of high-efficiency low-carbon culture of Penaeus vannamei system, comprises culturing pool 1, the facility water treating pond 2 and the microorganism water treating pond 3 that are parallel to respectively culturing pool 1 left and right and communicate with culturing pool 1; Form thus a water circulation processing system; Culturing pool 1 top covers the sunlight temperature canopy 4 of arch; Form thus a high-efficiency low-carbon culture of Penaeus vannamei system.

Described culturing pool 1 is preferably the high-order pond of square fillet, area between 2500-4000 square meter, dark 2.0 meters of pond; In the middle of the bottom of culturing pool 1, be provided with collection dirt, discharging pollution mouth 11, at the bottom of pond, be downward-sloping to collection dirt, discharging pollution mouth 11 along surrounding, gradient is 1～2%, directly over collection dirt, discharging pollution mouth 11, the surge machine 13 that power is greater than 0.75kW is housed, collection dirt, discharging pollution mouth 11 communicates with facility water treating pond 2 and microorganism water treating pond 3 respectively by interior blow-off pipe 14; Sewage and suspension that this structure is conducive in culturing pool 1 are concentrated flow direction collection dirt, discharging pollution mouth 11, then flow into facility water treating pond 2 and microorganism water treating pond 3 through interior blow-off pipe 14, are convenient to the collection dirt, discharging pollution of culturing pool 1.

On described collection dirt, discharging pollution mouth 11, be covered with and block shrimp graticule mesh 12, block shrimp graticule mesh 12 and be preferably demountable structure, mesh can arbitrarily be changed with the size of shrimp, effectively prevents that shrimp from discharging the situation of culturing pool 1 via collection dirt, discharging pollution mouth 11 with sewage.

The HDPE plastic cloth that is all 0.5mm with thickness at the bottom of the surrounding of described culturing pool 1 and pond, plays the effect of water and soil isolation.

Facility water treating pond 2 is followed successively by the dirty pond 21 of connected collection, sedimentation basin 22, the first biochemical filter tank 23 and the second biochemical filter tank 24 from front to back, the front end that collects dirty pond 21 communicates with interior blow-off pipe 14, collect the outer blow-off pipe 5 being provided with at the bottom of the pond in dirty pond 21 with exterior, the left and right sides in sedimentation basin 22, the first biochemical filter tank 23 and the second biochemical filter tank 24 is equipped with the curb 27 being attached thereto, and the partition wall collecting between dirty pond 21 and the curb 27 in sedimentation basin 22 left sides is provided with overflow pipe 25; Partition wall bottom between partition wall bottom and the second biochemical filter tank 24 and the curb 27 in its left side between partition wall bottom between the curb 27 in sedimentation basin 22 and its left side, the curb 27 on the first 23He Qi right side, biochemical filter tank is respectively equipped with row's water inlet pipe 26; On partition wall on partition wall on partition wall between the curb 27 on sedimentation basin 22 and its right side, between the curb 27 in the first biochemical filter tank 23 and its left side and between the curb 27 on the second 24He Qi right side, biochemical filter tank, be respectively equipped with row's overflow pipe 25; On partition wall on partition wall between the curb 27 on the curb 27 on sedimentation basin 22 right sides and 23 right sides, the first biochemical filter tank and between the curb 27 in 23 left sides, the first biochemical filter tank and the curb 27 in 24 left sides, the second biochemical filter tank, be respectively equipped with overflow pipe 25; Overflow pipe 25 is positioned at water level, and water inlet pipe 26 is positioned at lower water level; Between the curb 27 in the second 24 right sides, biochemical filter tank and culturing pool 1, communicate by return pipe 6; First sewage in culturing pool 1 flow into the dirty pond 21 of collection and remove the suspension in sewage, and isolated heavy deposit is discharged through outer blow-off pipe 5; Water after preliminary treatment is by the transition of each curb 27, entering successively sedimentation basin 22, the first biochemical filter tank 23 and the second biochemical filter tank 24 filters, water (flow) direction is S-shaped, and final gained clear water flows in the curb 27 on 24 right sides, the second biochemical filter tank, then flow back in culturing pool 1 through return pipe 6; The wherein two ends of the return pipe 6 rear pool wall of curb 27 and the rear pool wall of culturing pool 1 on 24 right sides, close the second biochemical filter tank respectively, and be preferably mid water levels place.

Described microorganism water treating pond 3 is the dirty sedimentation basin 31 of connected collection, biological flocculation culture pond 32 and collecting basin 33 side by side successively from front to back; Collect dirty sedimentation basin 31 and communicate with interior blow-off pipe 14, collect the outer blow-off pipe 5 being provided with at the bottom of the pond of dirty sedimentation basin 31 with exterior; Biological flocculation culture pond 32 is interior is provided with deflector 321 along fore-and-aft direction, between the front and back pool wall of deflector 321 and biological flocculation culture pond 32, leave interval, between a pool wall in the left and right sides pool wall of the rearward end of deflector 321 and biological flocculation culture pond 32, be provided with the hydraulic turbine 322, biological flocculation culture pond 32 has biological flocculation flora by inoculation and adds carbon source and cultivate enriched biological floc sedimentation; The partition wall collecting between dirty sedimentation basin 31 and biological flocculation culture pond 32 was provided with the mouth of a river 34; Between biological flocculation culture pond 32 and collecting basin 33, communicate by overflow pipe 35; Between collecting basin 33 and culturing pool 1, throwing in pipe 7 by bait communicates; First sewage in culturing pool 1 flow into sedimentation basin 21 and remove the suspension in sewage, flow into biological flocculation culture pond 32 through the mouth of a river 34 again, the hydraulic turbine 322 wherein makes the water in biological flocculation culture pond 32 make shuttling movement along deflector 321, in biological flocculation culture pond 32 treated waters with supplying the edible bait of shrimp, these water with bait flow in collecting basin 33 through overflow pipe 35, flow back in culturing pool 1 finally by return pipe 6, wherein, biological flocculation bait also together flows in culturing pool 1 with water.

The outer blow-off pipe 5 of Di Zi rear end, the pond forward end in the dirty pond 21 of described collection is downward-sloping, collects in dirty pond 21 solid-liquid separating machine 211 is housed; Sewage is first done Separation of Solid and Liquid processing through solid-liquid separating machine 211, can fast the bulky grain thing in sewage be removed.

At the bottom of pond lower than culturing pool 1 at the bottom of the pond of described facility water treating pond 2, the right pool wall that collects dirty pond 21 is provided with the draining intubate 7 being connected with interior blow-off pipe 14, and draining intubate 7 is positioned at the front lower place of right pool wall, at the bottom of the pond of the mouth of pipe higher than the dirty pond 21 of collection; This structure contributes to the bulky grain in sewage to enter the dirty pond 21 of collection, is conducive to the blowdown in culturing pool 1.

At the bottom of pond higher than culturing pool 1 at the bottom of the pond of described microorganism water treating pond 3, be provided with the draining intubate 7 being connected with interior blow-off pipe 14 at the bottom of collecting the pond of dirty sedimentation basin 31, at the bottom of the pond of the mouth of pipe of draining intubate 7 higher than the dirty sedimentation basin 31 of collection.

In described culturing pool 1, be also provided with 17, two combined artificial pasture and water floating beds 16 of two water-mill oxygen increasing machines and a surge machine 13; Two water-mill oxygen increasing machines 17 and two combined artificial pasture and water floating beds 16 distribute along the Central Symmetry of culturing pool 1 respectively; Water-mill oxygen increasing machine 17 is preferably power 3kW Multi-impeller type, and two water-mill oxygen increasing machines 17 move simultaneously and can make current in culturing pool 1 exceed 6cm/s, is beneficial to oxygenation and forms annular water flow; Combined artificial pasture and water floating bed 16 is for purifying regulation and control water quality, and as the habitat of shrimp.

On former and later two facades of described sunlight temperature canopy 4, be respectively equipped with import and export, two import and export, toward culturing pool 1 third side to extending respectively a service bridge 15, are equipped with feeder on service bridge 15, and automation is thrown something and fed and effectively reduced hand labor.

Described sunlight temperature canopy 4 thing two sides are slope structure, are 0.5m apart from ground level, and intermediate altitude is 3m; Both sides Polypropylence Sheet can be rolled up exhibition by shutter; Sunlight temperature canopy 4 south and north flanks are facade structures, and Polypropylence Sheet is demountable structure, to ensure ventilation, temperature control and action need.

In the present invention, culturing pool 1 and facility water treating pond 2 form a water circulation filtering system, good purification, and discarded object trans-utilization rate is high, has greatly saved water resource, has reduced disposal of pollutants; Culturing pool 1 and microorganism water treating pond 3 form another water circulation filtering system, utilize biological flocculation to form simultaneously and can supply the edible bait of shrimp, play and purify water, and improve material use efficiency, maintain the effect that water environment is stable.

Claims

1. a high-efficiency low-carbon culture of Penaeus vannamei system, it is characterized in that: comprise culturing pool (1), the facility water treating pond (2) and the microorganism water treating pond (3) that are parallel to respectively culturing pool (1) left and right and communicate with culturing pool (1), culturing pool (1) top covers the sunlight temperature canopy (4) of arch;

The bottom center of described culturing pool (1) is provided with Ji Wupaiwukou (11), on described Ji Wupaiwukou (11), be covered with and block shrimp graticule mesh (12), Ji Wupaiwukou (11) communicates with facility water treating pond (2) and microorganism water treating pond (3) respectively by interior blow-off pipe (14);

Described facility water treating pond (2) is followed successively by the dirty pond of connected collection (21), sedimentation basin (22), the first biochemical filter tank (23) and the second biochemical filter tank (24) from front to back; The front end in the dirty pond of described collection (21) communicates with interior blow-off pipe (14), collects the outer blow-off pipe (5) being provided with at the bottom of the pond of dirty pond (21) with exterior; The left and right sides in described sedimentation basin (22), the first biochemical filter tank (23) and the second biochemical filter tank (24) is equipped with the curb (27) being attached thereto; Partition wall between the curb (27) in the dirty pond of described collection (21) and sedimentation basin (22) left side is provided with overflow pipe (25); Partition wall bottom between partition wall bottom between partition wall bottom between the curb (27) in described sedimentation basin (22) and its left side, described the first biochemical filter tank (23) and the curb (27) on its right side and described the second biochemical filter tank (24) and the curb (27) in its left side is respectively equipped with row's water inlet pipe (26); On partition wall on partition wall on partition wall between the curb (27) on described sedimentation basin (22) and its right side, between the curb (27) in described the first biochemical filter tank (23) and its left side and between described the second biochemical filter tank (24) and the curb (27) on its right side, be respectively equipped with row's overflow pipe (25); On partition wall on partition wall between the curb (27) on the curb (27) on described sedimentation basin (22) right side and the first right side, biochemical filter tank (23) and between the curb (27) in described the first left side, biochemical filter tank (23) and the curb (27) in left side, the second biochemical filter tank (24), be respectively equipped with overflow pipe (25); Described overflow pipe (25) is positioned at water level; Described water inlet pipe (26) is positioned at lower water level; Between the curb (27) on described the second right side, biochemical filter tank (24) and culturing pool (1), communicate by return pipe (6);

Described microorganism water treating pond (3) is that dirty sedimentation basin (31), biological flocculation culture pond (32) of connected collection, collecting basin (33) and return pipe (6) form side by side successively from front to back; The dirty sedimentation basin of described collection (31) communicates with interior blow-off pipe (14), collect the outer blow-off pipe (5) being provided with at the bottom of the pond of dirty sedimentation basin (31) with exterior, the partition wall between the dirty sedimentation basin of described collection (31) and biological flocculation culture pond (32) was provided with the mouth of a river (34); Between described biological flocculation culture pond (32) and collecting basin (33), communicate by overflow pipe (35); Between described collecting basin (33) and culturing pool (1), communicate by return pipe (6).

2. a kind of high-efficiency low-carbon culture of Penaeus vannamei system according to claim 1, it is characterized in that: the outer blow-off pipe (5) of Di Zi rear end, the pond forward end in the dirty pond of described collection (21) is downward-sloping, collect solid-liquid separating machine (211) is housed in dirty pond (21).

3. a kind of high-efficiency low-carbon culture of Penaeus vannamei system according to claim 1, is characterized in that: in described the first biochemical filter tank (23) and the second biochemical filter tank (24), the 3 D elastic filler that specific surface area is 120m2/m3 is housed.

4. a kind of high-efficiency low-carbon culture of Penaeus vannamei system according to claim 1, it is characterized in that: in described biological flocculation culture pond (32), be provided with deflector (321) along fore-and-aft direction, between the front and back pool wall of described deflector (321) and biological flocculation culture pond (32), leave interval, between a pool wall in the left and right sides pool wall of the rearward end of deflector (321) and biological flocculation culture pond (32), be provided with the hydraulic turbine (322), described biological flocculation culture pond (32) has biological flocculation flora by inoculation and adds carbon source and cultivate enriched biological floc sedimentation.

5. a kind of high-efficiency low-carbon culture of Penaeus vannamei system according to claim 1, it is characterized in that: at the bottom of the pond lower than culturing pool (1) at the bottom of the pond of described facility water treating pond (2), the right pool wall in the dirty pond of described collection (21) is provided with the draining intubate (7) being connected with interior blow-off pipe (14), described draining intubate (7) is positioned at the front lower place of right pool wall, at the bottom of the pond of the mouth of pipe higher than the dirty pond of collection (21).

6. a kind of high-efficiency low-carbon culture of Penaeus vannamei system according to claim 1, it is characterized in that: at the bottom of the pond higher than culturing pool (1) at the bottom of the pond of described microorganism water treating pond (3), at the bottom of the pond of the dirty sedimentation basin of described collection (31), be provided with the draining intubate (7) being connected with interior blow-off pipe (14), at the bottom of the pond of the mouth of pipe of described draining intubate (7) higher than the dirty sedimentation basin of collection (31).

7. a kind of high-efficiency low-carbon culture of Penaeus vannamei system according to claim 1, it is characterized in that: the high-order pond that described culturing pool (1) is square fillet, at the bottom of the pond in described high-order pond, be that (11) are downward-sloping along surrounding to Ji Wupaiwukou, gradient is 1%, the HDPE plastic cloth that at the bottom of the surrounding in described high-order pond and pond, equal cladding thickness is 0.5mm.

8. a kind of high-efficiency low-carbon culture of Penaeus vannamei system according to claim 1, it is characterized in that: in described culturing pool (1), be provided with two water-mill oxygen increasing machines (17), two combined artificial pasture and water floating beds (16) and a surge machine (13); Described two water-mill oxygen increasing machines (17) and two combined artificial pasture and water floating beds (16) distribute along the Central Symmetry of culturing pool (1) respectively; Described surge machine (13) be positioned at Ji Wupaiwukou (11) directly over.

9. a kind of high-efficiency low-carbon culture of Penaeus vannamei system according to claim 1, it is characterized in that: on former and later two facades of described sunlight temperature canopy (4), be respectively equipped with import and export, described two import and export are toward culturing pool (1) third side to extending respectively a service bridge (15), and described service bridge is equipped with feeder on (15).