CN201733721U - Economic water-circulating aquaculture system - Google Patents

Abstract

An economical circulating water aquaculture system, the technical scheme of the utility model adopts a water tank, a sand filter, a water pump, a temperature control unit, and a biological filter, and is characterized in that the water tank adopted is a circular glass fiber reinforced plastic water tank, and multiple circular water tanks are used The FRP water tanks are connected in parallel, one of which is filled with filter sand to form a filter tank, and the rest of the circular FRP tanks are breeding tanks. The lower part of the inner cavity of the breeding tank is equipped with a grille, and there is an overflow pipe in the middle of the filter tank. The overflow pipe inlet and The outlet pipe at the bottom of the breeding pond is connected, the outlet pipe at the bottom of the circular fiberglass tank is connected to the water pump, the outlet pipe of the water pump is connected to the temperature control unit, the outlet pipe of the temperature control unit is connected to the biological filter, and the outlet pipe of the biological filter is connected to the breeding pond The water outlet pipeline at the bottom of the circular fiberglass tank, the water pump outlet pipeline, and the biological filter outlet pipeline are respectively equipped with valves, and the outlet pipeline of the temperature control unit is equipped with valves and flow meters.

Description

An economical circulating water aquaculture system

technical field

The utility model relates to a circulating aquaculture system.

Background technique

The circulating water aquaculture system refers to the physical (solid-liquid separation, foam separation, temperature control, gas-liquid mixing, etc.), chemical (ozone disinfection and oxidation, ultraviolet disinfection, ion exchange, physical and chemical adsorption, etc.), biological (various types of Nitrification / denitrification biological filter, algae / large aquatic plants, etc.) and other technical means to realize the purification and recovery of aquaculture wastewater, so that the aquaculture objects can always maintain the best physiological and ecological state under high-density aquaculture conditions, so as to achieve health It is a high-efficiency breeding device and facility that grows rapidly and maximizes the yield and quality of the unit water body without causing internal and external environmental pollution. Carrying out cleaner production and saving water are measures required by sustainable development. Seeking a stable and environmentally friendly aquaculture production model has very urgent practical significance for the sustainable development of aquaculture. The recirculating aquaculture system is considered to be one of the leading production models representing the development direction of aquaculture in the 21st century because of its advantages of water saving, land saving, and environmental friendliness. In the 1970s, under the dual pressure of environmental regulations and quality requirements, developed countries began to study relatively closed recirculating aquaculture technology to improve the environmental and economic benefits of aquaculture, and achieved certain results. Recirculating aquaculture gradually Become the leading form of farming industry in these countries. At present, most breeding enterprises adopt circulating water technology for seed breeding, and more and more seawater and freshwater closed circulation aquaculture models have been successfully practiced in various places. About more than 10% of salmon farming enterprises in Denmark are actively transforming flowing water farming into recirculating aquaculture to achieve the purpose of reducing water consumption and using filtered groundwater to reduce diseases; all turbot seed hatching and commercial fish farming in France are in The closed circulation aquaculture workshop is carried out, and the closed circulation aquaculture of salmon has also begun to carry out production practice. According to incomplete statistics, the current area of closed recirculating aquaculture in Europe is about 300,000 m ² , and it is increasing at a rapid rate. The recirculating aquaculture model in the United States, Australia, Canada and other countries is also developing at a relatively rapid scale. In the late 1970s, my country carried out research on related technologies of recirculating aquaculture in the field of freshwater fish farming. Due to the limitation of social economy and technological level, the achievements obtained lack professionalism, practicability and systematicness, and have not been promoted. In the 1980s, my country introduced more than a dozen sets of circulating water treatment equipment. Due to the lack of corresponding management, supporting technology and high energy consumption, they were all idle after being used. With the development of social economy and scientific and technological level, and the enhancement of environmental awareness, the recirculating aquaculture mode has been paid more attention, and good progress has been made in the research and development of related technologies. In order to improve the level of aquaculture technology, reduce the cost of equipment, and simplify the water treatment process, There is a need to develop an economical recirculating water aquaculture system.

Utility model content

The purpose of this utility model is to create a small-scale circulating water aquaculture system.

The technical scheme of the utility model adopts a water tank, a sand filter, a water pump, a temperature control unit, and a biological filter, and is characterized in that the water tank adopted is a circular glass fiber reinforced plastic water tank with a tapered inner cavity at the bottom, and multiple circular fiber glass steel water tanks are connected in parallel, One of the water tanks is filled with filter sand to form a filter tank, and the rest of the circular glass fiber reinforced plastic tank is a culture tank. The conical inner cavity at the bottom of the culture tank is equipped with a grille, and there is an overflow pipe in the middle of the filter tank. The outlet pipe at the bottom of the pool is connected, the outlet pipe at the bottom of the circular fiberglass tank is connected to the water pump, the outlet pipe of the water pump is connected to the temperature control unit, the outlet pipe of the temperature control unit is connected to the biological filter, and the outlet pipe of the biological filter is connected to the top of the breeding pond , the outlet pipeline at the bottom of the circular fiberglass tank, the water outlet pipeline of the water pump, and the outlet pipeline of the biological filter are respectively equipped with valves, and the outlet pipeline of the temperature control unit is equipped with valves and flow meters.

The utility model has the advantages of low equipment investment and simple operation and maintenance.

Description of drawings

The accompanying drawing is a schematic diagram of an economical circulating water aquaculture system of the present invention.

Detailed ways

The utility model (referring to accompanying drawing) adopts water tank, filter sand 7, water pump 5, temperature control unit 1, biological filter 2, and above-mentioned water tank adopts the circular fiberglass water tank with conical inner chamber at the bottom, with 4 tapered inner chambers The circular fiberglass water tanks are connected in parallel, one of which is filled with filter sand 7 to become a filter tank, and the remaining three tanks are used as a culture tank 6, and a grille 9 is installed on the conical inner cavity at the bottom of the culture tank, and an overflow pipe is arranged in the middle of the filter tank 8. The water inlet of the overflow pipe is connected to the water outlet pipe at the bottom of the breeding tank; the water outlet pipe at the bottom of the tank is connected to the water pump, the water outlet pipe of the water pump is connected to the temperature control unit, the water outlet pipe of the temperature control unit is connected to the biological filter, and the biological filter outlet The water pipeline is connected to the top of the breeding pond; the water outlet pipeline at the bottom of the water tank, the water pump outlet pipeline, and the biological filter outlet pipeline are respectively equipped with valves, and the outlet pipeline of the temperature control unit is equipped with a valve 4 and a flow meter 3 . The utility model is provided with circulation power by a water pump, the power of the water pump is 160w, the head is 8m-11m, and the maximum water output is 90-100L/min. The water tank specifications of the breeding tank and the filter tank are 1m in diameter and 1000L in volume; the overflow pipe in the center of the filter tank is used as a water level control tube to control the water depth in each culture tank, and the quartz filter sand filled in the filter tank is coarse gravel (Φ10mm), Medium sand (Φ5mm), fine sand (Φ2mm). The filler in the biofilter is medical stone, activated carbon, and crushed coral, the ratio is 1:3:2, and the water flow range is controlled between 0 and 2500L/h. room temperature control. The water in the aquaculture pool enters the filter tank through the outlet pipe at the bottom and the overflow pipe of the filter tank, and the fish feces and other particles are trapped in the sand filter layer, and then the suspended solids can be removed by low-pressure hydraulic backwashing. The washing water consumption is only 20L; the clear water filtered by the filter tank enters the temperature control unit through the water pump to realize temperature control, and then enters the biological filter, and the purified water returns to the breeding pond to complete a cycle; in-situ oxygenation in the water tank. The system can achieve a dynamic farming load of 20kg/m ³ .

Claims (5)

1. An economical circulating water aquaculture system adopts a water tank, a sand filter, a water pump, a temperature control unit, and a biological filter, and is characterized in that the water tank adopted is a circular fiberglass tank, and is connected in parallel with a plurality of circular fiberglass tanks, One of the water tanks is filled with filter sand to become a filter tank, and the rest of the circular glass fiber reinforced plastic tanks are breeding tanks. The lower part of the inner cavity of the breeding tank is equipped with a grille, and there is an overflow pipe in the middle of the filter tank. The outlet pipe is connected, the outlet pipe at the bottom of the circular glass fiber reinforced plastic tank is connected to the water pump, the outlet pipe of the water pump is connected to the temperature control unit, the outlet pipe of the temperature control unit is connected to the biological filter, and the outlet pipe of the biological filter is connected to the top of the breeding pond, circular The water outlet pipeline at the bottom of the fiberglass tank, the water pump outlet pipeline, and the biofilter outlet pipeline are respectively equipped with valves, and the outlet pipeline of the temperature control unit is equipped with valves and flow meters. 2. A kind of economical circulating water aquaculture system according to claim 1, characterized in that the power of the water pump used is 160w, the head is 8m-11m, and the maximum water output is 90-100L/min. 3. An economical circulating water aquaculture system according to claim 1, characterized in that the filter sand filled in the filter tank is respectively coarse gravel, medium sand and fine sand from bottom to top. 4. A kind of economical recirculating water aquaculture system according to claim 1, it is characterized in that medical stone, activated carbon, crushed coral are filled in the biological filter, the ratio is 1:3:2. 5. A kind of economical circulating water aquaculture system according to claim 1 or 2 or 3 or 4, characterized in that the diameter of the circular fiberglass tank is 1m and the volume is 1000L.