CN108308105B - Temperature regulating system for aquaculture water tank - Google Patents

Abstract

The invention discloses an aquaculture pond temperature adjusting system which comprises a combustion boiler, a temperature adjusting pond, a culture pond and an external water source, wherein the combustion boiler is connected with a steam pipe and a waste gas pipe, the steam pipe is buried in the temperature adjusting pond, the waste gas pipe is erected above the temperature adjusting pond, a cooling pipe is further arranged above the waste gas pipe, cooling water is introduced into the cooling pipe, a plurality of spraying holes for spraying the cooling water onto the waste gas pipe are formed in the bottom of the cooling pipe, and a hot water pipe is connected between the temperature adjusting pond and the culture pond. According to the invention, through the arrangement, the combustion boiler has stable energy and a large adjustable temperature range, can adapt to different outdoor temperature environments, and is provided with the steam pipe and the waste gas pipe, so that the energy of the combustion boiler can be utilized as much as possible, and the utilization rate of the energy is improved.

Description

Temperature regulating system for aquaculture water tank

Technical Field

The invention relates to the technical field of aquaculture, in particular to a temperature regulating system for an aquaculture water pool.

Background

Aquaculture is an agricultural production mode which depends on natural environment, but with the gradual development of technical means of human intervention, the aquaculture device not only develops well in cities around the coast, but also appears in inland in a plurality of large-scale farms. However, winter seasons with cold and low temperatures are the most common practice for the aquaculture industry. For example, the requirements on the water temperature of aquatic products such as turtles are strict, and if the water temperature is lower than a specific temperature, turtles enter a hibernation period, which is not beneficial to yield increase and sale, so that the water in the culture pond needs to be heated and kept warm to ensure a good production result of aquaculture.

Chinese patent document with application publication number CN102511438A discloses an aquaculture wind-powered oxygenation and temperature-increasing device, including natural wind air compressor, negative oxygen ion generator, solar heater and pipeline of connection, natural wind air compressor passes through the rotatory compressor that drives of fan blade and obtains compressed air to send compressed air storage tank, increase oxygen concentration through negative oxygen ion generator after the output, and make the temperature rise through solar heater, can dissolve the oxygen ion that can be many, reach the effect of heating and oxygenation.

However, although the energy source is environment-friendly and natural, accidental factors occupy too large, stable energy supply cannot be provided for cultivation, and the application range is severely limited.

Chinese patent application publication No. CN2730129U discloses a through type environment-friendly geothermal aquaculture water temperature regulating device, which mainly utilizes geothermal resources to achieve the effect of regulating the temperature of aquaculture water by extracting underground warm water and exchanging heat with aquaculture water. Although the energy stability is durable, the underground water contains too stable heat, and different adjustment is difficult to be carried out according to different outdoor conditions, namely the adjustment capacity is limited.

Based on this, it is also necessary for the aquaculture industry to provide an aquaculture pond temperature regulating system which is stable in heat and controllable in temperature regulating range.

Disclosure of Invention

The invention aims to provide an aquaculture pond temperature regulating system which has the effects of large temperature regulating range and stable heat supply.

The technical purpose of the invention is realized by the following technical scheme: the utility model provides an aquaculture pond temperature regulating system, includes combustion boiler, thermoregulation pool, breeds pond and external water source, combustion boiler is connected with steam pipe and exhaust pipe, the steam pipe bury underground in the thermoregulation pool, exhaust pipe erects in the thermoregulation pool top, just the exhaust pipe top still is equipped with the cooling tube, it has the cooling water to lead to in the cooling tube, just a plurality of confessions have been seted up to the bottom of cooling tube the cooling water sprays the hole that sprays on the exhaust pipe, be connected with the hot-water line between thermoregulation pool and the breed pond.

Through adopting above-mentioned technical scheme, the range that adopts combustion boiler energy stability and adjustable temperature is great, can adapt to different outdoor temperature environment, is provided with steam pipe and exhaust pipe and can improves the utilization ratio of energy with the utilization as big as possible of combustion boiler's energy.

The invention is further provided with: the temperature regulation pond is further connected with a circulating heat exchange pond, the waste gas pipe and the steam pipe are both connected with a desulfurizing tower, the bottom of the desulfurizing tower is provided with a discharge pipe communicated with the circulating heat exchange pond, and the culture pond is provided with a blow-off pipe communicated with the circulating heat exchange pond.

Through adopting above-mentioned technical scheme, exhaust pipe and steam pipe communicate still have certain temperature to the desulfurization sewage that obtains after the desulfurization treatment in the desulfurizing tower, with the energy maximize's of boiler burning save, the rethread delivery pipe is arranged desulfurization sewage to the circulation heat transfer pond in to form a new heat source, it can be with the lower floor breed sewage regularly arrange to the circulation heat transfer pond in to be provided with the blow off pipe in the pond simultaneously, provide many-sided usable heat source for the circulation heat transfer pond, the utilization ratio of energy is improved as far as.

The invention is further provided with: the temperature adjusting pool comprises a preheating pool, a middle hot pool and a hot water pool, the steam pipe is buried in the hot water pool, the waste gas pipe is erected above the middle hot pool, and the preheating pool is internally provided with a heat exchange pipe for exchanging heat with the circulating heat exchange pool.

Through adopting above-mentioned technical scheme, the pond of adjusting temperature divide into a plurality of components, preheats the pond and obtains the heat in the circulation heat transfer pond through hot exchange pipe, and well hot-water storage pond obtains the heat in the exhaust pipe through the cooling tube, and the hot-water line then directly heats through the steam pipe, forms cascaded hot water storage subregion, can increase absorption and utilization to the heat of different heat sources as far as, is favorable to improving the utilization ratio of heat energy.

The invention is further provided with: the circulating heat exchange pool is divided into an organic pool and an inorganic pool, the culture pool is communicated with the organic pool, the inorganic pool is communicated with the desulfurizing tower, the organic pool is also connected with a sedimentation pool, and the sedimentation pool is connected with an ecological treatment pool.

Through adopting above-mentioned technical scheme, circulation heat transfer pond separately stores the sewage in desulfurizing tower and the breed pond, avoids the desulfurization sewage in the desulfurizing tower to cause harmful pollution to breeding sewage, and rethread sedimentation tank and ecological treatment pond are handled organic pond, can reach the effect of the breed sewage in the organic pond of reuse.

The invention is further provided with: the heat exchange pipe comprises a water inlet part and a water outlet part, the water inlet part is communicated with the ecological treatment pool and an external water source, and the water outlet part is communicated with the cooling pipe.

Through adopting above-mentioned technical scheme, the moisture after ecological treatment pond is handled basically the heat loss totally, makes it and external water source pass through heat exchange pipe together, and the heat energy in the absorption circulation heat exchange pond that can furthest, the moisture through heat exchange pipe carries out the heat exchange treatment with the exhaust-gas line through the cooling tube, also can fully absorb the energy in the exhaust-gas line.

The invention is further provided with: the waste gas pipe is in still be equipped with between tempering pond and the desulfurizing tower and sink the cigarette well, sink the cigarette well including advancing mouth and outlet flue, advance the mouth position and be less than the outlet flue sets up, sink the cigarette well cross-section and be the rectangle setting, just it is the right angle to advance contained angle between mouth and the outlet flue.

Through adopting above-mentioned technical scheme, the heavy well cross-section is the right angle for the rectangle setting and between advancing mouth and the outlet flue, makes the large granule that contains in the boiler waste gas of carrying in the exhaust gas pipe, accomplishes deposit and separation through the collision with the heavy well wall of a well, and advances the mouth position and be less than the outlet flue setting, makes the flue gas further sieve the large granule that wherein mix with at the in-process that upwards flows, work load when reducing later stage desulfurization treatment.

The invention is further provided with: an overflow pipe is arranged between the middle hot water tank and the hot water tank, the position of the overflow pipe is higher than that of the hot water pipe, when the liquid level of the water in the hot water tank is lower than that of the overflow pipe, the liquid level of the water in the middle hot water tank is higher than that of the overflow pipe, the overflow pipe is in an open state, the water in the middle hot water tank enters the hot water tank through the overflow pipe, and when the liquid level of the water in the hot water tank is higher than that of the overflow pipe, the overflow pipe is closed.

By adopting the technical scheme, the overflow pipe is arranged, so that the moisture in the hot water pool and the moisture in the medium hot water pool can be separated from each other, the temperature in the hot water pool is improved, the hot water pool can be supplemented in time, and the normal moisture supply is met.

The invention is further provided with: the sedimentation tank is including a plurality of that communicate in proper order, and every the sedimentation tank all communicates there is the wastewater disposal basin, the wastewater disposal basin still communicate in inorganic pond.

By adopting the technical scheme, the culture sewage in the organic pond is divided into the supernatant and the sediment through multi-stage sedimentation treatment, the supernatant is conveyed to the ecological treatment pond for further treatment, and the sediment and the desulfurization sewage in the inorganic pond are discharged into the wastewater pond together for direct treatment, so that the pollution to other water is avoided.

The invention is further provided with: the ecological treatment pond comprises a plurality of ecological ponds which are communicated in sequence, and herbaceous plants and fish and shrimp aquatic organisms for purifying water quality are arranged in the ecological ponds.

Through adopting above-mentioned technical scheme, the supernatant of the breed sewage that obtains after many and subside can provide abundant elements such as nitrogen phosphorus and other organic nutrients for herbaceous plant and the fish and shrimp plant that are equipped with in the ecological pond, and the supernatant can become the clean moisture of water purification after a plurality of ecological ponds purify simultaneously, can reuse.

The invention is further provided with: a preheater is arranged between the external water source and the combustion boiler, and the preheater is arranged on the steam pipe.

Through adopting above-mentioned technical scheme, adopt the pre-heater not only can reduce the heat in the exhaust pipe and in the lost quantity of earlier stage, also preheat in advance the external water source simultaneously, improved the efficiency that boiler burning produced the vapor, provide the work efficiency, reduce time cost.

In conclusion, the invention has the following beneficial effects:

1) boiler combustion is adopted as a heat source, so that the stability is high, the adjustable temperature range is large, and the adaptability is large;

2) the waste gas pipe is adopted to fully utilize the heat energy of boiler combustion, so that the utilization rate of energy is improved;

3) a circulating heat exchange pool is arranged to collect and utilize heat energy of a plurality of different heat sources, so that the utilization rate of the energy is further improved;

4) the temperature adjusting pool is set into a plurality of subareas which respectively correspond to different heat sources, so that the efficiency of absorbing and utilizing heat energy is improved, the subareas can be mutually communicated, and can be supplemented in time to meet the requirement of normal water supply.

Drawings

FIG. 1 is an overall system diagram of the present embodiment;

FIG. 2 is a schematic sectional view of a smoke trap;

FIG. 3 is a schematic plan view of the preheating tank and the circulating heat exchange tank, mainly showing the relative positions of the preheating tank and the circulating heat exchange tank, and the structure of the heat exchange tubes;

FIG. 4 is a schematic plan view of the attemperation tank and the circulating heat exchange tank.

In the figure: 1. a combustion boiler; 2. a temperature adjusting pool; 21. preheating a pool; 22. a middle heat pool; 23. a hot water tank; 3. a culture pond; 4. an external water source; 5. a steam pipe; 6. an exhaust gas pipe; 7. a cooling tube; 8. a hot water pipe; 9. a circulating heat exchange pool; 91. an organic pool; 92. an inorganic pool; 10. a desulfurizing tower; 11. a discharge pipe; 12. a blow-off pipe; 13. a heat exchange tube; 131. a water inlet part; 132. a water outlet part; 14. a sedimentation tank; 15. an ecological treatment tank; 16. a smoke sinking well; 161. a smoke inlet; 162. a smoke outlet; 17. an overflow pipe; 18. a preheater.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The specific embodiments are only for explaining the present invention, and the present invention is not limited thereto, and those skilled in the art can make modifications without inventive contribution to the present embodiments as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Example (b): an aquaculture pond temperature regulating system is shown in figure 1 and comprises a combustion boiler 1, a temperature regulating pond 2, a culture pond 3, an external water source 4 and a circulating heat exchange pond 9. In external water source 4 distributes water to combustion boiler 1, combustion boiler 1 converts the heat into hot water and vapor, heats the moisture in the pond of adjusting the temperature 2 to adjust the temperature pond 2 can provide the water that the temperature accords with the demand for breeding pond 3 through hot-water line 8, and circulation heat transfer pond 9 collects other heats once more, also is used for adjusting the heating of moisture in the pond of adjusting the temperature 2, the utilization ratio of the high energy.

As shown in fig. 1, the combustion boiler 1 may be a general coal-fired boiler or a circulating fluidized bed, the combustion boiler 1 is connected with a steam pipe 5 and an exhaust gas pipe 6, the steam pipe 5 is used for conveying hot water vapor generated by combustion, and the exhaust gas pipe 6 is used for conveying waste hot gas generated by combustion in the boiler. In order to improve the efficiency of generating steam, a preheater 18 is further installed between the external water source 4 and the combustion boiler 1, the preheater 18 is installed on the steam pipe 5, and the moisture supplied from the external water source 4 is preheated by a section of the steam pipe 5 between the combustion boiler 1 and the temperature-adjusting tank 2.

As shown in fig. 1 and 4, the temperature adjusting tank 2 includes a preheating tank 21, a middle heat tank 22 and a hot water tank 23, a steam pipe 5 is buried in the hot water tank 23, an exhaust gas pipe 6 is erected above the middle heat tank 22, a cooling pipe 7 is further arranged above the exhaust gas pipe 6, cooling water is introduced into the cooling pipe 7, and a plurality of spray holes (not shown) for spraying the cooling water onto the exhaust gas pipe 6 are formed in the bottom of the cooling pipe 7. As shown in fig. 3, a heat exchange pipe 13 for exchanging heat with the circulating heat exchange tank 9 is arranged in the preheating tank 21, a water inlet portion 131 and a water outlet portion 132 are installed at two ends of the heat exchange pipe 13, the water outlet portion 132 is communicated with the cooling pipe 7, and a water pump is installed, so that the water body after heat exchange in the preheating tank 21 enters the cooling pipe 7 as cooling water.

As shown in fig. 1, the other ends of the steam pipe 5 and the exhaust gas pipe 6 are both connected with a desulfurization tower 10, the steam pipe 5 and the exhaust gas pipe 6 are communicated below the desulfurization tower 10, common ammonia water is used as a desulfurizing agent in the desulfurization tower 10, and desulfurized wastewater is collected at the bottom of the desulfurization tower 10.

As shown in fig. 1, the circulating heat exchange tank 9 is divided into an organic tank 91 and an inorganic tank 92, a sewage discharge pipe 12 is installed in the culture tank 3 and is communicated with the organic tank 91, so that the culture sewage at the bottom of the culture tank 3 can be discharged into the organic tank 91, a discharge pipe 11 is installed at the bottom of the desulfurizing tower 10 and is communicated with the inorganic tank 92, and the desulfurizing sewage deposited at the bottom of the desulfurizing tower 10 can be discharged into the inorganic tank 92.

As shown in fig. 1, the organic pond 91 is further connected to a plurality of settling ponds 14 connected to each other, and for convenience of illustration, the upper clear liquid of the culture sewage in each settling pond 14 can be sequentially circulated, and each settling pond 14 is also communicated with a wastewater pond for storing the deposit of the organic sewage, and the inorganic pond 92 is also communicated with the wastewater pond, so that the desulfurization sewage after heat exchange can be discharged into the wastewater pond for uniform treatment.

As shown in fig. 1, the final-stage sedimentation tank 14 is connected to an ecological treatment tank 15, so that supernatant of organic sewage subjected to sedimentation treatment is conveyed to the ecological treatment tank 15, the ecological treatment tank 15 comprises a plurality of sequentially communicated ecological ponds, herbaceous plants for purifying water quality, such as water hyacinth, water hibiscus and the like, are planted in the ecological ponds, and meanwhile, fish and shrimp aquatic products, such as silver carps, spotted silver carps, grass carps and the like, are also cultured.

As shown in fig. 1, the ecological pond of the last stage and the external water source 4 are both communicated with the water inlet portion 131 of the heat exchange tube 13, and used as the water source of the preheating pond 21, and heat exchange of the desulfurization sewage and the aquaculture sewage in the circulating heat exchange pond 9 is completed through the heat exchange tube 13.

As shown in fig. 1, the tempering tank 2 includes a preheating tank 21, a middle heating tank 22 and a hot water tank 23, wherein the water source of the preheating tank 21 is supernatant of the last-stage ecological pond and the external water source 4, and the water source of the middle heating tank 22 is from the cooling pipe 7, i.e., the preheating tank 21, and at the same time, an overflow pipe 17 is provided between the hot water tank 23 and the middle heating tank 22 in order to ensure a sufficient amount of water in the hot water tank 23.

The position of the overflow pipe 17 is higher than that of the hot water pipe 8, when the liquid level of the water in the hot water tank 23 is lower than that of the overflow pipe 17 and the liquid level of the water in the middle heat tank 22 is higher than that of the overflow pipe 17, the overflow pipe 17 is in an open state, and the water in the middle heat tank 22 can enter the hot water tank 23 through the overflow pipe 17 to supplement the water for the hot water tank 23; when the level of the water in the hot water tank 23 is higher than the overflow pipe 17, the overflow pipe 17 is closed, preventing the water in the hot water pipe 8 from entering the middle hot tank 22. The overflow pipe 17 can be a common ball valve, and a floating ball in the ball valve is arranged at one end close to the hot water tank 23, and can also be a common overflow valve, and any valve with an overflow function.

As shown in fig. 1 and 2, the waste gas in the combustion boiler 1 can basically satisfy the environmental protection requirement after being processed by the desulfurizing tower 10, in order to reduce the workload of the desulfurizing tower 10, the effect of desulfurization dust fall is improved, the chimney pit 16 is further installed between the temperature adjusting pool 2 and the desulfurizing tower 10, the upper part of the chimney pit 16 is sealed and arranged and comprises a smoke inlet 161 and a smoke outlet 162, the smoke inlet 161 is communicated with the combustion boiler 1 through a waste gas pipe 6, the smoke outlet 162 is communicated with the desulfurizing tower 10 through the waste gas pipe 6, the position of the smoke inlet 161 is lower than that of the smoke outlet 162, the cross section of the chimney pit 16 is arranged in a rectangular shape, and an included angle between the smoke inlet 161 and the smoke outlet 162 is a right angle.

Claims (6)

1. The utility model provides an aquaculture pond temperature regulating system, includes combustion boiler (1), adjusts temperature pond (2), breeds pond (3) and external water source (4), adjust temperature pond (2) and breed and be connected with hot-water line (8), its characterized in that between pond (3): the combustion boiler (1) is connected with a steam pipe (5) and a waste gas pipe (6), the temperature regulating pond (2) comprises a preheating pond (21), a middle heat pond (22) and a hot water pond (23), the steam pipe (5) is buried in the hot water pond (23), the waste gas pipe (6) is erected above the middle heat pond (22), a cooling pipe (7) is further arranged above the waste gas pipe (6), cooling water is communicated in the cooling pipe (7), a plurality of spray holes for spraying the water onto the waste gas pipe (6) are formed in the bottom of the cooling pipe (7), the waste gas pipe (6) and the steam pipe (5) are both connected with a desulfurizing tower (10), the temperature regulating pond (2) is further connected with a circulating heat exchange pond (9), a discharge pipe (11) communicated with the circulating heat exchange pond (9) is arranged at the bottom of the desulfurizing tower (10), the breeding pond (3) is provided with a discharge pipe (12) communicated with the circulating heat exchange pond (9),

the circulating heat exchange pool (9) is divided into an organic pool (91) and an inorganic pool (92), the culture pool (3) is communicated with the organic pool (91), the inorganic pool (92) is communicated with the desulfurizing tower (10),

the organic pool (91) is also connected with a sedimentation pool (14), the sedimentation pool (14) is connected with an ecological treatment pool (15),

the heat exchange device is characterized in that a heat exchange pipe (13) which exchanges heat with the circulating heat exchange tank (9) is arranged in the preheating tank (21), the heat exchange pipe (13) comprises a water inlet part (131) and a water outlet part (132), the water inlet part (131) is communicated with the ecological treatment tank (15) and an external water source (4), and the water outlet part (132) is communicated with the cooling pipe (7).

2. An aquaculture pond temperature adjustment system according to claim 1, wherein: waste gas pipe (6) are in still be equipped with between thermoregulation pool (2) and desulfurizing tower (10) and sink cigarette well (16), sink cigarette well (16) including advancing mouth of a cigarette (161) and outlet flue (162), it is less than to advance mouth of a cigarette (161) position outlet flue (162) set up, it is the rectangle setting to sink cigarette well (16) cross-section, just it is the right angle to advance contained angle between mouth of a cigarette (161) and the outlet flue (162).

3. An aquaculture pond temperature adjustment system according to claim 2, wherein: the hot water pool (22) with be equipped with overflow pipe (17) between hot water pool (23), overflow pipe (17) position is higher than hot-water line (8) set up, work as the liquid level of moisture is less than in hot water pool (23) overflow pipe (17) just the liquid level of moisture is higher than in hot water pool (22) when overflow pipe (17), overflow pipe (17) are in the open mode, just moisture in the hot water pool (22) passes through overflow pipe (17) get into in hot water pool (23), work as the liquid level of moisture is higher than in hot water pool (23) when overflow pipe (17), overflow pipe (17) seal.

4. An aquaculture pond temperature adjustment system according to claim 1, wherein: the sedimentation tank (14) comprises a plurality of sedimentation tanks which are communicated in sequence, each sedimentation tank (14) is communicated with a waste water tank, and the waste water tanks are also communicated with the inorganic tank (92).

5. An aquaculture pond temperature adjustment system according to claim 1, wherein: ecological treatment pond (15) are including a plurality of ecological ponds that communicate in proper order, just be equipped with the herbaceous plant and the fish and shrimp class aquatic creatures of purifying water quality in the ecological pond.

6. An aquaculture pond temperature adjustment system according to claim 1, wherein: a preheater (18) is arranged between the external water source (4) and the combustion boiler (1), and the preheater (18) is arranged on the steam pipe (5).

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