KR100424452B1 - Water supplying system in a cistern type nursery - Google Patents

Abstract

The present invention in the water temperature control system of aquaculture farm configured to heat the raw water 62 of the raw water supply source 60 through the heating device 40 and then supply to the aquaculture farm 50, which is introduced from the raw water supply source 60 A first step of setting a normal range temperature value of the raw water 62; A second step of measuring the water temperature of the raw water (62); A third step of determining whether the water temperature of the raw water 62 measured in the second step is within a normal range; A fourth step of feeding back to the second step when the water temperature of the raw water 62 is in the normal range in the third step; A fifth step of increasing the flow rate of the raw water 62 and feeding it back to the second step when the water temperature of the raw water 62 is higher than the maximum value in the normal range in the third step; And a sixth step of reducing the flow rate of the raw water 62 and feeding it back to the second step when the water temperature of the raw water 62 is lower than the lowest value of the normal range in the third step. By controlling the flow rate of the raw water in response to the temperature change, it has the effect of supplying the raw water of the constant temperature to the farm.

Description

Water supply system in a cistern type nursery

The present invention relates to a water temperature control system of aquaculture farms, and more particularly, to a water temperature control system of a fish farm, which is capable of supplying aquaculture farms by controlling a flow rate of the raw water in response to temperature changes of raw water such as seawater or groundwater. will be.

In general, fish tanks are supplied with raw water such as seawater or groundwater, which is adjusted to a temperature suitable for the growth of fish and shellfish.

In aquaculture farms, the most important problems are the contamination of the water quality of aquaculture water with ammonia and the like generated from the excreta of fish and shellfish, and the change of the temperature of the culture water due to seasonal factors.

And, the above problems can be solved by supplying a temperature controlled raw water to the farm at a constant flow rate.

1 shows a prior art disclosed in Patent Application No. 1999-43023, wherein a first heat exchanger 110 and heat exchanger 110 are configured to heat exchange waste water and 152 to be supplied. Raw water passed through the second heat exchanger 120 and configured to be discharged to the farm 150 after receiving the heat from the condenser 142 of the heating device 140, the cultured water through the first heat exchanger 110 ( 152 consists of a third heat exchanger 130 configured to be discarded after supplying heat to the evaporator 144 of the heating device 140.

That is, the raw water 162 of 8 to 14 ° C. supplied from the sea 160 and the like is heat-exchanged with the cultured water 152 of 15 to 20 ° C. in the first heat exchange part 110 and then continues in the second heat exchange part 120. By heat exchange with the refrigerant is heated to 25 to 30 ℃ is supplied to the farm (150).

However, in the above-described conventional technology, since the capacity of the heating device 140 and the flow rate of raw water are fixed, when the inflow temperature of raw water is greatly changed, raw water of too low or too high temperature is supplied to aquaculture farms, thereby increasing the rate of growth of fish and shellfish. Of course, it was a problem that the shellfish died in severe cases, of course.

The present invention is to solve the above-mentioned conventional problems, the tank farm in which the raw water of a certain temperature range can be supplied to the farm by changing the flow rate of the raw water in response to changes in the raw water temperature, such as sea water or ground water The purpose is to provide a water temperature control system.

1 is a schematic configuration diagram showing a water temperature control system of a fish farm according to the prior art;

Figure 2 is a schematic configuration diagram showing a water temperature control system of a fish farm according to the present invention;

Figure 3 is a flow chart illustrating a method of controlling the water temperature of the farm according to the present invention.

※ Explanation of symbols about main part of drawing ※

10: first heat exchanger 20: second heat exchanger

30: third heat exchanger 40: heating device

42 condenser 44 evaporator

50: farms 52: aquaculture

60: source of raw water 62: raw water

71: raw water supply pipe 72: aquaculture water discharge pipe

73: aquaculture water supply pipe 81, 82: pump

85, 87: control valve 86: thermometer

As a technical configuration for achieving the above object, the present invention is a water temperature control system of aquaculture farms configured to supply raw water of a raw water supply source through a heating apparatus and then to the aquaculture farm, wherein the raw water introduced from the raw water supply source Setting a normal range temperature value; A second step of measuring the water temperature of the raw water; A third step of determining whether the water temperature of the raw water measured in the second step is within a normal range; A fourth step of feeding back to the second step when the water temperature of the raw water is in the normal range in the third step; A fifth step of increasing the flow rate of the raw water and feeding it back to the second step when the water temperature of the raw water is higher than the maximum value of the normal range in the third step; And a sixth step of reducing the flow rate of the raw water and feeding it back to the second step when the water temperature of the raw water is lower than the minimum value of the normal range in the third step. By provision.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a schematic view showing a water temperature control system of the tank farm according to the present invention, the first heat exchanger 10 having a heat exchanger 12, the pipe is arranged in a zigzag shape, the heating device consisting of a heat pump The main body 90 consists of the 2nd heat exchange part 20 with which the condenser 42 of 40 was provided, and the 3rd heat exchange part 30 with which the evaporator 44 of the heating apparatus 40 was provided.

The heat exchanger 12 of the first heat exchanger 10 connects the cultured water 52 of the farm 50 to the third heat exchanger 30 through a connection pipe 74 through the culture water discharge pipe 72. It is configured to supply, the culture water discharge pipe (72) is provided with a pump 82, the flow rate is controlled by the control valve 87, the pump 84 is also installed in the connecting pipe (74).

In addition, the first heat exchanger 10 receives raw water 62 such as seawater or groundwater from a raw water supply source 60 such as sea or underground through a raw water supply pipe 71, and controls the raw water supply pipe 71. The pump 81 whose flow rate is adjusted by the valve 85 and the thermometer 86 for measuring the temperature of raw water are provided.

The raw water 62 supplied through the raw water supply pipe 71 is supplied to the second heat exchange part 20 via the first heat exchange part 10, and thus the raw water 62 supplied to the second heat exchange part 20. ) Is discharged to the farm 50 through the cultured water supply pipe 73, the pump 83 is installed in the cultured water supply pipe (73).

The cultured water waste pipe 75 is installed in the third heat exchanger 30 so that the cultured water 52 supplied to the third heat exchanger 30 through the connection pipe 74 is discarded into the sea. In addition, the aquaculture water waste pipe 75 is provided with a flow control valve (75a).

The operation of the present invention having the above configuration will be described.

Raw water 62, such as seawater or groundwater, is supplied from the sea or underground raw water supply source 60 to the fish farm 50, and the aquaculture water 52 at a flow rate corresponding to the supply amount of the raw water 62 is discarded into the sea or the like. As a result, the farm 50 maintains a degree of cleanliness suitable for the farming of fish and shellfish.

At this time, the raw water 62 is to be heated to a temperature suitable for the culture of fish and waste to be supplied to the farm (50), which is in charge of the heating device 40, the heating capacity of the heating device 40 is a compressor It is set so as to be appropriately titrated in advance according to the capacity of (not shown).

The heating mechanism of the raw water 62 will be described in more detail below, and the temperature range of the cultured water 52 varies according to what kind of fish and shellfish are farmed, where raw water 62 The temperature range of the raw water 62 will vary depending on whether the raw water 62 is provided. However, in the present invention, the temperature range of the raw water 62 is set to 8 to 14 ° C, and the temperature range of the cultured water 52 is 15. It demonstrates in the range of -20 degreeC.

Raw water 62 of 8 to 14 ° C. supplied to the first heat exchange part 10 through the raw water supply pipe 71 is supplied to the heat exchanger 12 of the first heat exchange part 71 through the cultured water discharge pipe 72. It heats up to 10-16 degreeC by heat exchange with the cultured water 52 of 15-20 degreeC.

In addition, the raw water 62 heated to 10 to 16 ° C. via the first heat exchange part 71 is introduced into the second heat exchange part 20 to exchange heat with the condenser 42 of the heating device 40 to 25 to 30. The temperature is raised to ℃ and supplied to the farm 50 through the culture water supply pipe (73).

On the other hand, the cultured water 52 which is lower than the temperature of 15 ~ 20 ℃ while passing through the first heat exchange unit 72 is introduced into the third heat exchange unit 30 through the connecting pipe 74 and the heating device 40 After the heat exchange with the evaporator 44 of the discarded into the sea.

Of course, the heating device 40 releases heat to the raw water in the condenser 42 installed in the second heat exchanger 20 and heats from the culture water 52 in the evaporator 44 installed in the third heat exchanger 30. It is operated to achieve a normal refrigerant cycle by absorbing.

The water temperature control system of the present invention is to maintain the temperature range of the cultured water supplied to the farm 50 by adjusting the flow rate of the raw water by the temperature of the raw water 62 supplied from the raw water supply source 60 is maintained in the set range. This will be described in more detail with reference to FIG. 3.

First, the normal range temperature value setting step of the raw water is performed, which is limited to the case where the raw water 62 is in a predetermined temperature range by a factor of predetermined system components such as the heating capacity of the heating device 40. May be heated to an optimal temperature range and then supplied to the aquaculture farm 50, and setting the temperature range of the raw water 62 to the normal range temperature value.

Next, a high temperature and low temperature range temperature value setting step of the raw water is performed.

That is, when the temperature value of the raw water 62 is a high temperature range exceeding the normal range temperature value, the raw water when the raw water 62 is supplied to the farm 50 by increasing the flow rate of the raw water 62 to a certain high temperature range ( Although the temperature value of 62 may be adjusted to be in the optimum temperature range, if the temperature value of the raw water 62 is too high, the raw water 62 may be too high in the farm 50 even though the flow rate of the raw water 62 is adjusted. ) Is supplied, and the temperature value of the raw water 62 is set to the maximum value of the high temperature range.

On the contrary, when the temperature value of the raw water 62 is in the low temperature range lower than the normal range temperature value, when the raw water 62 is supplied to the farm 50 with a small flow rate of the raw water 62 to a certain low temperature range. Although the temperature value of the raw water 62 can be adjusted to be in the optimum temperature range, when the temperature value of the raw water 62 is too low, the temperature of the raw water 62 is too low in the farm 50 even though the flow rate of the raw water 62 is adjusted. The case where raw water 62 is supplied occurs, and the temperature value of such raw water 62 is set to the lowest value of the low temperature range.

Next, a temperature measuring step of the raw water is performed, which measures the temperature value of the raw water 62 in the thermometer 86 provided in the raw water supply pipe 71.

Next, a comparison step of the measured value and the normal range minimum value is performed, which compares the temperature measured value of the raw water 62 measured by the thermometer 86 with the normal range minimum value.

If the measured value is lower than the lowest value in the normal range, a comparison step between the measured value and the lowest value in the low temperature range is performed. If the temperature measured value of the raw water is lower than the lowest value in the low temperature range, an abnormal signal is generated or the system is stopped in sequence. To take follow-up measures. On the other hand, if the temperature measured value of the raw water is equal to or higher than the lowest value of the low temperature range, the control valve 85 is adjusted to reduce the flow rate of the raw water supplied to the first heat exchange part 10 through the raw water supply pipe 71, and then The temperature value of the raw water 62 is measured by the thermometer 86 provided in the supply pipe 71. Subsequently, the temperature value of the raw water 62 is measured in the thermometer 86 provided in the raw water supply pipe 71 fed back to the temperature measuring step of the raw water.

Of course, when the control valve 85 is adjusted, the flow rate of the cultured water 52 discharged from the farm 50 by adjusting the control valve 87 of the cultured water discharge pipe 72 is also adjusted.

If the measured value is equal to or higher than the lowest value in the normal range, a comparison step of the measured value and the highest value in the normal range is performed. The temperature value of the raw water 62 is measured by the thermometer 86 provided at 71. On the other hand, when the temperature measurement value of the raw water is equal to or higher than the minimum value of the high temperature range, a comparison step of the measured value and the high temperature range maximum value is performed. After increasing the flow rate of the raw water supplied to the first heat exchange unit 10 through the 71, the temperature value of the raw water 62 is fed back to the step of measuring the temperature value of the raw water 62 in the thermometer 86 provided in the raw water supply pipe 71 If the measured value is equal to or higher than the maximum value of the high temperature range, an abnormal signal is generated and corresponding action is taken by stopping the system sequentially or sequentially.

As described above, according to the water temperature control system of the tank farm according to the present invention, when the temperature of the raw water is lower than the set temperature corresponding to the temperature change of the raw water, the flow rate of the raw water supplied to the farm is reduced and the temperature of the raw water is higher than the set temperature. If it is high, by increasing the flow rate of the raw water supplied to the farm, the temperature of the raw water supplied to the farm is always in a constant temperature range has an excellent effect that the farm water can be maintained at a temperature suitable for fish farming.

Claims (3)

In the water temperature control system of aquaculture farms configured to heat the raw water 62 of the raw water supply source 60 through the heating device 40 and then supply the raw water 62 to the aquaculture farm 50, A first step of setting a normal range temperature value of the raw water (62) flowing from the raw water supply source (60); A second step of measuring the water temperature of the raw water (62); A third step of determining whether the water temperature of the raw water 62 measured in the second step is within a normal range; A fourth step of feeding back to the second step when the water temperature of the raw water 62 is in the normal range in the third step; A fifth step of increasing the flow rate of the raw water 62 and feeding it back to the second step when the water temperature of the raw water 62 is higher than the maximum value in the normal range in the third step; And, And a sixth step of reducing the flow rate of the raw water 62 and feeding it back to the second step when the water temperature of the raw water 62 is lower than the minimum value of the normal range in the third step. Water temperature control system. The method of claim 1, wherein the raw water 62 flowing from the raw water supply source 60 sets a low temperature range lower than a normal range temperature value, and is abnormal when the water temperature of the raw water 62 is lower than a minimum value of the low temperature range. Generating a signal and stopping the system. The method according to claim 1 or 2, wherein the raw water 62 flowing from the raw water supply source 60 sets a high temperature range higher than a normal range temperature value, and the water temperature of the raw water 62 is the highest of the high temperature range. And generating an abnormal signal and stopping the system when it is higher than the value.