KR101866830B1 - Energy supply system using water curtain of cultivation under structure - Google Patents

Abstract

The present invention relates to an energy supply system for a plantation site utilizing water for water screen which supplied underground water to a water screen facility house through a channel connected to a water intake pipe. The system comprises: a settling tank; a plate type heat exchanger; a heat pump; a water screen supply pump; a reinjecting tube; and a branch valve. As a result, high efficiency energy can be secured at low cost, and economic efficiency of agricultural production at the plantation site can be enhanced ultimately.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to an energy supply system using a water-

The present invention relates to an energy supply system for a facility using a water supply system, and more particularly, to an energy supply system for a facility using a water supply system, and more particularly, The present invention relates to an energy supply system for a plantation site utilizing a water-for-water system.

Generally, as the farming market in Korea grows continuously with the change of the agricultural market and the government support policy is also increasing, the market size is continuously growing.

Various energy sources such as light oil, kerosene and gas such as fossil fuels such as fossil fuels and late-night electricity, waste solid materials and wood are used to meet crop growth conditions in the above-mentioned agriculture. However, in most facility cultivation areas, .

Here, the water for drinking water is mainly used for ground water, and the ground water is generally used for setting up the water tank around the facility and installing water pump to take water.

Groundwater is constantly being used as a main water source and heating source for the facility because of the constant temperature and quality of water. Generally, one or two plants are planted and operated. However, in spite of the large amount of energy (ground water heat) contained in the groundwater for the cultivation of water, most of it is lost through heat exchange with the cold air. Only about 17% of the heat contained in the water used in the water film is lost in the indoor air And 83% of the energy is lost to the outside, and the water film system is classified as a heating means, not a heating means.
The use of the water-based system can be said to be superior to other energy sources used in existing facilities such as fossil fuels, but the energy availability contained in groundwater is very low. Therefore, if the amount of groundwater heat energy used as the water supply water is increased, enormous energy saving effect can be obtained, so that the technology development is urgently required.

Meanwhile, FIG. 1 shows a constitution of a system for reclaiming water for a water-film cultivation facility house using groundwater heat disclosed in Korean Patent Registration No. 1557787 (Publication date: 2015.10.06).

That is, the system for recycling the water for the house in the water-growing plant using the groundwater is provided with a water-based water collection member 110 for collecting the water supply water supplied to the water-growing plant house, The water supply water flowing out of the water collecting tank 130 is introduced into the ground by the water supply pump 145 and the water supply pump 145 which discharge the water from the water contained in the water collecting tank 130 to the outside of the water collecting tank 130 And an injection conduit 160 for injection.

However, the system for recycling the water for the house using the groundwater in the conventional water-plant cultivation facility has the problem that the water used for thermal insulation in the water-growing facility house is collected by the water-based water collecting member and then filtered through the precipitation process in the collecting tank The groundwater in the water culture plant house is rapidly re-artificially cultivated by penetrating into the ground around the house of the water plant cultivation facility through the injection well and recovering the energy of the ground water contained in the ground water through the heat exchanger. In addition, there is a problem in that the groundwater is directly used as a water supply water, so that the thermal energy of the groundwater is wasted and energy of low efficiency is secured at a high cost.

Accordingly, in order to solve the above-mentioned problems, the present invention provides a method of recovering energy of underground water contained in ground water through a plate-type heat exchanger and utilizing the groundwater as a water- Of the total amount of energy to be added to the upper part of the inner membrane forming the water facility house to obtain energy at a high efficiency at a low cost and ultimately to improve the economical efficiency of the agricultural production at the facility, The goal is to provide a plantation energy supply system.

According to the present invention, there is provided an energy supply system for a facility using a water supply system for supplying groundwater pumped by a submersible pump provided in a groundwater tank set at a certain depth on the ground to a water- The system is characterized in that the entire outer wall is closed, a socket is provided on both side walls to form an inlet port, and a partition wall is installed at a predetermined interval in the inside, A sedimentation tank connected to the upper part of the water intake pipe with a flow path formed at an upper portion thereof; A plate type heat exchanger connected to one side of the settling tank for filtering the ground water that has passed through the settling tank, a plate type heat exchanger connected to one side of the filter and receiving the filtered groundwater from the filter, The circulating fluid 1 heat-exchanged from the plate heat exchanger is recovered and circulated through the circulation pump 1 disposed at one side and the heat pump to the plate heat exchanger through the flow path, and the circulating fluid 2 supplied to the heat pump is circulated (2) to the fan coil side installed in the water facility house by the pump (2), and then flows into the heat pump again along the flow path; A water film supply pipe for supplying ground water heat-exchanged from the plate type heat exchanger to a water film storage tank; a water film supply pump installed in the water film water supply pipe for flowing ground water into an upper portion of the inner film, Wow; A re-entrainment pipe branched from the water membrane water supply pipe, and a branch valve provided in the re-entrainment pipe.

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According to the present invention, since the water stored in the water membrane water storage tank is drained from the upper part of the inner membrane constituting the water membrane facility house through the water film supply pump, the outside temperature temperature transmitted to the inside of the water membrane facility house is blocked The temperature of the circulating fluid blown into the inside of the aeration facility by the fan coil is sprayed to the fan coil side so that the loss of about 83% of the ground water heat can be prevented and the groundwater can be used as a water heater It is also possible to utilize the groundwater heat contained in the groundwater through the plate type heat exchanger and use it as the water film water, so that about 83% of the energy that is wasted when using the water film additionally is extracted and injected into the water- It is possible to secure high-efficiency energy and ultimately, It has the effect of improving the economics of plantation agriculture production.

FIG. 1 is a block diagram of a system for recycling a water for a house using a groundwater column,
FIG. 2 is a piping diagram of a facility plant energy supply system utilizing the present invention water supply water,
3 is a perspective view showing a settling tank according to the present invention.

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

FIG. 2 is a piping diagram of an energy supply system for a facility using a water supply water according to the present invention, and FIG. 3 is a perspective view showing a settling tank according to the present invention.

Prior to detailed description of the present invention, the present invention relates to an energy supply system for a facility cultivation area utilizing a water supply water using a ground water as a water supply water, and the basic principle is that the ground water is not used as a water supply water, It can be used as a water membrane water after recovering energy through a plate heat exchanger. It provides a facility plant energy supply system that utilizes water water which can effectively use about 83% of energy that is wasted when using water water.

As shown in the drawing, the structure of the facility location energy supply system utilizing the water supply water related to the present invention is constructed from an underground water tank 1 closed from the ground surface by a manhole 5 to a predetermined depth, A sedimentation tank 22 provided at an upper portion of the water intake pipe 4 for removing sediments and the like of the gravel in the flow path and a sedimentation tank 22 for collecting the groundwater 3 pumped by the sedimentation tank 2, And a plate type heat exchanger 7 for receiving groundwater 3 filtered from the filtration filter 23 and exchanging heat with the filtered water.

The plate type heat exchanger 7 according to the present invention is provided with a water film water supply pipe 15 for supplying the heat exchanged ground water 3 to the water film water storage tank 13, A water film feed pump 14 is provided to flow from the water storage tank 13 to the upper portion of the inner film 16 between the inner film 16 and the outer film 17 constituting the facility house 30. The underground water 3 flowing into the upper part of the inner membrane 16 flows out to the outside through a separate drainage pipe (not shown) And a branch valve 26 is provided in the water film water supply pipe 15 and the re-entrainment pipe 20, respectively.

On the other hand, the circulating fluid 1 heat-exchanged from the plate-type heat exchanger 7 passes through the circulation pump 1 (8) provided at one side through the passage 18 and the heat pump 9 installed at one side thereof, The circulating fluid 2 supplied from the heat pump 9, that is, the water film water, is circulated through the channel 19 by the circulation pump 2 (10) to the inside of the aeration facility house 30 The fan coil 11 installed inside the inner film 16 heats and water the water for the inside of the water film house facility 30.

The plate heat exchanger 7 according to the present invention constructed as described above recovers the heat of the groundwater 3 pumped by the water pump 2 and the water intake pipe 4 installed in the groundwater tank 1 to perform heat exchange, The heat exchanger 7 serves to exchange energy in the heat pump 9 through functions such as compression, condensation, expansion and evaporation and serves as a heat pump 9 and a circulating pump 1 (8) 7) to circulate continuously and repeatedly.

The circulating fluid 2 having the energy exchanged by the plate heat exchanger 7 and the heat pump 9 is circulated by the circulation pump 2 through the flow path 19 to the inside of the aeration facility house 30 The air is supplied to the upper portion of the membrane 16 to cool and heat the inside of the membrane facility house 30 and then to be returned to the heat pump 9 and then supplied again to the upper portion of the inner membrane 16 of the membrane facility house 30.

The groundwater 3 heat-exchanged in the plate heat exchanger 7 is stored in the water film water storage tank 13 by the operation of the automatic valve 12 of the water film water supply pipe 15 and stored in the water film water storage tank 13 The groundwater is caused to flow over the inner membrane 16 between the outer membrane 17 and the inner membrane 16 constituting the water facility home 30 by the water film supply pump 14. [
The operation of any one of the branch valve 26 provided in the water film water supply pipe 15 and the re-entrainment pipe 20 according to the present invention can utilize or discharge the water, and any one of the branch valves 26 can be operated The groundwater can be re-injected into the re-entrainment pipe 20 and the injection well 21.

The ground water stored in the water membrane water storage tank 13 is heated by the water film supply pump 14 as needed, Flows out from the space between the membrane 16 and the outer membrane 17 while flowing over the inner membrane 16 in the form of spillage and spraying while blocking the outside air temperature that is transferred to the inside of the aeration facility house 30 through the outer membrane 17 Groundwater is drained to the outside through a drainage channel.
The temperature of the circulating fluid 2 in the flow passage 19 supplied to the inside of the aeration facility housing 2 by the circulation pump 2 according to the present invention and sprayed toward the fan coil 11 is lowered by the water film supply pump 14 The fan coil 11 is sprayed toward the fan coil 11 because it blocks the temperature of the outside air that is transferred to the inside of the aeration facility house 30 through the outer film 17 while flowing over the inner film 16 of the aerator facility house 30. [ The temperature of the circulating fluid 2 blown into the water-facility house 30 does not change, so that a loss of about 83% of the ground water heat is prevented and used as a heating means.

It is possible to simplify the groundwater 3 pumped in the groundwater refill 1 by bonding the groundwater 3 directly to the heat pump 9 without passing through the plate heat exchanger 7 but to reduce the life time of the heat pump 9 It is preferable to arrange the plate-type heat exchanger 7 in consideration of the possibility of shortening the length of time. The plate heat exchanger 7 is circulated through the heat exchanger 7 and the heat pump 9 by the circulation pump 1 so that the heat exchange is performed by the temperature difference between the circulating fluid 1 passing through the flow path 18 and the groundwater 3, .

In this case, since the piping connecting the underground water reservoir 1 and the plate heat exchanger 7 connected with the groundwater heat exchanger 7 may precipitate precipitates or accumulate sediments or the like due to the water quality characteristics of the ground water, And the filtration filter 23 is installed at a subsequent stage to set the fine particles 22 remaining in the groundwater passing through the settling device 22, To remove the soil. A socket 25 or the like is provided on the inlet and outlet of the sedimentation device 22 and the filtration filter 23 so as to be easily separated and replaced.

The heat pump 9 according to the present invention is provided with the heat pump 9 for circulating the circulating fluid 1 and the temperature difference inside the flow path 19 for circulating the circulating fluid 2 through the heat pump 9 and the fan coil 11 The circulating fluid 2 flowing through the inside of the flow passage 19 is circulated through the circulation pump 10 and the circulating fluid 2 heat-exchanged by the heat pump 9 is circulated through the inner membrane The air in the aeration facility house 30 and the circulating fluid 2 passing through the flow passage 19 are exchanged with each other to cool or heat the aeration facility house 30 Role.

Here, the role of performing the cooling and heating of the aeration facility house 30 may be applied to a circulating fluid (water, etc.) → circulating fluid (water etc.) without the fan coil 12.

The underground water 3 pumped in the underground water reservoir 1 can be adjusted in the level of the tank by installing an automatic valve 12 which is opened and closed by sensing the water level of the water film storage tank 13. Then, the groundwater (3) is heat-exchanged without using water as a membrane water, and then re-injected into the groundwater tank (1) through the injection pipe (20) And may be modified according to various conditions, such as by using the heat-exchanged ground water as various kinds of water or discharging it directly to a drainage line. In this case, the groundwater 3 pumped up by the operation of the diverter valve 26 is discharged It can be used as water.

As used herein, the terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor shall properly define the concept of the term to describe its invention in the best possible way It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, various equivalents It should be understood that water and variations may be present.

1: Groundwater purification
2: Submerged pump
3: Groundwater
4: Water intake pipe
7: Plate Heat Exchanger
8: Circulation pump 1
9: Heat pump
10: circulation pump 2
11: Fan coil
12: Automatic valve
13: Water tank water storage tank
14: Water supply pump
15: water supply pipe
16: inner membrane
17: outer membrane
18: Euro
19: Euro
20: Re-entry
21: Injection tablets
22: Settling tank
23: Filtration filter
24:
24a: Euro
25: Socket
30: Menstruation facility house

Claims (2)

A water supply system for supplying groundwater 3 pumped by an underwater pump 2 provided in a groundwater tank 1 set at a predetermined depth on the ground to a water facility house 30 through a channel connected to the water intake pipe 4, In an energy supply system for a facility cultivation area utilizing the above-
The partition wall 24 is provided with a socket 25 on both side walls to form an inlet and an outlet, and the partition wall 24 is installed at a predetermined interval. A sedimentation tank 22 connected to the upper portion of the water intake pipe 4 and having a flow path 24a formed on one lower portion and the other upper portion;
A filtering filter 23 connected to one side of the settling tank 22 to filter groundwater that has passed through the settling tank 22 and a groundwater filter 23 connected to one side of the filtering filter 23, A plate heat exchanger (7) for receiving and exchanging heat with the heat exchanger (3);
The circulating fluid 1 heat-exchanged from the plate heat exchanger 7 is recycled and circulated to the plate heat exchanger 7 via the circulation pump 1 8 and the heat pump 9 installed at one side through the flow path 18 And the circulating fluid 2 supplied to the heat pump 9 is supplied to the fan coil 11 side provided inside the aeration facility house 2 by the flow path 19 and the circulation pump 2 10, ) To flow into the heat pump (9) again;
A water film water supply pipe 15 for supplying the ground water 3 heat-exchanged from the plate heat exchanger 7 to the water film water storage tank 13 and a water film water supply pipe 15 installed in the water film water supply pipe 15, A water film supply pump (14) for flowing the inner film (16) and the outer film (17) over the inner film (16);
Further comprising a re-entrainment pipe (20) branched from the water membrane water supply pipe (15) and each branch valve (26) installed in the re-entrainment pipe (20) system.

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