KR102539454B1 - Heat exchange apparatus for odor removing system - Google Patents

Abstract

The present invention relates to a heat exchanger for an odor removal system, comprising: a guide duct 10 for guiding hot gas; a heat exchange unit 20 for exchanging heat with the guided high-temperature gas at a low temperature; a low-temperature gas supply unit 30 supplying low-temperature gas to the heat exchange unit; and a discharge unit 40 for discharging the low-temperature gas heat-exchanged in the heat exchange unit to the outside, wherein the heat exchange unit is disposed on one side of the low-temperature gas supply unit and supplies cooling water to the low-temperature gas ascending through the upright pipe. It is characterized in that a cooling water supply unit 60 is further provided so that the primary heat exchange is preceded. Therefore, after preparing the low-temperature gas supply unit in which the thin upright pipes are densely arranged, the low-temperature air flows into the inner space of the upright pipes and the high-temperature air flows between the outer circumferences to maximize the contact area between them. As a result, it is possible to improve the heat exchange efficiency as well as to increase the reliability of the device accordingly, and also arrange a separate cooling water supply unit adjacent to the low-temperature gas supply unit so that heat exchange is performed while appropriately adding and subtracting cooling water for each season, As a result, it is possible to maximize energy efficiency by season, and thus, it is possible to obtain effects such as being able to seek improvement in product competitiveness.

Description

Heat exchanger for odor removal system {HEAT EXCHANGE APPARATUS FOR ODOR REMOVING SYSTEM}

The present invention relates to a heat exchanger for an odor elimination system, and more particularly, by providing a watering unit or a cooling water supply unit together with a low-temperature gas supply unit in the heat exchange unit so that high-temperature gas introduced from the outside is divided by season and heat exchange is selectively performed. It relates to a heat exchanger for an odor removal system.

In general, among the methods commonly used for gas treatment of deodorizers, there are gas adsorption method, ozone oxidation method, biological treatment method using bio media, air cooling treatment method, thermal incineration treatment method, and cooling treatment method using a refrigerator. It is reported that the lack of facilities and the deodorizing effect of the existing deodorizer facilities are low, so the development of odorous substance deodorization technology is urgent.

In addition, among the methods introduced in Korea, the activated carbon adsorption method has different deodorizing power depending on the adsorbent, and the chemical liquid cleaning method has low facility and operating costs, but has a narrow application range and generates wastewater. It is large and requires warmth.

In addition, the gas generated in the process of food processing contains not only odor-generating substances but also moisture. Therefore, technical development of a processor that effectively removes a gas mixed with water vapor and odor is an important issue.

Odors generated from factories, wastewater treatment plants, wastewater treatment plants, animal sheds, and waste treatment facilities in industrial complexes not only cause discomfort to workers in the workplace but also nearby residents, and emit substances harmful to the human body. Currently, eight items are regulated in Korea, including hydrogen sulfide, metal mercaptan, ammonia, metal sulfide, methyl disulfide, trimetalami, acetaldehyde, and styrene. and may cause discomfort depending on the concentration.

As an example of various conventional technologies for removing such odor, an air purifying room having an inlet in which a sealed internal space is partitioned and turbid indoor air flows in, communicates with the air purifying room through an opening, and the other side of the opening First and second heat exchange rooms equipped with an exhaust port and a first blower fan, a cooling/heating room provided on one side of the first heat exchange room and having an outlet for introducing conditioned outdoor air into the room and a second blower fan. body case; A heat exchanger for reducing odor by bringing indoor air in the first and second heat exchange rooms into thermal contact with outdoor air introduced from the outside and inputting the heat-exchanged outdoor air into the heating/cooling room. there is.

However, because of the heat exchange method through the heat exchange room of the prior art, the heat exchange efficiency is lowered because the area of thermal contact between them is remarkably low. There were problems such as having a seasonal limit of

Republic of Korea Patent Publication No. 10-2008-0051253

The present invention has been made to solve this problem, after providing a low-temperature gas supply unit in which thin upright pipes are densely arranged, low-temperature air flows into the inner space of these upright pipes and high-temperature air flows between the outer periphery Its purpose is to provide a heat exchanger for an odor removal system that maximizes the contact area between them.

Another object of the present invention is to provide a heat exchanger for an odor removal system in which a separate watering unit or a cooling water supply unit is disposed adjacent to a low-temperature gas supply unit so that heat exchange is performed while adding and subtracting cooling water seasonally.

Such a heat exchanger for an odor removal system according to an embodiment of the present invention includes a guide duct for guiding hot gas; a heat exchange unit for exchanging heat with the guided high-temperature gas at a low temperature; a low-temperature gas supply unit supplying low-temperature gas to the heat exchange unit; and a discharge unit for discharging the low-temperature gas heat-exchanged in the heat exchange unit to the outside, wherein the heat exchange unit has an inner space in which the low-temperature gas supply unit is disposed, and an intake port communicating with the guide duct is provided on one wall surface of the heat exchange unit. , An exhaust port communicating with the discharge unit is provided on the other wall surface, an inlet through which low-temperature gas is introduced is provided on the bottom surface, and the low-temperature gas supply unit is spaced apart from each other in the internal space of the heat exchange unit and arranged upright with each other. a plurality of upright pipes that allow the hot gas of the guide duct to pass through gaps between the pipes and have lower ends communicating with the inlet; a fixed perforated plate for fixing the upright pipes to the inner space of the heat exchange unit by connecting upper ends of the upright pipes in an upwardly penetrating state; and a suction fan communicating with the upper end of the upright pipe to suck the low-temperature gas through the inlet into the upright pipe and transport it upward, wherein the heat exchange unit is disposed on one side of the low-temperature gas supply unit and is disposed in an internal space of the heat exchange unit. A watering unit is further provided to spray cooling water and exchange heat with the hot gas introduced through the guide duct. The watering unit is disposed on one side of the upright pipe in correspondence with the plurality of upright pipes of the low temperature gas supply unit a plurality of cooling pipes; an intermediate connection pipe connected in communication with the lower end of the cooling pipe; and a water tank connected to the intermediate connection pipe and storing cooling water supplied to the cooling pipe through a water spray pump, wherein the cooling pipe is spaced apart from the upright pipe by a predetermined distance in an empty space of the internal space of the heat exchange unit. A sprinkler is further provided for watering to be performed, and a plurality of the cooling pipes correspond to the plurality of upright pipes, and the sprinkler is arranged so that watering proceeds toward the intake port, which is a front spaced apart from the upright pipe by a predetermined distance, The plurality of cooling pipes are composed of a plurality of upright pipes and a pair of cooling pipe groups alternately arranged with the plurality of upright pipes and spaced apart from each other by a predetermined distance along the traveling direction of the hot gas, and the plurality of intermediate connecting pipes It is characterized in that a single branch body is provided between the water pump and each of the intermediate connection pipes to communicate downwardly in the front and rear.

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In addition, in the heat exchanger for an odor removal system according to an embodiment of the present invention, in the water tank, the water sprayed from the cooling pipe performs heat exchange with the hot gas, and then is collected back into the water tank and continuously circulated. It may have a width equal to the width of the arrangement of the cooling pipes.

In addition, in the heat exchange device for an odor removal system according to an embodiment of the present invention, the heat exchange unit is disposed on one side of the low-temperature gas supply unit and supplies cooling water to the low-temperature gas rising along the upright pipe for primary heat exchange. A cooling water supply unit may be further provided to allow this to precede.

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In addition, in the heat exchanger for an odor removal system according to an embodiment of the present invention, the cooling water supply unit may include a cooling pipe disposed on one side of the upright pipe of the low-temperature gas supply unit; an intermediate connection pipe connected in communication with the lower end of the cooling pipe; and a water tank connected to the intermediate connection pipe and storing cooling water supplied to the cooling pipe through a cooling water pump and then injected into the upright pipe.

In addition, in the heat exchange device for an odor removal system according to an embodiment of the present invention, the cooling water supply unit is connected to the upright pipes in a state in which upper ends of the upright pipes pass through upwardly through a through hole, so that the upright pipes are connected to the inner space of the heat exchange unit. Perforated bottom plate fixed to; and a wall that is upright at the edge of the perforated bottom plate and confines the cooling water supplied from the cooling pipe to be stored.

In addition, in the heat exchanger for an odor removal system according to an embodiment of the present invention, the upright pipes of the cooling water supply unit protrude upward at a predetermined height from the perforated bottom plate through the through hole, so that the cooling water from the cooling pipe The perforated bottom plate may be firstly filled with an upward protrusion for allowing the additionally supplied cooling water to be introduced into the entirety of the upright pipe through the top through hole of each of the upright pipes.

In addition, in the heat exchanger for an odor elimination system according to an embodiment of the present invention, the cooling water supply unit is configured to guide the cooling water discharged from the lower end of the upright pipe between the upright pipe and the water tank to the water tank. A drain guider may be further provided.

In the heat exchanger for an odor removal system, which is an embodiment of the present invention described above, after providing a low-temperature gas supply unit in which thin upright pipes are densely arranged, low-temperature air flows into the inner space of the upright pipes, and between these outer circumferences allows high-temperature air to flow so that the contact area between them is maximized, and as a result, it is possible to obtain effects such as improving heat exchange efficiency and providing reliability of the device accordingly.

In addition, by arranging a separate watering unit or cooling water supply unit adjacent to the low-temperature gas supply unit, heat exchange is performed while adding and subtracting cooling water appropriately for each season. As a result, it is possible to maximize energy efficiency for each season, thereby improving product competitiveness. You can achieve the effect of being able to achieve.

1 is a schematic perspective view showing a heat exchanger for an odor removal system according to an embodiment of the present invention.
2 is a schematic side view showing a heat exchanger for an odor removal system according to an embodiment of the present invention.
3 is a schematic plan view showing a heat exchanger for an odor removal system according to an embodiment of the present invention.
4 is a schematic front view showing a spraying part of a heat exchanger for an odor removal system according to an embodiment of the present invention.
5 is a schematic perspective view showing a heat exchanger for an odor removal system according to another embodiment of the present invention.
6 is a schematic side view showing a heat exchanger for an odor removal system according to another embodiment of the present invention.

1 to 4, a heat exchanger for an odor removal system according to an embodiment of the present invention includes a guide duct 10, a heat exchanger 20, a low-temperature gas supply unit 30, , and includes a discharge unit 40.

The guide duct 10 has a tubular structure that guides the high-temperature gas to the heat exchange unit 20 .

The heat exchange unit 20 serves to perform a function of heat-exchanging the guided high-temperature gas to a low temperature, and the heat exchange unit 20 has an inner space 21 in which the low-temperature gas supply unit 30 is disposed, and one side An intake port 22 communicating with the guide duct 10 is provided on the wall, an exhaust port 23 communicating with the discharge unit 40 is provided on the other wall, and an inlet 24 through which low-temperature gas flows into the bottom surface It has a box structure provided with.

The low-temperature gas supply unit 30 supplies low-temperature gas to the heat exchange unit 20, and the low-temperature gas supply unit 30 is spaced apart from each other at a predetermined interval in the inner space 21 of the heat exchange unit 20. A plurality of upright pipes 31 having lower ends communicating with the inlet 24 and allowing the hot gas of the guide duct 10 to pass through gaps between each other in the upright arrangement state, and the upright pipes 31 The inlet 24 communicates with the fixed perforated plate 32 and the upper end of the upright pipe 31 connected in a state in which the upper end is penetrated upward to fix the upright pipes 31 to the inner space of the heat exchange unit 20 It has a structure including a suction fan 33 that sucks the low-temperature gas through the upright pipe 31 and transfers it upward.

Here, the low-temperature gas supply unit 30 is disposed at the front and rear sides at a predetermined distance along the longitudinal direction in which the hot gas proceeds, and has a space between them, so that it is useful for space utilization for maintenance in the future. would be preferable

In addition, the heat exchange unit 20 is disposed on one side of the low-temperature gas supply unit 30 and sprays cooling water into the inner space 21 of the heat exchange unit 20 so that the high temperature introduced through the guide duct 10 A spraying unit 50 is provided to allow heat exchange with gas.

Here, the watering unit 50 corresponds to the plurality of upright pipes 31 of the low-temperature gas supply unit 30 and a plurality of cooling pipes 51 disposed on one side of the upright pipe 31, and the cooling An intermediate connection pipe 52 communicated with the lower end of the pipe 51 and a water tank connected to the intermediate connection pipe 52 and storing cooling water supplied to the cooling pipe 51 through a water spray pump 53. It has a structure including (54).

In addition, the cooling pipe 51 communicates with the upper end of the water spray 55 to perform watering to the empty space of the inner space 21 of the heat exchange unit 20 spaced apart from the upright pipe 31 by a predetermined distance. This is provided.

In addition, the water tank 54 is provided with the cooling pipe 51 so that the water sprayed from the cooling pipe 51 exchanges heat with the hot gas, and then is collected in the water tank 54 and continuously circulated. It has a structure having a width as wide as the width of the arrangement.

The discharge unit 40 discharges the low-temperature gas whose temperature is lowered by heat exchange in the heat exchange unit 20 to the outside, and has a plurality of filters 41 on one side.

An example of use of the heat exchanger for an odor removal system according to an embodiment of the present invention according to this configuration is as follows.

First, in the case of the winter season by season, high-temperature gas is injected into the guide duct 10, and at the same time, the low-temperature gas is supplied to each upright pipe 31 of the low-temperature gas supply unit 30 of the heat exchange unit 20 by the suction fan 33. is transported upward along

Then, the high-temperature gas injected into the heat exchange unit 20 through the guide duct 10 passes between the plurality of upright pipes 31 while progressing in the horizontal direction, and at the same time, the low-temperature gas passes through the plurality of upright pipes 31. It rides inside the pipe 31 and moves upward.

At this time, the high-temperature gas from the guide duct 10 exchanges heat with the low-temperature gas of the upright pipe 31 and passes through the heat exchange unit 20, the temperature drops to a desired level, passes through the filter 41, and then discharges to the discharge unit 40. is discharged to the outside through

In this way, heat exchange is performed only by the hot gas and the low-temperature gas in the winter season, so that the temperature of the hot gas can be lowered.

On the other hand, in the case of the summer season, in addition to the low-temperature gas through the upright pipe 31, watering is performed through a separate watering unit 50.

That is, when the water spray pump 53 is operated, the cold water in the water tank 54 is branched to each cooling pipe 51 through the intermediate connection pipe 52 and then transported upward, so that water can be sprayed downward from the water spray front 55. It is done.

At this time, the water spray faucet 55 can spray into the empty space inside the heat exchange unit 20 where the upright pipe 31 is not disposed with its end separated from the nearby upright pipe 31 by a predetermined distance. Accordingly, the high-temperature gas from the guide duct 10 primarily exchanges heat with the cooling water, and subsequently passes through the gap between the upright pipes 31 of the low-temperature gas supply unit 30 disposed on the side. While heat is exchanged with the low-temperature gas secondarily, exhaust gas having a desired temperature can be obtained here as well.

In addition, the cooling water sprayed from the spray front 55 of the spray unit 50 falls downward and is collected in the water tank 54 disposed on the ground, and then through the spray pump 53 to the intermediate connection pipe 52 The process of being supplied to the cooling pipe 51 is continuously repeated so that the heat exchange with the hot gas is continuously performed.

In this way, the desired exhaust gas temperature can be obtained only by heat exchange between the hot gas and the low-temperature gas in the winter season, and the desired exhaust gas temperature is obtained by heat exchange through cooling water in addition to the hot gas and low-temperature gas in the summer season. temperature can be obtained.

Meanwhile, as another embodiment of the present invention, as shown in FIGS. 5 and 6, the heat exchange unit 20 is disposed on one side of the low-temperature gas supply unit 30 and rises along the upright pipe 31. A cooling water supply unit 60 is provided to supply cooling water to the low-temperature gas so that primary heat exchange precedes it.

Here, the cooling water supply unit 60 is an intermediate connection connected to the cooling pipe 61 disposed on one side of the upright pipe 31 of the low-temperature gas supply unit 30 and the lower end of the cooling pipe 61 in communication. A water tank 64 connected to the pipe 62 and the intermediate connecting pipe 62 and storing the cooling water supplied to the cooling pipe 61 through the cooling water pump 63 and then injected into the upright pipe 31 It has a structure that includes

In addition, in the cooling water supply unit 60, the upright pipes 31 are connected to each other in a state in which their upper ends pass upwardly through the through holes 65a1 so that the upright pipes 31 are connected to the internal space of the heat exchange unit 20 ( 21) Upright opening including a perforated bottom plate 65a fixed to the perforated bottom plate 65a and a wall 65b that is upright on the entire rim of the perforated bottom plate 65a and confined so that the cooling water supplied from the cooling pipe 61 is stored A cooling water container 65 having a square box shape is provided.

In addition, the upright pipes 31 of the cooling water supply unit 60 protrude upward at a predetermined height from the perforated bottom plate 65a through the through hole 65a1, so that the cooling water from the cooling pipe 61 flows through the perforated holes. The bottom plate (65a) is first evenly filled, and then additionally supplied cooling water is introduced into the whole of the upright pipes (31) through the top through holes of each of the upright pipes (31). has been

In addition, the cooling water supply unit 60 is a drain guide for guiding the cooling water discharged to the lower end of the upright pipe 31 between the upright pipe 31 and the water tank 64 to the water tank 64. (66) is provided.

A use example of a heat exchanger for an odor removal system, which is another embodiment of the present invention according to this configuration, is as follows.

Here, in the summer season, cooling water is supplied through a separate cooling water supply unit 60 in addition to the low-temperature gas through the upright pipe 31 .

That is, when the cooling water pump 63 is operated, the cooling water in the water tank 64 is transported upward along the cooling pipe 61 through the intermediate connection pipe 62, and the cooling water is transferred from the faucet 61a to the inside of the cooling water container 65. spraying takes place

Then, the cooling water ejected from the faucet 61a of the cooling water supply unit 50 falls on the perforated bottom plate 65a of the cooling water container 65, and the water is filled up to the height of the upward protrusion 31 of the upright pipe 31. When the height of the upwardly protruding part 31 is exceeded by the continuous supply of cooling water, the cooling water is injected into the inside of the upright pipe 31 through the top through hole of each upright pipe 31 and is primarily heated with the rising low-temperature gas. exchange takes place.

And, after heat exchange, the cooling water discharged to the outside through the lower end of the upright pipe 31 is collected in the water tank 64 disposed on the ground along the drain guider 66 and then passed through the cooling water pump 63 to the middle The process of being supplied to the cooling pipe 61 via the connection pipe 62 is continuously repeated so that heat exchange with the hot gas is continuously performed.

As described above, in the heat exchanger for an odor removal system according to an embodiment of the present invention, after providing a low-temperature gas supply unit in which thin upright pipes are densely arranged, low-temperature air flows into the inner space of the upright pipes and between these outer circumferences allows high-temperature air to flow so that the contact area between them is maximized, and as a result, it is possible to improve the heat exchange efficiency as well as to impart reliability of the device accordingly.

In addition, by arranging a separate watering unit or cooling water supply unit adjacent to the low-temperature gas supply unit, heat exchange is performed while adding and subtracting cooling water appropriately for each season. As a result, it is possible to maximize energy efficiency for each season, thereby improving product competitiveness. will be able to devise

As described above, one embodiment of the present invention has been described, but based on this, those skilled in the art can add, change, Various modifications and changes may be made to the present invention by deletion or addition, and this will also be included within the scope of the present invention.

10: guide duct 20: heat exchange unit
21: inner space 22: intake
23: exhaust port 24: inlet port
30: low-temperature gas supply unit 31: upright pipe
32: fixed perforated plate 33: suction fan
40: discharge unit 41: filter
50: watering unit 51: cooling pipe
52: intermediate connection pipe 53: watering pump
54: water tank 55: water spray
57: single branch body
60: cooling water supply unit 61: cooling pipe
62: intermediate connecting pipe 63: cooling water pump
64: water tank 65: cooling water container
65a: perforated bottom plate 65a1: through hole
65b: wall 66: drain guider

Claims (6)

a guide duct for guiding hot gas;
a heat exchange unit for exchanging heat with the guided high-temperature gas at a low temperature;
a low-temperature gas supply unit supplying low-temperature gas to the heat exchange unit; and
a discharge unit for discharging the low-temperature gas heat-exchanged in the heat exchange unit to the outside;
including,
The heat exchange unit has an inner space in which the low-temperature gas supply unit is disposed, an intake port communicating with the guide duct is provided on one wall surface, an exhaust port communicating with the discharge unit is provided on the other wall surface, and low-temperature gas flows into the bottom surface of the heat exchange unit. An inlet is provided,
The low-temperature gas supply unit may include a plurality of upright pipes that allow the high-temperature gas of the guide duct to pass through gaps between each other in an upright arrangement spaced apart from each other in the internal space of the heat exchange unit and have lower ends communicating with the inlet; a fixed perforated plate for fixing the upright pipes to the inner space of the heat exchange unit by connecting upper ends of the upright pipes in an upwardly penetrating state; And a suction fan communicating with the upper end of the upright pipe to suck the low-temperature gas through the inlet into the upright pipe and transfer it upward,
The heat exchange unit is further provided with a water spray unit disposed on one side of the low-temperature gas supply unit to spray cooling water into an inner space of the heat exchange unit so that heat exchange with the hot gas introduced through the guide duct is performed,
The watering unit may include a plurality of cooling pipes disposed on one side of the upright pipes corresponding to the plurality of upright pipes of the low-temperature gas supply unit; an intermediate connection pipe connected in communication with the lower end of the cooling pipe; And a water tank connected to the intermediate connection pipe and storing cooling water supplied to the cooling pipe through a water spray pump;
The cooling pipe is further provided with a sprinkling pipe for performing watering to an empty space of the inner space of the heat exchange unit spaced apart from the upright pipe by a predetermined distance,
The plurality of cooling pipes correspond to the plurality of upright pipes, and the water spraying front is arranged so that watering proceeds toward the intake port, which is a front spaced apart from the upright pipes by a predetermined distance,
The plurality of cooling pipes are composed of a plurality of upright pipes and a pair of cooling pipe groups alternately arranged with the plurality of upright pipes and spaced apart from each other by a predetermined distance along the traveling direction of the hot gas,
A heat exchange device for an odor removal system, characterized in that a single branch body is provided between the plurality of intermediate connecting pipes and the watering pump so that each of the intermediate connecting pipes is downwardly inclined from the front and rear to communicate.

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