KR20000054562A - Air conditioner for removing air pollutants by the water spray system - Google Patents

Abstract

PURPOSE: An air conditioner for removing harmful substances by a water spray system is provided to remove dust and gas from water by surface tension of water without any chemical change by forming 3-step chambers with first and second water spray systems. CONSTITUTION: An air conditioner for removing harmful substances by a water spray system includes a dust collecting part(3) having a first water spray type dust collecting part(3a) and a second water spray type dust collecting part(3b) formed by stacking injection nozzles(9) with a predetermined gap for oppositely injecting water with upper and lower angles of 30 degree, and a space water spray type dust collecting part(3c) formed between the first and second water spray part for absorbing, dissolving and settling dust or gas by vapour-liquid contact three times, and a vapour-liquid separation part(4) formed in a groove type by 6-step folding in a lamella structure with an angle of 90 degree in view of air resistance for passing only air but recovering water drops.

Description

Air conditioner for removing air pollutants by the water spray system

The present invention relates to an air conditioning apparatus for removing harmful substances by a water film collecting device, and more particularly, to an apparatus for removing dust, gas, and various harmful substances distributed in the outside air and supplying them to a room.

As is well known, many types of devices for purifying air have been developed and used. Generally, a filter is used. However, the filter is used to remove foreign substances such as dust, It is difficult to properly remove a gas having the same ultrafine particles, and more advanced methods are known to burn the plasma generator or generate an electron beam.

In addition, various apparatuses for removing harmful gases by spraying water have been developed, and the most recently developed methods include Japanese Patents; Publication No. 2000-42338 (February 15, 12, AD 2000, 2, 15) The "air purification method and air purification device" is known, the method described above is a basic configuration with existing water spray systems Similarly, as shown in FIG. 4, a filter 102 is built in one side of the air duct 101, a spray nozzle 103 of one side injection type is installed in the center, and a zigzag collision plate is provided on the other side. Arrange the 104 so that the sprayed water may collide and be dispersed in a particulate state, and a recovery tank 105 may be installed on the bottom surface of the lower surface where water droplets may form, and then may be injected through the pump 106 and the cooler 107. The nozzle 103 may be re-injected, and the cooling coil 108 and the blowing fan 109 may be installed on the discharge side to discharge the purified air to the outside.

In the preceding design of the above configuration, a water injection recycling system, a blower fan, a filter, a cooling coil, and the like are a general form of a water injection type dust collector, and the impingement plate 104 provided with a zigzag of water injected from the injection nozzle 103 is provided. In this structure, the impingement plate 104 is zigzag to block the flow path of the air, so that it has a high resistance, thereby preventing smooth air flow. As a result of measuring the purified air due to chemical changes occurring while destroying molecules, contamination of more than the standard value resulted.

Therefore, high pressure injection for collision and a large-capacity blower fan for forced blowing are required, resulting in various disadvantages such as high maintenance costs. In addition, in general air conditioning, the use of a chemical filter, etc., in addition to the filter has a problem that the structure of the device is complicated, and maintenance and management are difficult.

The present invention has been made in view of the above drawbacks, and separates the dust collector and the gas-liquid separator in the interior of the air duct, the dust collector is the first water film collector and the second water film collector of the opposite water spray method And spaced film dust collector formed as a gap between them to adsorb and dissolve air and dust in the air by the surface tension of water through three-dimensional gas-liquid contact so that it can be precipitated and purified. It is formed into a curved type, and it is purified by air-liquid contact, so that the air in the humid state passes through it, the air passes through, and the water particles collide with the groove bonding wall to separate the air and water particles. Because the air resistance is not large, air flow is smoothly maintained even with a small blower fan. In addition, since the injection pressure of the water does not have to be large, it is possible to provide the optimal air purification system that is environmentally friendly because it maintains the natural state without any artificial change such as chemical change while significantly reducing maintenance costs.

1 is a cross-sectional view of the present invention air conditioner

2 is a side cross-sectional view of the air conditioning apparatus of the present invention.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a side cross-sectional view of the preceding design.

<Explanation of symbols for the main parts of the drawings>

1-gas 2-louver

3-dust collector 4-gas-liquid separator

5-Water Tank 6-Pump

7-Blower 9-Nozzle

10-Cooling Coil 11-Heating Coil

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

The basic configuration of the present invention is a water jet preventing louver (2), a dust collector (3), a gas-liquid separator (4), a water tank (5) inside the duct-like gas 1 through which air passes; The pump 6 and the blower 7 are comprised. The dust collecting part 3 is composed of a primary water film collecting part 3a, a second water film collecting part 3b, and a space water film collecting part 3c formed as a gap between them, each of which is a pipe pipe. It is a combination of (8) and nozzle (9) to unitize the pipe in the horizontal configuration to unitize the dust collector, so that the multi-stage installation can be configured. At this time, the injection direction of the nozzle (9) is installed so as to inject at an angle of 30 ° up and down, respectively, so that no gas-liquid contact is made and there is no air passing through, each unit from the gas (1) It is installed so that it can be removed.

The gas-liquid separator 4 is a device that separates water particles and air, and is installed in a groove engaging type to prevent a loss of static pressure and to smooth the flow of air.

Groove type step (groove type) is basically a groove joint type bent in six steps in the 90 ° direction is fixed to the base (1) by installing the interval of each unit 15m / m.

The pump 6 is installed to correspond to a pressure of 1.2 to 1.5 kg / cm 2 corresponding to the total flow rate of the nozzle 9, and to be installed inside to unitize the gas 1 without installing it outside. will be.

The water tank 5 is installed with an additional capacity of 30% or more to the flow rate circulated by spraying once basically corresponding to the total flow rate of the nozzle 9, so that water is automatically introduced by the amount consumed by evaporation of water. It is installed.

In addition, the cooling coil 10 and the heating coil 11, which are the basis of the air conditioning apparatus, were installed at the rear end of the gas-liquid separator, and the capacity was selected to control the humidity and the temperature, respectively.

The blower 7 is installed at the rear end of the body 1 and is installed inside to reduce noise. The blower 7 is difficult to maintain the overall system due to the high wind speed when installed in the front of the gas (1). The outlet 12 is connected to the air supply of the purified air is optimally supplied to the room to further improve the cleanliness of the room can be used by connecting the outlet of the room to the circulation duct (13).

Referring to the operation of the present invention configured as described above, the injection pressure of the water supplied to the primary water film dust collector (3a) and the secondary water film dust collector (3b) is injected at a pressure of 1.2 ~ 1.5kg / ㎠, the speed of the incoming air Is introduced at a speed of 2 to 2.5 m / sec. In addition, the passage surface of the primary water film dust collector 3a and the secondary water film dust collector 3b is 60 cm, respectively, and a filter film of water is formed in the primary water film dust collector chamber by the injection pressure of water sprayed from the primary water film dust collector. At this time, gas-liquid contact occurs as air passes. As the gas-liquid contact proceeds as described above, dust and various gas components and harmful substances in the air are removed. The air purified by the primary film collecting part 3a is formed in the space film collecting part 3c formed in the space (cross section 20 cm) between the primary film collecting part and the secondary film collecting part before reaching the secondary film collecting part 3b. Through the filter membrane of the water to be introduced into the secondary water film dust collector (3b), the second water film dust collector is passed in the same manner as in the primary water film dust collector, it is possible to increase the maximum gas-liquid contact efficiency.

The air passing through the first and second water film dust collectors passes through the filter membrane of water three times substantially, thereby obtaining the maximum effect of removing various harmful substances in the air. Air passing through the first and second water film collectors flows into the gas-liquid separator 4, where air and water particles introduced into the gas-liquid separator 4 are groove-engaged junction-type gas-liquid separators. Air passes through and the water particles collide with the groove joining wall to separate the air and water particles. The air passing through the gas-liquid separator maintains moisture at 80 to 85% RH. Where industrial humidity is required in the application can be used by itself, where the humidity control can be adjusted by adding a cooling coil 10 and the heating coil (11).

In this way, in order to maximize the purification efficiency of the air flowing from the outside, the injection pressure of the water supplied to the first water film dust collector chamber and the second water film dust collector chamber was set to a pressure of 1.2 to 1.5㎏ / ㎠, Moreover, it set to 2-2.5 m / sec. In this case, since the area of the first water film dust collecting chamber and the second water film dust collecting chamber is set to 60 cm, an unnecessary energy is required when increasing the water injection pressure, and a structure for preventing splashing of water is additionally required. In addition, the speed of the air is limited to 2 to 2.5 m / sec in order to maximize the gas-liquid contact efficiency to the maximum. When the air passes through the chamber and the gas-liquid contact occurs, the longer the contact time between the water and the air, the higher the efficiency, but it is accompanied by space constraints. In order to increase the efficiency of the most effective gas-liquid contact, a primary water film collecting chamber and a second water film collecting chamber were installed.

In addition, a space (20 cm or more) between the primary water film collecting chamber and the secondary water film collecting chamber may be used to increase the optimum efficiency.

In addition, the separation method of water and air in the gas-liquid separator is set to groove groove type (Groove type) to minimize the loss of static pressure. Since the increase in the static pressure of the gas-liquid separator requires high energy, only the capacity of the power is increased, and no significant effect can be expected. Thus, the groove engagement type is very effective at sufficiently separating water and air at low static pressure without requiring high static pressure.

Presenting a preferred embodiment in the design according to the present invention as described above are as follows.

1. Hazardous Substances Air Conditioning System by Water Spray System

2. Capacity: 10,000 CMH

3. Unit

ｏ Gas Size: Length (L) 5900 m / m × Width (W) 1600 m / m × Height (H) 1650 m / m

ｏOutside air inlet size: Length (L) 250 m / m × Width (W) 1000 m / m × Height (H) 750 m / m

(1) dust collector

ｏ Size of primary water film collector: length (L) 600 m / m × width (W) 1500 m / m × height

(H) 1000 m / m

ｏSize of secondary water film collector: length (L) 600 m / m × width (W) 1500 m / m × height

(H) 1000 m / m

Louver Size: Length (L) 600 m / m × Width (W) 1600 m / m × Height

(H) 1000 m / m

Number of nozzles: 1st mening dust collector: 117

2nd mening dust collector: 117

Ø Nozzle diameter: 2.3 (same as the 1st and 2nd mening dust collector)

ｏNozzle installation location: 1 series installation at intervals of 100 m / m from the top (13 units)

4 series installations (100) at 100 m / m intervals from the top

(2) gas-liquid separator

ｏSize: Length (L) 400 m / m × Width (W) 1600 m / m × Height (H) 1000 m / m

ｏUnit: 53

Unit spacing: 15 m / m

ｏ Mounting angle: 6 levels of installation with 90 ° joint

(3) water tank

ｏSize: Length (L) 1300 m / m × Width (W) 1600 m / m × Height (H) 650 m / m

ｏ Installation location: Installed at the bottom of the dust collector and gas-liquid separator.

(4) blower

ｏ Airflow: 10,000 CMH (12,000㎏ / hr)

ｏstatic pressure: 90 mmAq

ｏPower: 3 220V 60Hz 7.5KW

The blower was installed inside the gas on the outlet side.

(5) pump

Flow rate: 300 ℓ / min

ｏ lifting: 20m

ｏPower: 3 220V 3KW

The pump was installed in front of the dust collector and connected to the water tank and the nozzle pipe.

Measurement results according to the above embodiment are shown in Table 1, and the measurement point is measured at the rear end position of the heating coil.

TABLE 1

NH ₃ SO ₄ NO ₂ NO ₃ HPO ₄ ³ Na CI ^- TOC Ambient air concentration (ppm) 10.08 85.15 13.60 18.65 26.85 0.54 6.95 356.5 Concentration (ppm) 1.18 5.95 0.67 5.15 0.3 0.09 1.61 280 Removal efficiency (%) 88 93 95 72 98.9 84.9 76.8 21.5

The present invention as described above comprises a three-stage chamber by the primary and secondary water spray system (Water Spray System) is installed at intervals and the water is injected to the gas components, such as difficult to solve in the conventional air conditioner Adsorption and dissolution of air dust and gases in the natural state without chemical changes by the surface tension of water so that it can be precipitated and purified, while forming a bend in the horizontal state to reduce the resistance of air containing water by gas-liquid contact By only passing air through a gas-liquid separator and recovering water, the entire system is designed to reduce air stiffness as much as possible. Water injection can also be carried out at low pressure, which significantly reduces operating costs compared to existing or prior art technologies. Naturally friendly air purification sheath, greatly improved in efficiency while saving That will be able to provide.

Claims (1)

Water filtration type air-conditioning system which filters the outside air by the filter inside the duct-type gas first, adsorbs and dissolves the incoming air with the water injected through the pump and the nozzle, precipitates, purifies, and blows the air by using a blower fan. In the apparatus, in constructing the dust collecting part 3 and the gas-liquid separating part 4 inside the gas 1, the dust collecting part 3 is spray nozzles 9 which are oppositely sprayed at an angle of 30 degrees up and down at intervals. Air passed by the space film collecting part 3c spaced between the primary film collecting part 3a and the second film collecting part 3b, which are arranged in a layered manner, is subjected to gas-liquid contact with dust and gas for three times. So that foreign matters can be adsorbed, dissolved, and precipitated, and the gas-liquid separator 4 is groove-joined, which is bent in six steps at a 90 ° angle in consideration of air resistance. Only air and water Wool maethyeo hazardous substance removing air conditioner according to the water film precipitator, characterized by configured to be recovered.