KR20040009760A - Dehumidification system and its operating method - Google Patents

Abstract

PURPOSE: A dehumidifier and an operating method thereof are provided to protect atmospheric environment to control humidity of indoor environment, properly control humidity by using a moisture-absorbent instead of a refrigerant of destroying an ozone layer, and reuse the used absorbent in the humidifier after desorbing moisture. CONSTITUTION: A dehumidifier(1) comprises an adsorbent(2) for removing moisture; adsorption filters(3-1,3-2,3-3) filled with the adsorbent; a blower for transferring air containing moisture; a dehumidifier body; and a moisture desorption unit. In the dehumidifier, the adsorption filter filled with the absorbent has a dehumidifying function. Moisture of the absorbent is easily adsorbed and desorbed. The adsorption filter is easily mounted and separated to/from the dehumidifier. Three adsorption filters are alternately replaced when the dehumidifying effect is decreased since the adsorption filters are made in a three stepped-shape. The used adsorption filter is separated from the dehumidifier and then moisture is desorbed from the adsorption filter to reuse the adsorption filter. The moisture desorption unit is disposed separately from the dehumidifier. The moisture desorption unit supplies heated dry air to the used adsorption filter and maintains a decompression state. Dry air is supplied to the adsorption filters in desorbing work by using two adsorption canisters.

Description

Dehumidification system and its operating method

High humidity in the room can lead to malfunctions of electrical appliances, risk of leakage, discomfort in bedding, dampness in clothing, alteration of books or paintings, or damage to furniture, which in turn increases the discomfort that people feel. In addition, when there is a lot of moisture in the room, it is easy to breed bacteria such as mold, so it is essential to remove moisture for a healthy life. However, too little moisture in the air in humans can adversely affect humans, so some amount of water must be contained in the air.

In general, a method of removing moisture in the air is a method of condensing moisture by using a cooling coil. In this method, condensate generated by contact with the cooling coil of air containing moisture in the air is generated as high water. Since water must be collected from the cooler from time to time, it is not easy to manage because of the hassle of carrying the generated water. In addition, since the cooling coil is operated, there is a problem in that noise is high and power consumption is high. Products operated on this principle include air conditioners or cooling dehumidifiers. The air conditioner has a function of controlling moisture, and in order to control moisture in the air, an air conditioner that uses high power consumption may be used even if the temperature is not high. In addition, such an air conditioner has a refrigerant, and such a refrigerant has a low vapor pressure, so it is easily diffused into the air, and thus additionally needs to be periodically supplied. The refrigerant used in this manner is a main factor that destroys the ozone layer protecting the atmospheric environment.

In the present invention, instead of the cooling coil method using a refrigerant to control the moisture by using an adsorbent that is easy to adsorption and desorption of moisture. There are various kinds of adsorbents that adsorb moisture, such as silica gel, zeolite and alumina.

A quick look at the adsorbents is as follows. Types of silica gel include A-type, B-type, AB-type, and Blue type. A-type silica gel has a large specific surface area, very fine pores, and excellent adsorption to moisture at low humidity. B-type silica gel is used at high humidity because it has larger pores than A-type, and it is easy to adsorb and release moisture. AB-type silica gel has a medium adsorption capacity between A-type and B-type. As the blue type silica gel absorbs moisture, the blue color gradually changes to pink, and thus the degree of moisture content of the silica gel can be known as a change in color.

Zeolite has more than 40 kinds of natural zeolite, and synthetic zeolite has been synthesized about 150 kinds or more. Types of zeolites are broadly classified into A type, X type, Y type, ZSM type, and the like, and are widely used in gas separation processes for use in water adsorption.

The present invention consists of such a system. An object of the present invention is to protect the atmospheric environment in order to control the humidity of the indoor environment, can be controlled to the appropriate humidity by using a moisture adsorbent instead of using a refrigerant that destroys the ozone layer, and the used adsorbent uses a moisture desorber The purpose is to enable the reuse in the dehumidifier after the desorption of moisture.

1 is an assembly view of the dehumidifier according to the present invention

2 is an assembly view of the moisture desorber according to the present invention

3 is a schematic view of the water adsorption and desorption system of the adsorption filter in the water desorption apparatus according to the present invention.

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

(1): dehumidifier (2): adsorbent

(3-1): First adsorption filter (3-2): Second adsorption filter

(3-3): third adsorption filter (4): blower

(5): pre filter (6): mounting case

(7): adsorption filter handle (8): dehumidifier door

(9): Handle (10): relative humidity indicator and controller

(11): moisture desorber (12): moisture desorber

(13): support (14): lower gasket

(15): vacuum pump (16-1): first adsorption canister

(16-2): Second adsorption canister 17: Electric heater

(18): upper gasket (19): inlet pipe

(20): dispersion plate 21: supply pipe

(22): recovery pipe (23): discharge pipe

(24-31): Solenoid Valve

In the present invention, the dehumidifier is equipped with an adsorption filter filled with an adsorbent capable of removing the moisture present in the air, and the moisture can be controlled, the adsorption filter can be easily attached and separated from the dehumidifier, and the adsorption used in the dehumidifier. The present invention relates to a moisture desorber capable of reusing moisture by removing water from a filter. The system of the present invention is classified into a system of adsorption filter capable of adsorbing moisture, and a desorption system for separating moisture from the adsorption filter by separating the adsorption filter used with the dehumidifier equipped with the adsorption filter. The dehumidifier is installed anywhere in the room to remove or control the moisture in the room, and the water desorption device that can desorb water from the used adsorption filter is installed outside to desorb water from the outside, The filter is again mounted on the dehumidifier and can be used for dehumidification purposes.

Hereinafter, embodiments of the dehumidifier equipped with the adsorption filter and the water desorption device having a water desorption function according to the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, the B-type silica gel, which has a high moisture adsorption amount at high humidity and is easy to adsorb and desorb moisture, was packed in an adsorption filter and used in a dehumidifier.

1 is a schematic view showing an assembly view of the dehumidifier (1). The dehumidifier 1 has a first adsorption filter 3-1, a second adsorption filter 3-2, and a third adsorption filter 3-3 filled with an adsorbent 2 capable of absorbing moisture. And a blower 4 capable of supplying indoor air to the dehumidifier, and a prefilter 5 for removing foreign matters in the air to increase moisture adsorption performance. Adsorption filters (3-1, 3-2, 3-3) mounted inside the dehumidifier (1) for dehumidification operation is in the form of a tray, can be inserted into the adsorption filter mounting case (6) according to the order. The handle 7 is attached, and the operation of attaching or detaching the inside of the dehumidifier 1 is easy. Mounting the adsorption filter (3-1, 3-2, 3-3) inside the dehumidifier (1), turn the door (8) by turning the handle (9) on the front door (8) of the dehumidifier (1) Open the tray adsorption filter (3-1, 3-2, 3-3) into the adsorption filter mounting case (6) consisting of three stages under the dehumidifier (1), and finally the door of the dehumidifier (1) (8) Close and fix the knob (9) by turning it in reverse.

In the dehumidification operation sequence of the dehumidifier 1, air containing moisture is introduced into the lower part of the dehumidifier 1 through the blower 4 installed inside the dehumidifier 1, and then passes through the prefilter 5 first. The dusts are removed, and the water contained in the air passes through the first adsorption filter 3-1 and the second adsorption filter 3-2 after the prefilter 5, and then is absorbed by the silica gel 2 as the adsorbent. As it is removed, dry air is supplied to the room.

The dehumidifier (1) is equipped with a relative humidity indicator and a controller (10) to indicate the relative humidity in the room, and at the same time when the relative humidity is more than the relative humidity by the relative humidity controller 10 according to a predetermined relative humidity dehumidifier (1) Is operated, and the dehumidifier 1 is stopped when the relative humidity is less than that. If the relative humidity is high or the dehumidification operation is to be performed for a long time, the third adsorption filter 3-3 can also be inserted into the adsorption filter mounting case 6 to achieve the object.

If the moisture adsorption capacity of the dehumidifier 1 decreases and the relative humidity in the room becomes high, it is necessary to replace the adsorption filters 3-1 and 3-2, and the replacement method is that the adsorption filter mounting case 6 of the dehumidifier 1 is replaced. ) Pull out the handles 7 of the adsorption filters 3-1 and 3-2 attached to the &lt; RTI ID = 0.0 &gt; 1, &lt; / RTI &gt; When the third adsorption filter and the fourth adsorption filter are mounted and operated again, the relative humidity of the room can be controlled. Then, the first adsorption filter 3-1 and the second adsorption filter 3-2 separated from the dehumidifier 1 are put in the water desorber 11 to perform a water desorption operation.

2 is a view showing the assembly of the moisture desorber (11). The structure of the water desorber 11 includes a door 12 having a function of inserting or removing an adsorption filter, a first adsorption filter 3-1 used in the dehumidifier 1, and a second adsorption filter 3-2. Support 13, adsorption agent of the lower gasket 14 to maintain airtightness between the adsorption filters 3-1 and 3-2 and the support 13, and the adsorption filters 3-1 and 3-2 ( 2) Dry the air flowing into the outside in order to facilitate the desorption of water from the vacuum pump 15 and the adsorbent 2 of the adsorption filters 3-1 and 3-2, which can maintain a reduced pressure when desorbing the water from 2). The first adsorption canister 16-1 and the second adsorption canister 16-2 for converting into air, the electric heater 17 for heating the inlet air, the first adsorption filter 3-1 and the second adsorption used. The upper gasket (18) attached to the door so that the filter (3-2) is mounted on the support (13), and the distribution plate for dispersing the flow of air and the inlet pipe (19) of heated and dry air ( Composed of 20) There. The principle of the water desorption operation is to first open the water desorber upper door 12, and then use the first adsorption filter 3-1 and the second adsorption filter 3-2 used in the dehumidifier 1 to attach the lower gasket to the support 13. (14) Put on and close the door (12). Next, two suction canisters 16-1 are operated while the vacuum pump 15 is operated to keep the first adsorption filter 3-1 and the second adsorption filter 3-2 used in the dehumidifier 1 at a reduced pressure. The electric heater 17 is operated while air flows through one of the suction canisters 16-1. The introduced air passes through the first adsorption canister 16-1 and the air is dried while removing moisture, and the dry air is changed into dry heating air while passing through the electric heater 17, thereby maintaining the reduced pressure. It passes through the first adsorption filter 3-1 and the second adsorption filter 3-2. At this time, the dried and heated air easily desorbs moisture from the adsorbents of the used first adsorption filter 3-1 and the second adsorption filter 3-2. Air is discharged to the outside through the suction canister 16-2 again through the vacuum pump 15. The water desorption process of the second adsorption canister 16-2 is performed by the air containing moisture discharged from the first adsorption filter 3-1 and the second adsorption filter 3-2 initially. -2), but at this time, the second adsorption canister (16-2) is used because it is saturated with water, so no more water can be adsorbed, and the water content is released into the atmosphere as it is. When a certain time passes, the first adsorption filter (3-1) and the second adsorption filter (3-2) is completely desorbed moisture, and the heated dry air flows into the adsorption canister (16-2) twice, 2 The second adsorption canister 16-2 also undergoes water desorption. When the water adsorption life of the first adsorption canister (16-1) is exhausted, the flow direction of the tube is changed to the second adsorption canister (16-2) in which the flow direction of the pipe is kept dry by the solenoid valve, and the outside air flows in through the inflow air. The dry air is supplied to the first adsorption filter 3-1 and the second adsorption filter 3-2 used by removing the water. In the same manner as described above, the dried and heated air discharged at the end after a predetermined period of desorption operation passes through the first adsorption canister 16-1 and the adsorbed water is desorbed to desorb the first adsorption canister 16-1. Dry state can be maintained and dry air can be supplied to the moisture desorber (11). The advantage of the moisture desorber 11 is that the first adsorption filter 3-1 and the second adsorption filter using dry air heated by the electric heater 17 after changing the external air containing moisture to dry air. It is supplied to (3-2), and the desorption operation is maintained in a reduced pressure state using the vacuum pump 15, so that the desorption of water is easily performed. In addition, two adsorption canisters 16-1 and 16-2 are installed in the water desorption unit 11, and when the moisture in the air is adsorbed on the other side, the other side desorbs the remaining water and is discharged to the air in parallel. Two adsorption canisters 16-1 and 16-2 can be used alternately.

3 is a schematic diagram showing the water adsorption and desorption systems of the adsorption canisters 16-1 and 16-2 in the water desorption unit 11. Adsorption canisters 16-1 and 16-2 are systems configured to be capable of regenerating their own adsorbents with moisture adsorbed thereon. The principle of adsorption and desorption by the adsorption canisters 16-1 and 16-2 is as follows.

The air containing moisture is introduced into the adsorption canister 16-1 through the inlet tube 19, and the dry air from which moisture is removed is used through the air supply pipe 21. ) And the second adsorption filter 3-2. The air supplied to the used first adsorption filter 3-1 and the second adsorption filter 3-2 is recovered again by the vacuum pump 15 and the second adsorption canister 16-2 through the recovery pipe 22. Supplied to the discharge pipe 23 is discharged. At this time, the second adsorption canister 16-2 should desorb the adsorbed water. However, since the adsorption water is initially desorbed from the first adsorption filter 3-1 and the second adsorption filter 3-2, the desorption can be performed. As soon as the first adsorption filter 3-1 and the second adsorption filter 3-2 are desorbed, the adsorption agent 2 of the adsorption canister 16-2 is desorbed. Silica gel, which is an adsorbent, has a constant adsorption capacity of moisture, so that adsorption of moisture over a predetermined value does not occur, and air containing moisture passes therethrough.

Table 1 shows solenoid valve operation in adsorption and desorption systems.

Table 1. Solenoid Valve Operation

Division Solenoid Valve Cycle 1 Cycle 2 Canister 1 adsorption Remove canister 2 2 canister adsorption Canister 1 24 C O 25 O C 26 O C 27 C O 28 C O 29 O C 30 O C 31 C O

O: open, C: closed

There are various kinds of silica gel, which is an adsorbent (2) capable of removing moisture, but there are various types such as A type and B type, but they are easily absorbed and desorbed and applied to the dehumidifier (1) by using the B type which has high moisture absorption at high humidity. I was. In the case of B type silica gel, the moisture absorption amount is about 50% or more at high humidity (90% RH), which is 1 kg of silica gel may contain more than 500 g of water. At this time, the relative humidity is 90% and converted to the amount of air as follows.

Amount of Air X Relative Humidity 90% = Amount of Water

Volume of air X 90% = 500 g

Amount of air = 500 g / 0.9 = 556 g

Since the density of air is 0.00128g / mL, the volume of air is converted as follows.

Volume of air x air density = amount of air

Volume of air X 0.00128 g / mL = 556 g

Volume of air = 556 g / 0.001218 g / mL = 434 L

According to the above calculation, the volume that 1 kg of silica gel can remove at 90% relative humidity is calculated to be 434 L, which is a case where the relative humidity is lowered from 90% to 0 in 434L. If the relative humidity is maintained to 50%, the use time of the silica gel is doubled.

Water removal effect using silica gel was performed in the laboratory. Table 1 shows the conditions for the water removal experiment.

Table 1 Moisture Removal Experiment Conditions

Item value flux 10 L / min Column dia. 2.2 cm Humidity 85-90% RH Depth 10 cm

In the water removal experiment, the experiment was performed using two columns filled with silica gel, and the water was generated using a water generator to maintain relative humidity at 85-90%. At this time, two column operation cycles were performed at an interval of 1 hour, and two silica gel-filled columns were desorbed while the other column was desorbed while one column adsorbed moisture. The relative humidity of the inlet and the outlet of the column filled with silica gel was measured to confirm that water was removed. Silica gel adsorption experiment results are shown in Figure 1.

Figure 1. Water removal graph by silica gel

In the present invention, the dehumidifier can remove or control the moisture in the air to remove the discomfort caused by excessive moisture, and the silica gel used in the dehumidifier is not only excellent in dehumidifying effect but also excellent in regenerating effect. Silica gel can be easily regenerated. In addition, the dehumidifier used in the past has a lot of water due to the condensation of water management is cumbersome, because the operation of the freezer generates noise, it takes a lot of power. The dehumidifier according to the present invention does not generate water due to moisture condensation, which is easy to manage, low in noise, and low in power. In addition, it does not use a refrigerant method that destroys the ozone layer, thus protecting the environment.

Claims (5)

In the dehumidifier, Adsorption filter packed with an adsorbent for easy adsorption and desorption of water has a dehumidification function, and it is easy to install and detach the adsorption filter inside the dehumidifier. System configured to replace the adsorption filter alternately The method of claim 1, Adsorption filter configured to separate the used adsorption filter from the dehumidifier and to desorb and reuse the moisture In water desorption machine, Desorption device that can easily desorb water by supplying heated dry air to the used adsorption filter and maintaining it under reduced pressure The method of claim 2, How to supply dry air to adsorption filter during desorption operation by using two adsorption canisters The method of claim 2, Method of supplying used air to desorb water of used adsorption filter to adsorption canister where water is adsorbed by using vacuum pump