KR20100003630A - Apparatus for drying and method for drying - Google Patents

Abstract

PURPOSE: A dryer and a drying method are provided to easily control the dry operation in order to be included within a range of standard relative humidity value. CONSTITUTION: A dryer and comprises a storage part(100), a dryer part, and a control module. In the storage part, an inlet(111) drawing in external air and an outlet(112) discharging the external air are formed and a drying space is formed inside. The drying part is placed inside the storage part and the drying space is dried by being provided with the operation signals. The control module applies signals to the drying part to include absolute humidity value within standard absolute humidity value.

Description

Drying apparatus and drying treatment method {APPARATUS FOR DRYING AND METHOD FOR DRYING}

The present invention relates to a drying apparatus and a drying treatment method, and more particularly, a drying apparatus and a drying treatment for calculating a humidity atmosphere in a drying space to be dried using water vapor pressure generated in a drying space to be dried, and controlling the drying process therethrough. It is about a method.

Typically, waste foods, such as food waste, have a high moisture content and easily rot, causing great difficulty in landfilling and incineration.

Accordingly, in recent years, various food drying apparatuses capable of drying waste foods have been used.

The waste food drying apparatus includes a dehydration process of removing water from waste food, a process of compressing and pulverizing waste water from which water is dehydrated, a process of drying the waste food by applying heat while stirring the pulverized waste food, and microorganisms. It is a device that can perform a plurality of processes sequentially or selectively, such as the decomposition process using.

In the process of drying the waste food during this process, the waste food is dried inside the treatment tank and the humidity is lowered below a certain level.

Therefore, conventionally, the humidity in the space where the waste food is dried is detected.

Conventionally, in order to detect the humidity, a method of measuring humidity by directly contacting electrodes with waste food is mainly used.

That is, the electrode is directly contacted with the waste food, and the humidity of the waste food to be dried is measured using the difference in impedance generated at both ends of the electrode.

However, the above method has a problem in that the inconvenience of contacting the electrode directly with the waste food and the humidity of the waste food such as bone of an animal whose moisture content is below a certain level are difficult to measure substantially.

In addition, the Republic of Korea Patent No. 10-0664046 measured the absolute humidity of the drying space using dry bulb and wet bulb resistance, which is a method of determining the indirect dryness caused by the drying of waste food in the drying space, this method is drying In addition to being sensitive to the flow of warm air in the space and having a slow response speed, accurate humidity cannot be measured.

Accordingly, there is a conventional problem of causing unnecessary operation of the drying module due to the inaccurate humidity measurement as described above, thus wasting power or energy input to the drying module operation.

The present invention has been made to solve the above problems, an object of the present invention is to calculate the absolute humidity value using the water vapor pressure value and the air pressure value in the drying space inside the storage unit, the calculated absolute humidity The present invention provides a drying apparatus and a drying treatment method capable of easily controlling a drying operation so that a value can be included in a range of a predetermined humidity value.

It is another object of the present invention to calculate a relative humidity value in a drying space inside a storage unit and a drying apparatus capable of easily controlling a drying operation so that the relative humidity value can be included in a range of a predetermined reference relative humidity value. In providing a method.

In order to achieve the above object, the present invention provides a drying apparatus.

The drying apparatus is provided with a suction port through which the outside air is introduced and an exhaust port through which the introduced outside air is exhausted, and a storage unit constituting a drying space therein, and disposed inside the storage unit, and receiving an operation signal from the outside to receive the drying space. And a drying control module configured to calculate an absolute humidity value inside the storage unit and to apply an operation signal to the drying unit such that the calculated absolute humidity value is within a preset reference absolute humidity value range. do.

Here, the drying control module is a pressure sensor disposed inside the storage unit to measure the air pressure value of the drying space, a temperature sensor disposed inside the storage unit to measure the internal absolute temperature value of the storage unit, and And a control unit electrically connected to a pressure sensor and the temperature sensor to apply an operation signal to the drying unit such that the reference absolute humidity value is preset and the calculated absolute humidity value is within a preset reference absolute humidity value range. It is desirable to.

The control unit stores the ideal gas state equation, and the ratio between the gases constituting the air inside the storage unit is preferably set to be constant.

The control unit may receive an air pressure value before drying of the drying space from the pressure sensor, receive an air pressure value while the drying space is dried by the operation of the drying unit, and vapor pressure in the drying space. It is preferable to calculate the value as the difference between the air pressure value before drying and the air pressure value during drying.

In addition, the absolute humidity value is preferably calculated by dividing the calculated water vapor pressure value and the molecule multiplied by 1000 liters and 18 by the denominator multiplied by 8.3 and the absolute temperature value.

The drying control module may further include a first selection unit electrically connected to the control unit, wherein the first selection unit calculates the absolute humidity value and controls an operation of the drying unit through the control unit; The relative humidity value may be calculated using the calculated water vapor pressure value, and one of the second modes of controlling the operation of the drying unit may be selected through the control unit. It is preferable to apply an operation signal to the drying unit so that the calculated absolute humidity value is within a preset reference relative humidity value range.

In addition, the control unit stores a van der Waals equation that is applied close to the actual gas, and the control unit is a second selection unit that can select any one of the ideal gas state equation or the van der Waals state equation. When the van der Waals state equation is selected, the control unit may be configured to correct a predetermined volume occupied by the gas molecules in the ideal gas state equation and the attraction force between the gas molecules.

The present invention provides a method for drying judging.

The drying processing method includes a first step of drying a drying space formed inside a storage unit by using a drying unit operated by receiving an operation signal from the outside, and using the drying control module to determine an absolute humidity value inside the storage unit. And a second step of applying an operation signal to the drying unit such that the calculated absolute humidity value is within a preset reference absolute humidity value range.

Here, in the second step, the air pressure value of the drying space to be dried is measured using a pressure sensor disposed inside the storage unit, and the inside of the storage unit using a temperature sensor disposed inside the storage unit. The absolute temperature value is measured, and an operation signal is applied to the drying unit such that the calculated absolute humidity value is within a preset reference absolute humidity value range by using the pressure sensor and a controller electrically connected to the temperature sensor. .

In addition, the controller preferably uses an ideal gas state equation in which the ratio between the gases constituting the air inside the storage unit is set to be constant.

In addition, the control unit receives the air pressure value before drying in the drying space from the pressure sensor, by receiving the air pressure value in the drying space during the drying by the operation of the drying unit, the water vapor inside the storage unit It is preferable to calculate the pressure value as the difference between the air pressure value before drying and the air pressure value during drying.

In addition, the absolute humidity value is preferably calculated by dividing the calculated water vapor pressure value and the molecule multiplied by 1000 liters and 18 by the denominator multiplied by 8.3 and the absolute temperature value.

In addition, a first mode for calculating the absolute humidity value using a first selection unit electrically connected to the control unit and controlling the operation of the drying unit through the control unit, and a relative humidity value using the calculated water vapor pressure value Selects one of the second modes of controlling the operation of the drying unit through the control unit, and when the second mode is selected, the control unit sets a reference relative humidity value in which the calculated absolute humidity value is preset. It is preferable to apply an operation signal to the drying unit so as to fall within the range.

In addition, the control unit stores a van der Waals equation that is applied close to an actual gas, and the abnormal gas state equation or the van der Waals state equation using a second selection unit electrically connected to the control unit. When one of them is selected and the van der Waals state equation is selected, the control unit preferably corrects a predetermined volume occupied by the gas molecules in the ideal gas state equation and the attraction force between the gas molecules.

The present invention calculates the absolute humidity value using the water vapor pressure value and the air pressure value in the drying space inside the storage unit, and facilitates the drying operation so that the calculated absolute humidity value can be included in the range of the predetermined humidity value. It has a controllable effect.

In addition, the present invention has the effect of easily controlling the drying operation so that the relative humidity value can be included in the range of the predetermined reference relative humidity value by calculating the relative humidity value in the drying space inside the storage unit.

Hereinafter, with reference to the accompanying drawings, it will be described the waste food drying apparatus and waste food drying treatment method of the present invention.

1 is a view showing a drying apparatus of the present invention. 2 is a block diagram showing a drying control module of FIG. 3 is a flowchart showing an example of a drying treatment method of the present invention. 4 is a flowchart showing another example of the drying treatment method of the present invention.

First, the structure of the drying apparatus of this invention is demonstrated.

Here, it is preferable that the drying apparatus of the present invention dries waste foods having a certain amount of moisture.

Therefore, hereinafter, the case where the drying apparatus and the drying method of the present invention are adopted to dry the waste food stored in the drying space will be described as a preferred example.

1 and 2, the drying apparatus according to the present invention includes a storage unit 100 having a predetermined space formed therein and an inlet 111 and an exhaust port 121 formed therein, and inside the storage unit 100. It has a drying unit 200 is disposed, and the waste food drying control module 300 for controlling the operation of the drying unit 200.

The suction port 111 is formed at one side of the storage unit 100, and the exhaust port 121 is formed at the other side of the storage unit 100. A predetermined amount of waste food 10 may be stored in the internal space of the storage unit 100. The waste food 10 may contain a predetermined amount or more of water.

The drying unit 300 is a blowing fan 310 for introducing outside air into the storage unit 100 from the suction port 111, and an exhaust fan for exhausting the outside air introduced into the storage unit 100 to the outside. 320 and a heating heater 330 disposed in the storage unit 100 to dry the waste food 10 stored in the internal space of the storage unit 100.

Here, the blowing fan 210 may be disposed in the inlet 111 as shown in Figure 1, the exhaust fan 220 is disposed in the exhaust port 121.

In addition, the blowing fan 210 may be disposed inside the suction pipe 110 connected to the suction port 111 as shown in FIG. 2, and the exhaust fan 220 is connected to the exhaust port 121. It is disposed inside of 120.

The heating heater 230 is connected to the suction pipe 110, receives an operation signal from the outside, generates a heat above a predetermined temperature to heat the outside air to a predetermined temperature, and the heated outside air is stored through the blower fan 210 ( 100 may be provided inside.

Here, the heating heater 230 may be installed at the upper end of the inner space of the storage unit 100, and may receive the operation signal from the outside to generate heat above a predetermined temperature to dry the waste food 10.

The drying control module 200 includes a pressure sensor 210, a temperature sensor 220, and a controller 230.

1 and 2, the pressure sensor 210 is installed inside the storage unit 100 to measure a pressure value of air in a drying space inside the storage unit 100.

The temperature sensor 220 may be installed in the storage 100 to measure a temperature value in a drying space inside the storage 100.

The controller 230 is electrically connected to the pressure sensor 210 and the temperature sensor 220.

The controller 230 receives the pressure value and the temperature value of the air and calculates an absolute humidity value. The controller 230 may apply an operation signal to the drying unit 300 such that the calculated absolute humidity value is within a preset reference absolute humidity value range.

Here, the method of calculating the absolute humidity value will be described in detail.

Most of the air contains nitrogen and consists of 20% oxygen and other quantities of gases.

Therefore, according to Dalton's law of partial pressure of Equation 1 below, most of the air pressure is pressure generated by nitrogen and oxygen.

식 (1)

Formula (1)

Where P is the pressure value of air, PN2 is the partial pressure of nitrogen, PO2 is the partial pressure of oxygen, Pda is the partial pressure of dry air, and e is the partial pressure of water vapor.

The control unit 230 may store an ideal gas state equation (Equation 2) in advance so that the air formed in the drying space inside the storage unit 100 may be set as the ideal gas.

식(2)

Formula (2)

Where P is the pressure of the gas, V is the volume of the gas, n is the number of moles, R is the gas constant, and T is the absolute temperature.

Since the ratio between the gases in a certain space is kept constant, the main variable of the pressure value of the air measured by the pressure gauge 210 is the amount of water vapor.

Therefore, referring to Equation 2, the air pressure value may be expressed as the sum of the dry air pressure value and the steam pressure value.

Thus, the steam pressure value can be calculated as the difference between the air pressure value before drying and the air pressure value during the drying process.

By substituting the water vapor pressure value and the absolute temperature value measured through the temperature sensor 220 into Equation 3 below, the absolute humidity value and the amount of water vapor can be calculated at the same time.

식(3)

Formula (3)

In addition, since the temperature sensor 220 measures an absolute temperature value inside the storage unit 100 and the water vapor pressure value is the current water vapor pressure measured, the controller 230 controls the dry space inside the storage unit 100. Relative humidity can be calculated using Equation 4 below. In this case, since the saturated steam pressure data for each temperature is stored in advance in the controller 230, the saturated steam pressure at the measured temperature value may be adopted.

식(4)

Formula (4)

Of course, as mentioned below, the controller 230 has a van der Waals state for calculating a steam pressure value closer to the actual gas than the steam pressure value calculated through the ideal gas state equation and the ideal gas state equation. The equations are stored in advance and you can choose any of them.

Therefore, the controller 230 may apply an operation signal to the drying unit 300 such that the calculated absolute humidity value is within a preset reference absolute humidity value range.

In addition, the drying control module 200 further includes a first selector 240 electrically connected to the controller 230.

The first selection unit 240 calculates the absolute humidity value and controls the operation of the drying unit 300 through the control unit 230 and the relative humidity using the calculated water vapor pressure value. The second mode for calculating a value and controlling the operation of the drying unit 300 may be selected through the controller 230.

When the second mode is selected, the controller 230 may apply an operation signal to the drying unit 300 such that the calculated relative humidity value is within a preset reference relative humidity value range.

In addition, the control unit 230 stores a van der Waals equation that can be applied close to an actual gas.

In addition, the controller 230 is electrically connected to the second selection unit 250 capable of selecting either the ideal gas state equation or the van der Waals state equation.

The controller 230 may correct a predetermined volume occupied by gas molecules in the ideal gas state equation and attraction force between the gas molecules when the van der Waals state equation is selected as shown in Equation 5 below. .

The van der Waals state equation is expressed by Equation 5 below. This is an equation that can be applied close to a real gas.

식(5)

Formula (5)

Correction of molecular volume and molecular attraction can be performed by the van der Waals state equation.

First, when it comes to molecular volume correction, the volume decreases by the (nb) factor because of the constant volume occupied by the gas molecules.

The free volume given to the gas molecules is therefore (V −nb) above. Van der Waals constant b is a measure of the actual volume occupied by 1 mol gas molecules and thus has units of L / mol.

Secondly, in terms of molecular attraction correction, the pressure P decreases by the n ² / V ² factor because of the attraction between gas molecules.

This particular form of correction occurs because the attraction between the pairs of molecules increases to the square of the number of molecules per unit volume (n / v) ² .

The van der Waals constant a is therefore equal to L ² -atm / mol ² units. The size of a indicates the influence of how hard the gas molecules are pulling each other.

Next, referring to FIGS. 1 to 4, the drying treatment method of the present invention using the drying apparatus configured as described above will be described in detail.

First, an example of the drying treatment method of the present invention will be described with reference to FIGS. 1 to 3.

A certain amount of waste food 10 is stored in an internal drying space of the storage 100. Here, the waste food 10 may contain a certain amount of water.

The pressure detector 210 measures an air pressure value of the drying space inside the storage unit 100 (S100). At this time, the air temperature value is the air pressure value before the operation of the drying unit 300.

Subsequently, the controller 230 transmits an operation signal to the drying unit 300 to operate the drying unit 300 (S200).

Therefore, the heating heater 330 heats the outside air to a predetermined temperature, and the heated air is introduced into the drying space through the blower pipe 110 by the operation of the blower fan 310. In addition, the heated air introduced into the drying space by the operation of the exhaust fan 320 is exhausted to the outside through the exhaust pipe 120.

Here, since the waste food 10 of the drying space is exposed to the heated air, a certain amount of water vapor may be generated.

At this time, the pressure sensor 210 measures the dry air pressure value in the drying space during the drying process for the waste food 10 in the drying space as described above (ie, while the drying unit 300 is operated). (S250).

In addition, the temperature sensor 220 measures an absolute temperature value in the drying space during the drying process for the waste food 10 in the drying space as described above (S260).

Therefore, the pressure sensor 210 and the temperature sensor 220 may transmit the air pressure before drying, the dry air temperature values and the absolute temperature values during the drying process to the controller 230.

Subsequently, the controller 230 may calculate the water vapor pressure value through a difference between the air pressure value before drying and the dry air pressure value during the drying process (S300).

In this case, the controller 230 stores an ideal gas state equation that assumes a gas inside the drying space as an ideal gas.

Subsequently, the first selector 240 may determine whether to select one of the first mode and the second mode (S600 and S700).

When the first mode is selected by the first selector 240, the controller 230 may calculate the absolute humidity value by substituting the water vapor pressure value and the absolute temperature value in Equation (3). (S610). In addition, the absolute humidity value may be equal to the amount of water vapor.

The controller 230 determines whether the calculated absolute humidity value is included in a preset absolute humidity value range (S620), and when the calculated absolute humidity value is included in a preset absolute humidity value range, a drying unit. The operation of 300 may be immediately stopped (S1000), and if the calculated absolute humidity value is not included in the preset absolute humidity value range, drying is performed until the calculated absolute humidity value is included in the preset absolute humidity value range. Operate unit 300.

On the other hand, when the first mode is not selected by the first selector 240, it is possible to determine whether to select the second mode (S700).

When the second mode is selected by the first selector 240, the controller 230 substitutes a water vapor pressure value into Equation (4) and applies the absolute temperature value measured from the stored saturated steam pressure data. The relative humidity value can be calculated by substituting the saturated water vapor pressure (S710).

The controller 230 determines whether the calculated relative humidity value is within a preset relative humidity value range (S720), and when the calculated relative humidity value is included in a preset relative humidity value range, a drying unit. The operation of 300 may be immediately stopped, and if the calculated relative humidity value is not included in the preset relative humidity value range, the drying unit is operated until the calculated relative humidity value is included in the preset relative humidity value range. .

In addition, although not shown in the drawing, the controller 230 may further determine whether the calculated absolute humidity value and the relative humidity value are within a predetermined range for a predetermined time.

That is, when the calculated absolute humidity value and relative humidity value are included within a predetermined range for a predetermined time, the absolute humidity value or the relative humidity value does not change, that is, the dry food 10 is not dried. Since it may be determined as a case, in this case, the controller 230 may immediately stop the operation of the drying unit 300.

Therefore, when waste food containing less than a certain amount of moisture, such as bones and shells of animals such as cattle or pigs, is put into the internal drying space of the storage unit 100, unnecessary operation of the drying unit 300 may be reduced. have.

Next, another example of the drying treatment method of the present invention will be described with reference to FIGS. 1,2 and 4.

As described above with reference to FIGS. 1 to 3, after the water vapor pressure value in the drying space inside the storage unit is calculated, the van der Waals state, which can be applied to the ideal gas state equation and the actual gas, by the second selection unit It is possible to select whether to apply any one of the equations (S500, S510).

When the application of the ideal gas state equation is selected by the second selector 250, the controller 230 may sequentially go through steps S600, S610, S620, and S1000 illustrated in FIG. 3. The details of the steps are omitted because they are the same as described above.

When the application of the van der Waals equation is selected, the controller 230 corrects respective correction terms corresponding to a predetermined volume occupied by gas molecules in the ideal gas state equation and the attraction force between the gas molecules. Can be. Therefore, it is possible to assume that the gas in the drying space inside the storage unit 100 is the actual gas.

Subsequently, the first selector 240 may determine whether to select one of the first mode and the second mode (S800 and S900).

When the first mode is selected by the first selector 240, the controller 230 may calculate the absolute humidity value by substituting the water vapor pressure value and the absolute temperature value in Equation (3). (S810). In addition, the absolute humidity value may be equal to the amount of water vapor.

The controller 230 determines whether the calculated absolute humidity value is within a preset absolute humidity value range (S820), and when the calculated absolute humidity value is included in a preset absolute humidity value range, a drying unit. The operation may be immediately stopped (S1000), and if the calculated absolute humidity value is not included in the preset absolute humidity value range, the drying unit is operated until the calculated absolute humidity value is included in the preset absolute humidity value range.

On the other hand, when the first mode is not selected by the first selector 240, it is possible to determine whether to select the second mode (S900).

When the second mode is selected by the first selector 240, the controller 230 substitutes a water vapor pressure value into Equation (4) and applies the absolute temperature value measured from the stored saturated steam pressure data. The relative humidity value can be calculated by substituting the saturated water vapor pressure (S910).

The controller 230 determines whether the calculated relative humidity value is within a preset relative humidity value range (S920), and when the calculated relative humidity value is included in a preset relative humidity value range, a drying unit. The operation of 300 may be immediately stopped, and if the calculated relative humidity value is not included in the preset relative humidity value range, the drying unit 300 until the calculated relative humidity value is included in the preset relative humidity value range. ) Can be activated.

1 is a view showing a drying apparatus of the present invention.

2 is a block diagram showing a drying control module of FIG.

3 is a flowchart showing an example of a drying treatment method of the present invention.

4 is a flowchart showing another example of the drying treatment method of the present invention.

* Description of Signs of Main Parts of Drawings *

100: storage

200: drying control module

210: pressure sensor

220: temperature sensor

230: control unit

240: first selection unit

250: second selection unit

300: drying unit

310: heating heater

320: blower fan

330 exhaust fan

Claims (14)

A storage unit having an intake port through which outside air is introduced and an exhaust port through which the introduced outside air is exhausted, and forming a drying space therein; A drying unit disposed inside the storage unit and configured to dry the drying space by receiving an operation signal from the outside; And And a drying control module configured to calculate an absolute humidity value inside the storage unit and apply an operation signal to the drying unit such that the calculated absolute humidity value is within a preset reference absolute humidity value range. The method of claim 1, The drying control module may include a pressure sensor disposed inside the storage unit to measure an air pressure value of the drying space, a temperature sensor disposed inside the storage unit to measure an absolute temperature value of the storage unit, and the pressure detector. And a controller electrically connected to the temperature sensor and configured to apply an operation signal to the drying unit such that the reference absolute humidity value is preset and the calculated absolute humidity value is within a preset reference absolute humidity value range. Drying apparatus characterized by the above-mentioned. The method of claim 1, The control unit stores the abnormal gas state equation, Drying apparatus characterized in that the ratio between the gas constituting the air in the storage unit is set to be constant with each other. The method of claim 3, wherein The control unit receives the air pressure value before drying in the drying space from the pressure sensor, The air pressure value while the inside of the drying space is dried by the operation of the drying unit, And a water vapor pressure value inside the storage unit is calculated as a difference between the air pressure value before drying and the air pressure value during drying. The method of claim 4, wherein And wherein the absolute humidity value is calculated by dividing the calculated water vapor pressure value with the numerator multiplied by 1000 liters and 18 by the denominator multiplied by 8.3 and the absolute temperature value. The method of claim 4, wherein The drying control module further includes a first selection unit electrically connected to the control unit, The first selection unit calculates the absolute humidity value and controls the operation of the drying unit through the control unit, and calculates a relative humidity value using the calculated water vapor pressure value. One of the second modes of controlling the operation may be selected, And when the second mode is selected, the controller applies an operation signal to the drying unit such that the calculated absolute humidity value is within a preset reference relative humidity value range. The method of claim 3, wherein The control unit stores a van der Waals equation to which the ideal gas state equation is applied, The controller is electrically connected to a second selector capable of selecting either the ideal gas state equation or the van der Waals state equation. And when the van der Waals state equation is selected, the control unit corrects a predetermined volume occupied by gas molecules in the ideal gas state equation and the attraction force between the gas molecules. A first step of drying the drying space formed inside the storage unit by using a drying unit operated by receiving an operation signal from the outside; A second step of applying an operation signal to the drying unit to calculate an absolute humidity value in the storage unit using a drying control module so that the calculated absolute humidity value is within a preset reference absolute humidity value range; Dry processing method containing. The method of claim 8, The second step, The air pressure value of the drying space is measured by using a pressure sensor disposed inside the storage unit, The internal absolute temperature value of the storage unit is measured by using a temperature sensor disposed inside the storage unit, And applying an operation signal to the drying unit such that the calculated absolute humidity value is within a preset reference absolute humidity value range by using a controller electrically connected to the pressure sensor and the temperature sensor. . The method of claim 9, And the control unit uses an ideal gas state equation in which the ratio between the gases constituting the air inside the storage unit is set to be constant with each other. The method of claim 10, The control unit receives the air pressure value before drying in the drying space from the pressure sensor, Receiving the air pressure value in the drying space during the drying by the operation of the drying unit, And a water vapor pressure value inside the storage unit is calculated as a difference between the air pressure value before drying and the air pressure value during drying. The method of claim 11, And the absolute humidity value is calculated by dividing the calculated water vapor pressure value with the numerator multiplied by 1000 liters and 18 by the denominator multiplied by 8.3 and the absolute temperature value. The method of claim 11, By using the first selection unit electrically connected to the control unit A first mode of calculating the absolute humidity value and controlling the operation of the drying unit through the control unit; and calculating a relative humidity value using the calculated steam pressure value and controlling the operation of the drying unit through the control unit. Choose one of two modes, And when the second mode is selected, the control unit applies an operation signal to the drying unit such that the calculated absolute humidity value is within a preset reference relative humidity value range. The method of claim 10, The control unit stores a van der Waals equation to which the ideal gas state equation is applied, By using the second selection unit electrically connected to the control unit, one of the ideal gas state equation or the van der Waals state equation, And when the van der Waals state equation is selected, the controller corrects a predetermined volume occupied by the gas molecules in the ideal gas state equation and the attraction force between the gas molecules.

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