KR101344274B1 - Co2 absorbent/desorbent apparatus and its method - Google Patents

Abstract

The present invention relates to a carbon dioxide adsorption and desorption apparatus and method thereof; A first physical adsorbent reactor filled with an air inlet unit through which air is introduced into the room, a physical adsorbent adsorbing carbon dioxide in the indoor air introduced through the air inlet unit, and a state in which carbon dioxide is removed through the physical adsorbent reactor An air discharge unit for discharging air into the room, an adsorption air circulation fan for forcibly circulating air to discharge the air in the room through the air inlet unit, and to discharge the air through the air discharge unit through the physical adsorbent reactor; Desorption heater for heating and carbon dioxide adsorption and desorption comprising a desorption air circulation fan for forcibly introducing the air into the desorption heater so that the air heated by the desorption heater to the first physical adsorbent reactor An apparatus; It provides a carbon dioxide adsorption and desorption method.
According to the present invention, the indoor carbon dioxide concentration of subway rooms, schools, libraries, cinemas, and performance halls crowded with a large number of people in a short period of time can be rapidly and efficiently reduced by using a physical adsorbent and a chemical adsorbent to satisfy the indoor air carbon dioxide concentration standard. Can be. In addition, the present invention has the advantage of significantly increasing the lifetime of the adsorbent since the used physical adsorbent can be easily regenerated.

Description

Carbon dioxide adsorption and desorption apparatus and method thereof {CO2 ABSORBENT / DESORBENT APPARATUS AND ITS METHOD}

The present invention relates to a carbon dioxide adsorption and desorption apparatus and method thereof, and more particularly, to artificially adsorb carbon dioxide generated in a room of a subway room, a school, a library, a movie theater, a performance hall, etc. The present invention relates to a carbon dioxide adsorption and desorption apparatus and a method for desorption and desorption thereof.

In general, subway rooms, schools, libraries, movie theaters, and performance halls are crowded indoors with a large number of people.

In particular, the subway is a representative public means of transportation in which a plurality of cabin vehicles are connected and has many advantages in punctuality and transportation.

Such subways are used to move along railroad tracks and stop at each station, leaving passengers at the same time, and the concentration of carbon dioxide in the subway cabins in crowded time zones often exceeds 2,500 ppm.

Exposure to high concentrations of carbon dioxide can cause adverse effects such as headaches, drowsiness, drowsiness, and reduced concentration, so ventilation is essential in indoor spaces.

On the other hand, the existing subway is not equipped with a carbon dioxide reduction device and ventilation is dependent on natural ventilation when the door is opened at the station.

Of course, recently, the newly manufactured subway vehicle is designed to monitor the indoor carbon dioxide concentration when the concentration is high, but the concentration of fine dust even if the concentration of carbon dioxide in the cabin when the outside air is lowered. Recently, a carbon dioxide reduction device for subway rooms has been developed.

However, the recently developed carbon dioxide adsorption reduction device for subway rooms has a disadvantage in that the cost and replacement manpower and replacement time of the adsorbent are additionally required because the carbon dioxide adsorbent has a short lifespan and thus needs to be replaced when the adsorption performance is reduced.

Therefore, there is a need for a system that can use the adsorbent for a longer time for the practical use of the carbon dioxide reduction device.

Patent Publication No. 10-2008-0075290

Accordingly, the present invention is to solve these problems, the present invention is to adsorb the carbon dioxide in the indoor air, such as subway rooms, schools, libraries, movie theaters, performance halls and the like crowded with a large number of people in a short period of time and desorption It provides a function and method for carbon dioxide adsorption and desorption which can be reused by desorbing and regenerating carbon dioxide when people are concentrated and adsorbed carbon dioxide when the concentration of carbon dioxide is high and when people are not concentrated. The purpose is.

In order to solve such a technical problem,

The first physical adsorbent reactor is filled with an air inlet unit through which air is introduced into the room, a physical adsorbent for adsorbing carbon dioxide in the indoor air introduced through the air inlet unit, and the carbon dioxide is removed through the first physical adsorbent reactor. Air discharge unit for discharging the air of the state into the room, and adsorption air circulation fan for forced circulation of the air to discharge through the air discharge unit through the first physical adsorbent reactor by forcing the air in the room through the air inlet unit And a desorption heater for heating air, and a desorption air circulation fan forcing air into the desorption heater so that the air heated by the desorption heater is introduced into the first physical adsorber reactor. It provides a carbon dioxide adsorption and desorption device.

In this case, a desorption air inlet port through which external air is introduced into the desorption heater, an air guide tube through which the air heated by the desorption heater is introduced into the first physical adsorption reactor, and the first physical adsorption reactor is introduced. Detachable air discharge port for discharging the heated air to the outside is characterized in that it is further provided.

The air inlet may include an air inlet grill and an inlet duct such that indoor air is introduced into the first physical adsorber reactor.

In addition, the air discharge unit is characterized in that the exhaust duct and the air discharge grill to pass through the first physical adsorbent reactor to discharge the air of the carbon dioxide is adsorbed and removed to the room.

And, the physical adsorbent is characterized in that any one of zeolite, alumina, activated carbon.

In addition, the first physical adsorber reactor is provided with air contact first and second shut-off valves at the front and rear ends; The control means opens the first and second shut-off valves and drives the adsorption air circulation fan to adsorb carbon dioxide according to the carbon dioxide concentration measured by the carbon dioxide sensor for measuring the concentration of carbon dioxide in the indoor air. The second shut-off valve is blocked, the adsorption air circulation fan is stopped, and the desorption heater and the desorption air circulation fan are driven to desorb carbon dioxide inside the first physical adsorber reactor.

In addition, a second physical adsorbent reactor is further provided between the air inlet unit and the air discharge unit in which a physical adsorbent is filled.

In this case, the second physical adsorber reactor is provided with a third and fourth shut-off valves at the front and the rear end to open and control the third and fourth shut-off valves by a control means so that external air flows into the second physical adsorber reactor. Characterized in that the control.

In addition, the chemical adsorbent reactor is further provided between the air inlet and the air discharge portion is filled with a chemical adsorbent.

At this time, the chemical adsorbent reactor is provided with the fifth and sixth shut-off valves at the front and the rear end to control the opening and closing of the fifth and sixth shut-off valves by a control means to control the external air flow into the chemical adsorbent reactor. It features.

In addition, the chemical adsorbent is characterized in that any one of lithium hydroxide, sodium hydroxide, calcium hydroxide, potassium hydroxide.

The present invention also provides

Monitoring carbon dioxide concentration in the room through a carbon dioxide sensor; When the carbon dioxide concentration measured by the carbon dioxide sensor exceeds 1,000 ppm, driving the adsorption air circulation fan to force circulation of indoor air to pass the physical adsorption reactor filled with the physical adsorption agent to adsorb carbon dioxide; When the carbon dioxide concentration measured by the carbon dioxide sensor is lower than 800 ppm during the step of adsorbing the carbon dioxide, the external heater is driven by heating the desorption heater, and the desorption air circulation fan is driven into the physical adsorption reactor to enter the physical adsorbent. Desorbing the adsorbed carbon dioxide provides a carbon dioxide adsorption and desorption method comprising a.

According to the present invention, the indoor carbon dioxide concentration of subway rooms, schools, libraries, cinemas, and performance halls crowded with a large number of people in a short period of time can be rapidly and efficiently reduced by using a physical adsorbent and a chemical adsorbent to satisfy the indoor air carbon dioxide concentration standard. Can be.

In addition, the present invention has the advantage of significantly increasing the lifetime of the adsorbent since the used physical adsorbent can be easily regenerated.

1 is a block diagram of a carbon dioxide adsorption and desorption apparatus according to the present invention.
Figure 2 is a detailed configuration of the carbon dioxide adsorption and desorption apparatus according to the present invention.
3 is a control block diagram of the carbon dioxide adsorption and desorption apparatus according to the present invention.

With reference to the accompanying drawings, the carbon dioxide adsorption and desorption apparatus according to the present invention will be understood by the embodiments described in detail below.

1 is a configuration diagram of the carbon dioxide adsorption and desorption apparatus according to the present invention, FIG. 2 is a detailed configuration diagram of the carbon dioxide adsorption and desorption apparatus according to the present invention, and FIG. 3 is a control configuration diagram of the carbon dioxide adsorption and desorption apparatus according to the present invention. to be.

1 to 3, the carbon dioxide adsorption and desorption apparatus according to the present invention lowers the concentration of carbon dioxide by adsorbing carbon dioxide in the indoor air of subway rooms, schools, libraries, movie theaters, performance halls, etc. by desorbing and regenerating the adsorbed carbon dioxide We want to make it available again.

In particular, in the subway, there are a lot of passengers, so the adsorption is carried out when the carbon dioxide concentration is high, and when there are few passengers or when the operation is completed, the adsorbed carbon dioxide is desorbed.

The carbon dioxide adsorption and desorption apparatus 100 according to the present invention has a physical inhaler adsorbs carbon dioxide in the indoor air introduced through the air inlet 110 and the air inlet 110, the indoor air is The first physical adsorbent reactor 120, the air discharge unit 130 for discharging the air in the state in which carbon dioxide is removed through the first physical adsorbent reactor 120, and the indoor air inlet It is composed of a suction air circulation fan 140 for forcibly circulating the air to be forced through the unit 110 to be discharged through the air discharge unit 130 via the first physical adsorbent reactor 120.

On the other hand, the air inlet 110 comprises an air inlet grill 112 and the inlet duct 114, the air in the room is introduced through the air inlet grill 112, which is the first physical adsorbent through the inlet duct 114 It is introduced into the reactor 120.

In addition, the air discharge unit 130 includes an exhaust duct 132 and an air discharge grill 134, and the air in which carbon dioxide is adsorbed and removed is passed through the first physical adsorbent reactor 120. Through the air discharge grill 134 is discharged to the room.

On the other hand, the first physical adsorbent reactor 120 is provided with air contact first and second shut-off valves 121 and 122 at the front and rear ends to control the opening and closing of the first and second shut-off valves 121 and 122 to remove external air. 1 physical adsorbent to prevent the reactor 120 is introduced.

In addition, a second physical adsorber reactor 150 is further provided between the inlet duct 114 of the air inlet 110 and the outlet duct 132 of the air outlet 130.

That is, the second physical adsorbent reactor 150 is connected in parallel with the first physical adsorbent reactor 120, and the second physical adsorbent reactor 150 has a third and fourth shut-off valves 151 and 152 at the front end and the rear end. ) Is provided to control the opening and closing of the third and fourth blocking valves 151 and 152 to prevent external air from flowing into the second physical adsorber reactor 150.

In addition, a chemical adsorbent reactor 160 is further provided between the inlet duct 114 of the air inlet 110 and the outlet duct 132 of the air outlet 130. That is, the chemical adsorbent reactor 160 is connected in parallel with the first physical adsorbent reactor 120, and the chemical adsorbent reactor 160 is provided with fifth and sixth shut-off valves 161 and 162 at the front and rear ends. By controlling the opening and closing of the fifth and sixth shutoff valves 161 and 162, external air is prevented from flowing into the chemical adsorbent reactor 160.

According to the above configuration, the air introduced through the inlet duct 114 of the air inlet unit 110 is discharged from the air outlet unit 130 through the first and second physical adsorbent reactors 120 and 150 and the chemical adsorbent reactor 160. It is discharged through the duct 132.

In this case, when only the first and second blocking valves 121 and 122 are opened, the carbon dioxide is adsorbed while passing through only the first physical adsorber reactor 120, and when only the third and fourth blocking valves 151 and 152 are opened. Carbon dioxide is adsorbed while passing through only the second physical adsorber reactor 150, and when only the fifth and sixth shutoff valves 161 and 162 are opened, the air is adsorbed while carbon dioxide is adsorbed while passing through only the chemical adsorber reactor 160. It is discharged to the discharge duct 132 of the discharge unit 130.

On the other hand, the adsorption air circulation fan 140 is provided in the discharge duct 132 of the air discharge unit 130 and the inlet duct 114 of the air inlet 110 when the adsorption air circulation fan 140 is driven. Forced suction of indoor air through the first and second physical adsorbent reactors (120,150) and the chemical adsorbent reactor (160) and then forced into the room through the air discharge grill 134 of the air discharge unit 130 Exhausted.

In this case, the first and second physical adsorbent reactors 120 and 150 and the chemical adsorbent reactor 160 adsorb carbon dioxide by using a physical adsorbent and a chemical adsorbent, respectively. Physical adsorbents include zeolite, alumina, and activated carbon, which are somewhat inferior in carbon dioxide adsorption, but can be regenerated by thermal desorption. Chemical adsorbents are lithium hydroxide, sodium hydroxide, calcium hydroxide, and hydroxide which have good carbon dioxide adsorption, but are not regenerated through thermal desorption Potassium and the like are used.

In addition, the first to sixth shutoff valves 121, 122, 151, 152, 161, and 162 provided on the upper and lower portions of the first and second physical adsorbent reactors 120 and 150 and the chemical adsorbent reactor 160 are external adsorbents when the system is not operated. Alternatively, contact with the chemical adsorbent may be prevented to extend the life of the physical adsorbent or the chemical adsorbent as much as possible.

Meanwhile, the control means 104 controls the opening and closing of the first to sixth shutoff valves 121, 122, 151, 152, 161 and 162 according to the carbon dioxide concentration measured by the carbon dioxide sensor 102 for measuring the concentration of carbon dioxide in the indoor air. Of course, the control means 104 also controls the operation of the adsorption air circulation fan 140.

That is, the control means 104 operates the adsorption air circulation fan 140 when the carbon dioxide concentration measured by the carbon dioxide sensor 102 exceeds the minimum set value required to reduce the carbon dioxide of the indoor air, and the first and second 2 Opens the shutoff valves 121 and 122 to pass only the first physical adsorbent reactor 120, and opens and closes the remaining third to sixth shutoff valves 151, 152, 161 and 162 according to the carbon dioxide concentration measured by the carbon dioxide sensor 102. According to control the adsorption of carbon dioxide.

For example, when the carbon dioxide concentration measured by the carbon dioxide sensor 102 exceeds 1,000 ppm, which is a standard of a general indoor environment, the first and second shut-off valves 121 and 122 pass through only the first physical adsorbent reactor 120 to adsorb carbon dioxide. To open the first to fourth shut-off valves 121, 122, 151 and 152 to pass through the first and second physical adsorbent reactors 120 and 150 when exceeding 1,500 ppm, and also through the chemical adsorbent reactors 120, 150 and 160 when exceeding 2,000 ppm. The first to sixth shut-off valves 121, 122, 151, 152, 161 and 162 are opened to control the carbon dioxide concentration in the room.

The reference setting value of the mode change can be changed to match the actual application condition through programming. The air whose carbon dioxide concentration is lowered through the adsorbent is discharged to the room through the discharge duct 132 and the air discharge grill 134 of the air discharge unit 130 to lower the carbon dioxide concentration in the applied indoor space.

On the other hand, when the carbon dioxide concentration is lower than a specific set reference value (for example, 800ppm, etc.), desorption occurs instead of adsorption of carbon dioxide. In this case, the control means 104 stops driving the adsorption air circulation fan 140 and performs a desorption function.

For this purpose, the removable heater 170 for heating the air, the removable air inlet 172 through which external air flows into the removable heater 170, and the air heated by the removable heater 170 are provided. Air guide pipe 174 to the first and second physical adsorbent reactor (120,150), and a removable air discharge port for discharging the heated air introduced into the first and second physical adsorbent reactor (120,150) to the outside ), And a detachable air circulation fan 178 for forcibly introducing external air through the detachable air inlet 172.

Accordingly, the air introduced through the desorption air inlet 172 is heated to 150 to 200 ° C. through the desorption heater 170, and the heated air passes through the first and second physical adsorbent reactors 120 and 150. Desorbed carbon dioxide adsorbed in to be discharged through the desorption air outlet 176.

At this time, the desorption time can be different depending on the actual operation time or operating conditions, for example, the operation duration of the desorption heater 170 is 30 minutes, the operation time of the desorption air circulation fan 178 Can be controlled by the control means 104 such that the entire apparatus is completely stopped after the first to sixth shut-off valves 121, 122, 151, 152, 161 and 162 of all physical adsorbents are closed one hour after the start of desorption by setting the time to 1 hour. It can be controlled differently according to actual application conditions.

Carbon dioxide adsorbent prepared using the present invention can be used to remove carbon dioxide in the indoor space. Passing indoor air with high carbon dioxide concentration through the reactor (120,150,160) containing carbon dioxide adsorbent can absorb carbon dioxide in the air and lower the carbon dioxide concentration in the indoor space to less than 1,000 ppm, which is the standard of the Indoor Air Quality Control Act, such as a multi-use facility. have. In particular, when the concentration of carbon dioxide in the room is low, only the physical adsorbent is used, and in the case of the high carbon dioxide concentration in the room can be effectively lowered by operating the chemical adsorbent.

In addition, the used physical adsorbent is regenerated by thermal desorption when the carbon dioxide concentration of the outside air is low, and the chemical adsorbent is to be replaced with a new adsorbent when the end of life.

Summarizing the carbon dioxide adsorption method described above, monitoring the carbon dioxide concentration in the room through the carbon dioxide sensor 102, and if the carbon dioxide concentration measured by the carbon dioxide sensor 102 exceeds 1,000ppm adsorption air circulation fan 140 ) By forcing the indoor air to pass through the first physical adsorbent reactor 120 is filled with a physical adsorbent to adsorb carbon dioxide, and the adsorbed carbon dioxide is measured by the carbon dioxide sensor 102 When the carbon dioxide concentration is lower than 800ppm to drive the desorption heater 170 to heat the outside air, and to drive the desorption air circulation fan 178 to the physical adsorbent reactor to desorb the carbon dioxide adsorbed on the physical adsorbent Is done.

While the present invention has been described in connection with what is presently considered to be preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: carbon dioxide adsorption and desorption device 102: carbon dioxide sensor
104: control means 110: air inlet
112: air inlet grill 114: inlet duct
120: first physical adsorbent reactor 130: air discharge unit
132: exhaust duct 134: air exhaust grill
140: air circulation fan for adsorption 150: second physical adsorber reactor
160: chemical adsorbent reactor 170: desorption heater
172: removable air inlet 174: air guide
176: removable air discharge port 178: removable air circulation fan

Claims (12)

The first physical adsorbent reactor is filled with an air inlet unit through which air is introduced into the room, a physical adsorbent for adsorbing carbon dioxide in the indoor air introduced through the air inlet unit, and the carbon dioxide is removed through the first physical adsorbent reactor. Air discharge unit for discharging the air of the state into the room, and adsorption air circulation fan for forced circulation of the air to discharge through the air discharge unit through the first physical adsorbent reactor by forcing the air in the room through the air inlet unit And a desorption heater for heating the air, and a desorption air circulation fan for forcing air into the desorption heater so that the air heated by the desorption heater is introduced into the first physical adsorbent reactor,
The first physical adsorber reactor is provided with air contact first and second shut-off valves at the front and rear ends;
When the carbon dioxide concentration exceeds the minimum set value according to the carbon dioxide concentration measured by the carbon dioxide sensor which measures the concentration of carbon dioxide in the indoor air by setting the minimum set value that requires the reduction of carbon dioxide in the indoor air, the control means may control the first and second values. 2 Open the shutoff valve and drive the adsorption air circulation fan to adsorb carbon dioxide, and if the carbon dioxide concentration is less than the minimum set point, shut off the first and second shutoff valves, stop the adsorption air circulation fan, and remove the Carbon dioxide adsorption and desorption apparatus characterized in that the desorption of carbon dioxide in the first physical adsorbent reactor by driving a heater and a desorption air circulation fan.
The method of claim 1,
Desorption air inlet through which external air flows into the desorption heater, an air guide tube for introducing air heated in the desorption heater to the first physical adsorbent reactor, and the heated air introduced into the first physical adsorbent reactor. Carbon dioxide adsorption and desorption device, characterized in that the air discharge port for removing the discharge further to the outside.
The method of claim 1,
The air inlet is composed of an air inlet grill and an inlet duct so that indoor air flows into the first physical adsorber reactor,
The air discharge unit is a carbon dioxide adsorption and desorption apparatus comprising a discharge duct and an air discharge grill so as to pass through the first physical adsorbent reactor to discharge the air in the state that carbon dioxide is adsorbed and removed to the room.
delete The method of claim 1,
The physical adsorbent is any one of zeolite, alumina, activated carbon, carbon dioxide adsorption and desorption apparatus.
delete The method of claim 3, wherein
Carbon dioxide adsorption and desorption apparatus characterized in that the second physical adsorbent reactor is further provided between the inlet duct of the air inlet and the discharge duct of the air outlet.
8. The method of claim 7,
The second physical adsorber reactor is provided with a third and fourth shut-off valves at the front and rear ends to control the opening and closing of the third and fourth shut-off valves by a control means to allow external air to flow into the second physical adsorber reactor. Carbon dioxide adsorption and desorption apparatus characterized in that the control.
The method of claim 3, wherein
Carbon dioxide adsorption and desorption apparatus further comprises a chemical adsorbent reactor is filled between the inlet duct of the air inlet and the discharge duct of the air outlet.
The method of claim 9,
The chemical adsorbent reactor is provided with a fifth and sixth shut-off valves at the front and the rear end to control the opening and closing of the fifth and sixth shut-off valves by a control means to control external air to flow into the chemical adsorbent reactor. CO2 adsorption and desorption device.
The method of claim 9,
The chemical adsorbent is carbon dioxide adsorption and desorption device, characterized in that any one of lithium hydroxide, sodium hydroxide, calcium hydroxide, potassium hydroxide.
Monitoring carbon dioxide concentration in the room through a carbon dioxide sensor;
When the carbon dioxide concentration measured by the carbon dioxide sensor exceeds 1,000ppm, the adsorption air circulation fan is driven to force the indoor air to pass through the first physical adsorbent reactor filled with the physical adsorbent, and when the carbon dioxide concentration exceeds 1,500ppm, the first and second Passing the second physical adsorbent reactor, and if exceeding 2,000 ppm, passing the first and second physical adsorbent reactor and the chemical adsorbent reactor to adsorb carbon dioxide;
When the carbon dioxide concentration measured by the carbon dioxide sensor is lower than 800 ppm during the step of adsorbing the carbon dioxide, the external heater is heated by driving a desorption heater and the desorption air circulation fan is driven into the first and second physical adsorbent reactors. Carbon dioxide adsorption and desorption method comprising the; step of desorbing carbon dioxide adsorbed on the physical adsorbent.

Images