KR20200085682A - Air Conditioner Having Double Cooling System - Google Patents

Abstract

The present invention relates to a double cooling type air conditioner using vaporization heat and evaporation heat, which comprises: a vaporization heat cooling device (100) having a vaporization coolant (110), a vaporization cooling pad (120), and a coolant sprayer (130) for spraying the vaporization coolant (110) to an upper layer part of the vaporization cooling pad (120); a first evaporation type cooling device (200-1) including a first compressor (210-1), a first condenser (220-1) connected to the first compressor (210-1), a first expansion valve (230-1, not shown) connected to the first condenser (220-1) and a first evaporator (240-1) connected to the first expansion valve (230-1, not shown), having a refrigerant flowing therein, and selectively operated to control a temperature of the vaporization coolant (110); a second evaporation type cooling device (200) including a second compressor (210), a second condenser (220) connected to the second compressor (210), a second expansion valve (230, not shown) connected to the second condenser (220) and a second evaporator (240) connected to the second expansion valve (230, not shown), having the refrigerant flowing therein, and selectively operated to cool air passing through the vaporization heat cooling device (100); and a case (300) disposed with the vaporization heat cooling device (100), the first evaporation type cooling device (200-1), and the second evaporation type cooling device (200). Accordingly, the energy efficiency is high and the energy use in accordance with a use environment can be minimized.

Description

Air conditioner having double cooling system using evaporative heat and evaporative heat

The present invention (Disclosure) relates to a dual-cooling air conditioner using evaporation heat and evaporation heat, and has high energy efficiency and can minimize energy use according to the use environment, and selectively operates cooling and dehumidification functions according to the indoor environment. It relates to a dual cooling type air conditioner using evaporative heat and evaporative heat that can maintain a comfortable living and working environment at a low operating cost.

Here, a background technology related to the present invention is provided, and this does not necessarily mean a known technology.

In the recent summer season in Korea, extreme heatwaves lasting for decades are threatening the lives of some people. It is difficult to do everyday activities as well as daily activities.

In general, in an office or general residential building, various types of cooling devices are installed and used to control indoor temperature or humidity. The recent summer heat wave is increasing the penetration rate of various cooling devices, and at the same time, it provides a cause for a rapid increase in energy consumption in the summer.

The most common cooling device is an air conditioner, which is a type of evaporative cooling device using a cooling cycle of compression-condensation-expansion-evaporation. Cooling efficiency is high in an enclosed space, and it is particularly suitable for an individual space like a general home. The amount of energy required for compression and evaporation of the refrigerant required in the evaporation process is large, that is, the amount of electrical energy is used. The longer the refrigerant travel distance between the evaporation process and the compression-evaporation process, the lower the cooling efficiency, so there is a disadvantage that is not suitable for large buildings.

Another cooling device that has recently attracted attention is a vaporized cooling device using a natural state change of water, or a vaporized cooling fan. It is to use evaporation, a phenomenon in which water vaporizes below the boiling point.

There are two main methods for water to phase transition from liquid to gas. When water is boiled at 100°C, heat energy is transferred to each water molecule. When sufficient energy accumulates to overcome the binding energy between water molecules, the phase transitions to gas. At this time, it can be vaporized with gas even in liquid water.

Evaporation is a phenomenon that occurs on liquid surfaces. That is, some water molecules on the surface of the water absorb energy by contacting the container containing air or water. When the energy absorbed in this way is sufficiently increased to phase change some water molecules into a gas state, the water molecules are vaporized and evaporated. This phenomenon may occur continuously when the humidity is below saturation. When the water evaporates, the average energy of the remaining molecules decreases, so the temperature of the non-evaporated water decreases.

Thus, when water on a specific solid surface evaporates, the temperature of the solid can be lowered. In summer, sweat drying in the wind is a phenomenon in which the moisture in the sweat evaporates, and at this time, the evaporated moisture vaporizes with the amount of heat necessary for evaporation, so that the skin of the affected area can feel cool.

The evaporative cooling device forms a structure in which water is easily evaporated, and only energy for supplying water to the structure and energy for passing air through the structure are required, that is, in a general evaporative cooling device, It does not require much energy for compression and evaporation. It has the advantage of low energy consumption and low initial cost because it does not require the installation process of indoor and outdoor units. Recently, new product development continues in Korea, and consumer interest is also increasing.

However, the evaporative cooling device has a disadvantage that the cooling efficiency is greatly affected by the relative humidity of the air. If the relative humidity in the air is also low, evaporation is slowed and cooling efficiency is lowered. In addition, when the temperature of the water used for evaporation is high, the amount of heat energy that the water molecules take from the air when the water molecules evaporate decreases, and also the cooling efficiency decreases.

In addition, since the evaporative cooling apparatus uses a phenomenon in which a part of water molecules are vaporized, the cooled air may have a higher humidity than before it is cooled.

The optimal use environment of the evaporative cooling device based on the cooling principle is a high temperature and low humidity environment. It is suitable for summer in inland tropical climate such as desert environment. However, the summer weather in Korea is hot and humid. It is the situation that the climatic conditions that can show excellent energy efficiency of the evaporative cooling system are not satisfied.

Therefore, it is urgent to develop a local air conditioner that is suitable for the climate of Korea, which has a long duration of heat wave, has high energy efficiency, has a dehumidifying function, and does not require much initial cost.

1. Korea Patent Publication 10-2013-0122490

Disclosure of the Invention The present invention (Disclosure) aims to provide a dual cooling method air conditioner using vaporization heat and evaporation heat that can operate a cooler using evaporation heat with high energy efficiency and a cooler using evaporation heat with high dehumidification and cooling efficiency.

Disclosure of the Invention The present invention (Disclosure) is to provide a dual cooling type air conditioner using evaporative heat and evaporative heat capable of selectively driving evaporative cooling and evaporative cooling according to the temperature and humidity of air.

Disclosure of the Invention The present invention (Disclosure) is to provide a dual cooling method air conditioner using evaporative heat and evaporative heat that can maximize the cooling efficiency of an evaporative cooling device.

Here, an overall summary of the present invention is provided, which should not be understood as limiting the appearance of the present invention (This section provides a general summary of the disclosure and is not a comprehensive disclosure of its full scope or all of its features).

To solve the above problems, a dual cooling method air conditioner using evaporation heat and evaporation heat according to an aspect of the present invention, evaporative cooling water 110, evaporative cooling pad 120, and evaporative cooling pad 120 An evaporative cooling apparatus 100 having a cooling water injector 130 spraying the evaporative cooling water 110 in an upper portion of the body; A first condenser (220-1) connected to the first compressor (210-1) and the first compressor (210-1), and a first expansion valve (230-) connected to the first condenser (220-1) 1, not shown) and a first evaporator (240-1) connected to the first expansion valve (230-1, not shown), a refrigerant flows therein, and is selectively operated to vaporize the cooling water (110 ) To regulate the temperature A first evaporative cooling device (200-1); A second condenser 220 connected to the second compressor 210 and the second compressor 210, a second expansion valve 230 (not shown) connected to the second condenser 220, and the second expansion Consists of a second evaporator 240 connected to a valve 230 (not shown), a refrigerant flows therein, and is selectively operated to cool the air that has passed through the evaporative cooling device 100 to a second evaporation type Cooling device 200; And a case 300 in which the evaporative cooling device 100, the first evaporative cooling device 200-1, and the second evaporative cooling device 200 are disposed therein.

In a dual cooling method air conditioner using vaporization heat and evaporation heat according to an aspect of the present invention, the first evaporative cooling device 200-1 and the second evaporative cooling device 200 are in a stopped state , Evaporative cooling mode for cooling the outside air 3 of the case 300 by the evaporative cooling device 100 and discharging it to the outside of the case 300; The evaporative cooling device 100 and the first evaporative cooling device 200-1 are operated to cool the evaporative cooling water 110 and supply the evaporative cooling water temperature to the evaporative cooling device 100. ; And operating the evaporative cooling device 100 and the second evaporative cooling device 200 to cool the air cooled by the evaporative cooling device 100 again by the second evaporator 240. Temperature humidity control mode; characterized in that it is controlled by at least one of the operation mode consisting of.

In a dual cooling method air conditioner using evaporation heat and evaporation heat according to an aspect of the present invention, in the evaporative cooling water temperature control mode, the evaporative cooling water 110 is cooled by exchanging heat with the first evaporator 240-1. It is characterized in that it is supplied to the vaporization cooling pad 120 in a state.

In a dual cooling method air conditioner using evaporation heat and evaporation heat according to an aspect of the present invention, the temperature and humidity control mode, the external air (3) flowing into the interior of the case 300 is the vaporization cooling pad ( 120) to form the first cooling air 10, and the first cooling air 10 passes through the second evaporator 240 to cool and dehumidify to form the second cooling air 20, It characterized in that the discharge of the second cooling air (20).

In a dual cooling method air conditioner using evaporation heat and evaporation heat according to an aspect of the present invention, the evaporation cooling water 110 is accommodated, and the evaporation cooling water 110 received is the first evaporator 240-1. Cooling water tank to cool using (320); And a cooling water-supply pipe 321 connecting the cooling water tank 320 and the cooling water sprayer 130 to transfer the vaporized cooling water 110 accommodated in the cooling water tank 320 to the cooling water sprayer 130. It is characterized by.

A dual cooling method air conditioner using evaporation heat and evaporation heat according to an aspect of the present invention includes: a cooling water-temperature sensor 322 measuring a temperature of the evaporative cooling water 110 accommodated in the cooling water tank 320; And a cooling water temperature-controller (not shown) that controls the operation of the first evaporative cooling device 200-1 based on the temperature value measured by the cooling water-temperature sensor 322. It is characterized by.

A dual cooling method air conditioner using evaporation heat and evaporation heat according to an aspect of the present invention is disposed under the evaporation cooling pad 120, and the recovery water tank 330 for receiving the falling evaporation cooling water 110 ; A cooling water-recovery pipe 331 connecting the recovery water tank 330 and the cooling water tank 320 to transfer the vaporized cooling water 110 accommodated in the recovery water tank 330 to the cooling water tank 320; And a recovery pump 332 for pumping the vaporized cooling water 110 accommodated in the recovery water tank 330 into the cooling water-recovery pipe 331.

The dual cooling type air conditioner using vaporization heat and evaporation heat according to an aspect of the present invention includes external relative humidity, which is the relative humidity of the external air 3, and first relative humidity, which is the relative humidity of the first cooling air. A humidity sensor 410 to measure; A temperature sensor 420 for measuring an external temperature that is the temperature of the external air 3 and a first temperature that is the temperature of the first cooling air; And the evaporative cooling device 100 and the second evaporative cooling device 200 based on the external relative humidity or the first relative humidity or a difference and the external temperature or the first temperature or the difference. It characterized in that it further comprises a; cooling mode-controller (not shown) for controlling the operation.

A dual cooling method air conditioner using vaporization heat and evaporation heat according to an aspect of the present invention collects condensate condensed on the surface of the second evaporator 240 and transfers it to the cooling water tank 320 (323, not shown) is characterized by further comprising.

According to the present invention, the evaporation cooling apparatus 100 using an evaporation phenomenon in which water evaporates in air at room temperature, and the second evaporation cooling apparatus 200 using a cooling cycle of a refrigerant flowing in a closed pipe, cascade By combining in the (Casecade) method, energy efficiency is high and energy use according to the use environment can be minimized.

According to the present invention, by selectively operating the evaporative cooling apparatus 100 and the second evaporative cooling apparatus 200 according to the temperature and humidity environment of the indoor air, cooling and dehumidifying functions can be used while maximizing energy efficiency and cooling efficiency. have.

According to the present invention, the cooling of the evaporative cooling apparatus 100 by circulating the condensate generated in the vaporized cooling water 110 and the second evaporative cooling apparatus 200-1 used in the evaporative cooling apparatus 100 Efficiency improvement and dehumidification enhancement function can be implemented simultaneously.

1 is a view showing an embodiment of a dual cooling method air conditioner using vaporization heat and evaporation heat according to the present invention.
2 is a view for explaining the vaporization-type cooling mode of the operation mode of the dual-cooling air conditioner using evaporation heat and evaporation heat according to the present invention.
3 is a view for explaining the vaporization cooling water temperature control mode of the operation mode of the dual cooling method air conditioner using vaporization heat and evaporation heat according to the present invention.
4 is a view for explaining the temperature and humidity control mode of the operation mode of the dual cooling type air conditioner using heat of vaporization and evaporation according to the present invention.

Hereinafter, an embodiment in which a dual cooling method air conditioner using vaporization heat and evaporation heat according to the present invention is implemented will be described in detail with reference to the drawings.

However, the spirit of the present invention cannot be said to be limited by the embodiments described below, and those skilled in the art who understand the spirit of the present invention are included within the scope of the same technical spirit as the present disclosure. Although embodiments can be easily proposed as a method of substitution or modification, it is revealed that this is also included in the technical spirit of the present invention.

In addition, the terms used below are selected for convenience of explanation, and therefore, in grasping the technical contents of the present invention, it should not be limited to the dictionary meaning and should be interpreted appropriately in accordance with the technical spirit of the present invention.

1 is a view showing an embodiment of a dual cooling method air conditioner using vaporization heat and evaporation heat according to the present invention, and FIGS. 2 to 4 illustrate an operation mode of a dual cooling method air conditioner using vaporization heat and evaporation heat according to the present invention It is a drawing.

Referring to Figures 1 to 4, the configuration and operation of the dual cooling method air conditioner using vaporization heat and evaporation heat according to this embodiment will be described as follows.

The dual cooling type air conditioner using evaporation heat and evaporation heat according to the present embodiment includes a vaporization cooling device 100, a first evaporation cooling device 200-1, a second evaporation cooling device 200, and a case 300 ).

The evaporative cooling apparatus 100 includes a cooling water sprayer 130 for spraying vaporized cooling water 110, vaporizing cooling pads 120, and vaporizing cooling water 110 to the upper layers of the vaporizing cooling pads 120.

The first evaporative cooling apparatus 200-1 includes a first condenser 220-1 connected to the first compressor 210-1 and the first compressor 210-1, and a first condenser 220-1. ) Is connected to a first expansion valve (230-1, not shown) and a first expansion valve (230-1, not shown) connected to the first evaporator (240-1). In the first evaporative cooling device 200-1, a refrigerant flows therein, and is selectively operated to control the temperature of the evaporative cooling water 110.

The second evaporative cooling apparatus 200 includes a second condenser 220 connected to the second compressor 210 and the second compressor 210, and a second expansion valve 230 connected to the second condenser 220 , Not shown) and a second evaporator 240 connected to the second expansion valve 230 (not shown). The second evaporative cooling device 200, the refrigerant flows therein, is selectively operated to cool the air passing through the evaporative cooling device 100 and dehumidify at the same time.

In the case 300, the evaporative cooling device 100, the first evaporative cooling device 200-1, and the second evaporative cooling device 200 are disposed therein.

According to the operation of the fan 310, the external air 3 is introduced into the case 300 along the air flow 2 and then discharged upward. The air moving along the air flow 2 passes through the vaporization cooling pad 120 and then passes through the second evaporator 220 again.

The external air 3 is cooled due to the evaporation phenomenon of the vaporization cooling water 110 while passing through the vaporization cooling pad 120 to form the first cooling air 10.

The first cooling air is cooled while passing through the second evaporator 220 and is simultaneously dehumidified to discharge the second cooling air 20.

Therefore, according to the present invention, the evaporative cooling apparatus 100 using the evaporation phenomenon of water evaporation in air at room temperature, and the second evaporative cooling apparatus 200 using the cooling cycle of the refrigerant flowing in the closed conduit , By combining in a cascade method, energy efficiency is high and energy use according to the use environment can be minimized.

The evaporative cooling method utilizes a vaporization phenomenon below the boiling point of water used as a refrigerant. When the temperature of the evaporative cooling water 110 is high, the cooling efficiency of the evaporative cooling device 100 decreases. The first evaporative cooling device 200-1 cools the evaporative cooling water 110 to prevent a reduction in cooling efficiency of the evaporative cooling device 100. Since the first evaporative cooling device 200-1 is not involved in the cooling function, it may be configured with a smaller capacity than the second evaporative cooling device 200.

In addition, the dual cooling method air conditioner using evaporation heat and evaporation heat according to the present embodiment is a cooling water tank that receives the evaporation cooling water 110 and cools the evaporation cooling water 110 accommodated using the first evaporator 240-1. A cooling water supply pipe 321 for transferring the vaporized cooling water 110 accommodated in the cooling water tank 320 to the cooling water sprayer 130 by connecting the cooling water tank 320 and the cooling water sprayer 130 is further included. Can.

As described above, the first evaporative cooling device 200-1 cools the vaporized cooling water 110. By configuring the cooling water tank 320 in which the vaporized cooling water 110 is accommodated, the cooling efficiency in which the first evaporator 220-1 cools the vaporized cooling water 110 can be improved. In particular, when the cooling water tank 320 is formed of a heat insulating material and penetrates the first evaporator 220-1, the operation of the first evaporative cooling device 200-1 is minimized, and the evaporation type evaporator 100 is Cooling efficiency can be maximized.

In addition, the dual cooling method air conditioner using vaporization heat and evaporation heat according to the present embodiment may further include a recovery water tank 330, a cooling water-recovery pipe 331, and a recovery pump 332.

The recovery water tank 330 accommodates the vaporized cooling water 110 that is disposed below the vaporized cooling pad 120 and falls along the vaporized cooling pad 120 without evaporation. The cooling water-recovery pipe 3310 connects the recovery water tank 330 and the cooling water tank 320 to transfer the vaporized cooling water 110 accommodated in the recovery water tank 330 to the cooling water tank 320. In addition, the recovery pump ( 332) pumping the vaporized cooling water 110 accommodated in the recovery water tank 330 into the cooling water-recovery pipe 331, and the vaporized cooling water 110 to the cooling water tank 320 disposed on the upper side from the recovery water tank on the lower side. It can be easily transported.

By recycling the vaporized cooling water 110 that falls without evaporation, energy consumption of the vaporized cooling apparatus 100 can be minimized.

In addition, the dual cooling method air conditioner using vaporization heat and evaporation heat according to the present embodiment collects condensate condensed on the surface of the second evaporator 240 and transfers the condensate recovery unit 323 to be transferred to the cooling water tank 320 (not shown) ) May be further provided.

As described above, the second evaporator 240 cools the first cooling air 10 disposed in the flow path of the air flow 2 and cooled by the evaporative cooling device 100 again. The evaporative cooling apparatus 100 has high energy efficiency by using the heat of evaporation of water, but the first cooling air 10 may have high humidity by including evaporated water.

The second evaporator 240 cools the first cooling air 10 again, and condensate is formed by condensation of moisture in the first cooling air 10 on the surface. The condensate is condensed on the surface of the second evaporator 240 at a low temperature, so the temperature is low, and condensation condensation continues while the evaporative cooling device 100 is operating.

The condensate recovery unit 323 (not shown) is a condensate collection device that induces condensation condensation condensed on the surface of the second evaporator 240 to easily fall, and a condensate recovery pipe that collects the dropped condensate and transfers it to the cooling water tank 320 It can be composed of. The condensate collection device may have a louver pin structure.

Referring to Figures 1 to 4, the operation mode of the dual cooling method air conditioner using vaporization heat and evaporation heat according to this embodiment will be described as follows.

The operation mode of the dual cooling type air conditioner using vaporization heat and evaporation heat according to the present embodiment is at least one of a vaporization cooling mode, a vaporization cooling water temperature control mode, and a temperature humidity control mode.

In the evaporative cooling mode, the first evaporative cooling device 200-1 and the second evaporative cooling device 200 are not operated, and only the evaporative cooling device 100 is operated. The external air 3 is cooled by an evaporative cooling device to form the first cooling air 10, and then discharged to the outside of the case 300 along the air flow 2. Since the second evaporative cooling device 200 does not operate, the first cooling air 10 passing through the second evaporator 240 is not further cooled or dehumidified.

In the vaporization cooling water temperature control mode, the vaporization cooling water 110 is cooled by the first evaporative cooling apparatus 100 and supplied to the vaporization cooling apparatus 100. Energy consumption is achieved by cooling the evaporative cooling water 110 to improve the cooling efficiency of the evaporative cooling device 100 and configuring a low-capacity first evaporative cooling device 200-1 that cools only the evaporative cooling water 110. Cooling while minimizing.

In the temperature and humidity control mode, the evaporative cooling device 100 and the second evaporative cooling device 200 are operated to cool the air cooled by the evaporative cooling device 100 again by the second evaporator 240. do. Since the evaporative cooling method has a large energy consumption, it is possible to minimize energy consumption by operating in parallel with the evaporative cooling method. The air cooled by the evaporative cooling device 100 may increase in humidity while passing through the evaporative cooling pad 120, but the temperature may be lowered by 3-4 degrees or more. In the second evaporative cooling apparatus 200 having a large amount of energy consumption, since primary air cooled by the evaporative cooling apparatus 100 flows in, the energy consumption may be greatly reduced. In addition, by removing moisture, air at low temperature and low humidity can be discharged outside the case.

In addition, the temperature control mode of the dual cooling method air conditioner using vaporization heat and evaporation heat according to the present embodiment is to be supplied to the vaporization cooling pad in a state where the vaporized cooling water 100 is cooled by exchanging heat with the first evaporator 240-1. Can.

In addition, in the temperature control mode of the dual cooling method air conditioner using evaporation heat and evaporation heat according to the present embodiment, external air 3 flowing into the inside of the case 300 passes through the evaporation cooling pad 120 to perform the first cooling. The air 10 is formed, and the first cooling air 10 passes through the second evaporator 240 to be cooled and dehumidified to form the second cooling air 20 and discharged.

In addition, the dual cooling method air conditioner using evaporation heat and evaporation heat according to the present embodiment, a cooling water-temperature sensor 322 and a cooling water-temperature sensor 322 for measuring the temperature of the vaporized cooling water 110 accommodated in the cooling water tank 320 Based on the temperature value measured in ), it may further include a coolant temperature-controller for controlling the operation of the first evaporative cooling device 200-1.

By controlling the operation of the first evaporative cooling device 200-1 according to the cooling water temperature, energy consumption can be minimized.

In addition, the dual cooling method air conditioner using vaporization heat and evaporation heat according to the present embodiment measures external relative humidity, which is the relative humidity of the external air 3, and first relative humidity, which is the relative humidity of the first cooling air 10. Humidity sensor 410, temperature sensor 420 for measuring the outside temperature, which is the temperature of the outside air 3, and the first temperature, which is the temperature of the first cooling air 10, and the external relative humidity or the first relative humidity, or the like. Further comprising a cooling mode-controller (not shown) for controlling the operation of the evaporative cooling device 100 and the second evaporative cooling device 200 based on the difference and the external temperature or the first temperature or the difference. Can.

Therefore, the operation mode can be automatically set according to the conditions of the dual cooling method air conditioner using the vaporization heat and evaporation heat according to the present invention, and the external air 3.

1. Local air conditioning
2. Air flow
3. Outside air
10. First cooling air
20. Second cooling air
100. Evaporative cooling system
110. Evaporative cooling water
120. Evaporative cooling pad.
130. Cooling water sprayer
200-1. First evaporative cooling device
210-1. First compressor
220-1. 1st evaporator
230-1. 1st expansion valve
240-1. 1st evaporator
200. Second evaporative cooling system
210. Second compressor
220. Second evaporator
230. Second expansion valve
240. Second evaporator
300. Case
301. Air inlet
310. Fan
320. Cooling water tank
321. Coolant-supply line
322. Coolant-temperature sensor
323. Condensate recovery unit
330. Recovery tank
331. Cooling water-recovery pipe
332. Recovery pump
410. Humidity sensor
420. Temperature sensor.

Claims (1)

A vaporized cooling apparatus 100 having a vaporized cooling water 110, a vaporized cooling pad 120, and a cooling water sprayer 130 for spraying the vaporized cooling water 110 to an upper layer of the vaporized cooling pad 120;
A first condenser (220-1) connected to the first compressor (210-1) and the first compressor (210-1), and a first expansion valve (230-) connected to the first condenser (220-1) 1, not shown) and a first evaporator (240-1) connected to the first expansion valve (230-1, not shown), a refrigerant flows therein, and is selectively operated to vaporize the cooling water (110 ) To regulate the temperature A first evaporative cooling device (200-1);
A second condenser 220 connected to the second compressor 210 and the second compressor 210, a second expansion valve 230 (not shown) connected to the second condenser 220, and the second expansion Consists of a second evaporator 240 connected to a valve 230 (not shown), a refrigerant flows therein, and is selectively operated to cool the air that has passed through the evaporative cooling device 100 to a second evaporation type Cooling device 200; And
The evaporative cooling apparatus 100 and the first evaporative cooling apparatus 200-1 and the second evaporative cooling apparatus 200 are disposed inside the case 300; using vaporization heat and evaporation heat, including Double cooling air conditioner.

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