KR101691590B1 - Refrigerant reclaim method and apparatus - Google Patents

Abstract

According to the present invention, a method for regenerating a refrigerant comprises: a first step of recovering a polluted refrigerant to be stored inside a distillation tank; a second step of heating the refrigerant stored inside the distillation tank to be vaporized; a third step of discharging the gaseous refrigerant from the distillation tank when pressure inside the distillation tank is raised to be over a reference value; a fourth step of removing oil and moisture from the gaseous refrigerant discharged from the distillation tank; a fifth step of condensing the regenerative refrigerant where the oil and the moisture are removed; and a sixth step of storing the liquefied regenerative refrigerant in a charging container through a condensing process. The present invention can regenerate the refrigerant to increase the quality of a regenerative refrigerant without using a compressor to compress the refrigerant to be regenerated, has low energy consumption to reduce costs required for regenerating the refrigerant, and can regenerate both the high pressure refrigerant and the low pressure refrigerant to have excellent utilization by using the method for regenerating a refrigerant and an apparatus therefor.

Description

REFRIGERANT RECLAIM METHOD AND APPARATUS [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerant regeneration method and apparatus for removing oil (refrigerating oil) and impurities such as moisture and dust contained in a refrigerant recovered from a flue gas refrigerant in a refrigerating air conditioner, And more particularly, to a method and apparatus for regenerating a refrigerant without using a compressor for refrigerant transfer during refrigerant regeneration.

Fluorocarbon refrigerants (CFCs, HCFCs, and HFCs), which cause climate and ecosystem change, are used as refrigerants in refrigeration air conditioners such as domestic air conditioners, automotive air conditioners, and industrial refrigeration systems. When they leak into the atmosphere, they destroy the stratospheric ozone layer or cause global warming As a matter of environmental damage to humankind.

In the past, in general, the discharge of fluorocarbon refrigerants into the atmosphere during maintenance or disposal of refrigerated air conditioners has been prohibited by the relevant laws in order to reduce the environmental impact of these fluorocarbon refrigerants in the atmosphere The recovery, regeneration, reprocessing technology and equipment needs of fluorocarbon refrigerants are increasing. In particular, in order to reuse the recovered refrigerant, a refining technique for removing oil, moisture, acid dust, dust, etc. contained in the recovered refrigerant is required.

In the conventional refrigerant recycling apparatus, a compressor is used for conveying refrigerant for condensing gaseous refrigerant after distillation. In this case, the lubricant in the crankcase of the compressor is mixed with the recovered refrigerant, and the recovered refrigerant is directly sucked into the compressor In addition, not only the oil contained in the recovered refrigerant itself but also the lubricating oil of the compressor may be added, and the contamination of the refrigerant may be increased. In order to remove the oil contained in the refrigerant, a method of installing an oil separator at the downstream of the compressor is utilized. However, even if the lubricant of the compressor is added to the refrigerant, the oil removal rate may not be sufficient even if the oil contained in the refrigerant is removed by the oil separator That is, there is a problem that the oil remains in the refrigerant and the reuse quality standard can not be satisfied.

Meanwhile, a refrigerant suited to the characteristics of the product is used in various refrigeration air conditioners (refrigerator, air conditioner, heat pump, chiller, refrigerator, etc.), and a conventional regenerating device for regenerating only a specific refrigerant is applied to various refrigeration air conditioners A general refrigerant regeneration device capable of regenerating various refrigerants has been required in recent years.

In addition, when the refrigerant is regenerated by using the conventional refrigerant regeneration apparatus, the energy consumption is very large and it is difficult to regenerate both the high-pressure refrigerant and the low-pressure refrigerant.

KR 10-0409182 B1

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a refrigeration system capable of regenerating refrigerant even when a compressor for transferring refrigerant to be regenerated is not used, Pressure refrigerant and low-pressure refrigerant can be regenerated, thereby providing a refrigerant recycling method and apparatus having excellent usability.

According to an aspect of the present invention,

A first step of recovering polluted refrigerant and storing it in a distillation tank;

A second step of heating and vaporizing the refrigerant stored in the distillation tank;

A third step of discharging the gaseous refrigerant in the distillation tank when the pressure in the distillation tank rises above a reference value;

A fourth step of removing oil and moisture in the gaseous refrigerant discharged from the distillation tank;

A fifth step of condensing the regenerated refrigerant from which oil and moisture have been removed;

A sixth step of storing the regenerated refrigerant liquefied in the condensing process in a filling container;

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The first step is configured to store the liquid-phase contaminated refrigerant and the gaseous phase-containing refrigerant in a distillation tank by liquefying them in a push / pull method and a compression condensing method, respectively.

The sixth step is configured to draw the filling container into the cooling water tank to maintain the filling container at a temperature equal to or lower than a reference value,

The fifth step is configured to cause the gaseous refrigerant to heat-exchange with the cooling water in the cooling water tank to condense it.

In the refrigerant recycling apparatus according to the present invention,

A distillation tank provided with an inner space for storing liquid refrigerant and having a liquid refrigerant and a liquid refrigerant tube for entering and exiting the gaseous refrigerant and a gaseous refrigerant tube;

A polluted refrigerant recovery unit for recovering liquid-phase contaminated refrigerant and gaseous polluted refrigerant supplied from the outside to the distillation tank, respectively;

A heater for heating the polluted refrigerant in the distillation tank;

A refrigerant oil separator for removing the oil contained in the gaseous contaminant refrigerant discharged from the distillation tank, a suction filter drier for removing moisture contained in the gaseous contaminant refrigerant passing through the refrigerant oil separator, A pollutant remover comprising a refrigerant condenser for condensing the regenerated refrigerant from which oil and moisture have been removed, and a water removing adsorption pipe for additionally removing moisture in the regenerated refrigerant liquefied by the refrigerant condenser;

A charging container for storing the liquid refrigerant regenerated by the pollutant removing unit;

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The distillation tank includes a discharge valve for discharging the gas-phase contaminated refrigerant to the outside when the contaminated refrigerant stored therein is heated and the internal pressure rises above a reference value, a level sensor for sensing the flow rate of the polluted refrigerant stored therein, A load cell for measuring the weight of the pollutant refrigerant stored therein, and a drain valve for discharging the foreign materials stacked on the bottom surface.

The polluted refrigerant recovery unit includes a polluted refrigerant compressor and a polluted refrigerant condenser, and is configured to compress and condense the gaseous pollutant refrigerant flowing along the gaseous refrigerant pipe, to liquefy the condensed refrigerant, and to recover the condensed refrigerant into the distillation tank.

A regenerating coolant cooling unit having a cooling water tank into which the filling container is drawn and a cooling water pump that causes the cooling water in the cooling water tank to flow through the refrigerant condenser;

A cooling water cooling unit configured to perform a refrigeration cycle including a compressor, a condenser, an expansion valve, and an evaporator, the cooling water passing through the cooling water pump performing heat exchange in the evaporator;

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It is possible to regenerate the refrigerant even if the compressor for conveying the refrigerant to be regenerated is not used and thus to improve the quality of the regenerated refrigerant and to reduce the energy consumption and to regenerate the refrigerant Pressure refrigerant and low-pressure refrigerant can be regenerated, which is advantageous in that it is excellent in utilization.

1 is a flowchart of a refrigerant regeneration method according to the present invention.
2 is a schematic view of a refrigerant regenerator according to the present invention.
3 is a schematic view showing the structure of a contaminated refrigerant recovery unit in a refrigerant recovery apparatus according to the present invention.
4 is a schematic view showing the structure of a contaminant removing unit in a refrigerant recycling apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a refrigerant recycling method and apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a flowchart of a refrigerant regeneration method according to the present invention.

The method for regenerating the refrigerant according to the present invention is a method for regenerating the polluted refrigerant containing oil and moisture, that is, a method for regenerating refrigerant for removing contaminants (oil, moisture, acid component, fine dust, etc.) Which is capable of regenerating various kinds of refrigerant, and is capable of regenerating even if a separate compressor is not used, thereby further improving the quality of the regenerated refrigerant.

In order to recover the polluted refrigerant by using the refrigerant reclamation method according to the present invention, the polluted refrigerant from the outside is first recovered and stored in the distillation tank (S10), and the refrigerant stored in the distillation tank is heated and vaporized (S20) . When the pressure in the distillation tank rises above a reference value, the gaseous refrigerant in the distillation tank is discharged to the outside of the distillation tank (S30). Most of the foreign substances such as oil, dust, (Hereinafter referred to as " gaseous refrigerant ") containing a trace amount of oil and moisture is discharged to the outside of the distillation tank.

When the gaseous refrigerant is discharged from the distillation tank, the oil and the moisture in the gaseous refrigerant are removed using an oil separator and a dryer after passing through an oil removal column using alumina silica gel as a filler (S40). The process of removing oil and moisture in the refrigerant by using the oil separator, the drier, and the like has been commercialized in the past, so that detailed description of the internal structure and operation principle of the oil separator and the dryer will be omitted.

If it is difficult to store a large amount of the regenerated refrigerant when the refrigerant (hereinafter, referred to as 'regenerated refrigerant') which is usable by removing oil and moisture from the gaseous refrigerant is maintained in a gaseous state, the gaseous regenerated refrigerant is condensed ) Is passed through a water removal column using a molecular sieve as an adsorbent to completely remove moisture and stored in a filling container (S60). The regenerated refrigerant in the liquid phase stored in the charging container can be used as needed by the user.

As described above, the refrigerant regeneration method according to the present invention is configured to remove the contaminants contained in the refrigerant after heating the refrigerant to vaporize the refrigerant. Therefore, by appropriately setting the conditions for heating the refrigerant, . In addition, the refrigerant recycling method according to the present invention does not use a separate compressor. Therefore, it is possible to prevent the lubricating oil of the compressor from being mixed with the refrigerant, And the quality of the regenerated refrigerant is remarkably improved.

On the other hand, when the polluted refrigerant from the outside is recovered and stored in the distillation tank, the polluted refrigerant can be stored as it is in a liquid state when the polluted refrigerant is in a liquid phase, and can be stored as it is in a vapor phase if the polluted refrigerant is in a gaseous state. However, when the contaminated refrigerant is gaseous, a large amount of contaminated refrigerant can not be stored in the distillation tank. Therefore, when the gaseous contaminant refrigerant is stored in the distillation tank, the gaseous polluted refrigerant can be liquefied and stored in the distillation tank.

That is, the step (S10) of recovering the polluted refrigerant from the outside and storing the polluted refrigerant in the distillation tank is performed by liquefying the liquid-phase polluted refrigerant and the gaseous polluted refrigerant by the push / pull method and the compression- Lt; / RTI > The refrigerant liquefaction method is commercialized in the technical field of the present invention, and a detailed description thereof will be omitted. Of course, even if the contaminated refrigerant supplied from the outside is stored as it is without phase change, the above-mentioned gas-phase contaminated refrigerant liquefaction process can be omitted if a sufficient amount of contaminated refrigerant can be stored in the distillation tank.

Further, in order for the regenerated refrigerant to be stored in the liquid phase for a long period of time, it is preferable to draw the filling container into the cooling water container to keep the filling container at a temperature below the reference value. In this case, the cooling water in the cooling water tank can be used to condense the gaseous recycled refrigerant. When the cooling water exchanges heat with the recycled refrigerant in the gaseous phase, the temperature rises to a certain level, It is preferable that the cooling water is cooled to a temperature lower than the reference value by a separate cooling part and then returned to the cooling water bath.

Hereinafter, the process of condensing the gaseous recycled refrigerant by using the cooling water, or the process of cooling the cooling water to a temperature lower than the reference value will be described in detail with reference to FIG.

FIG. 2 is a schematic view of a refrigerant recovery apparatus according to the present invention, FIG. 3 is a schematic view showing the structure of a polluted refrigerant recovery unit in a refrigerant recovery apparatus according to the present invention, and FIG. Rejection < / RTI >

The refrigerant regeneration apparatus according to the present invention recovers pollutants (oil, moisture, acid dust, fine dust, etc.) in the polluted refrigerant so as to be reusable, but does not use a separate compressor and lubricant of the compressor is mixed into the refrigerant And the refrigerant can be used for regeneration of various kinds of refrigerants.

That is, the refrigerant recycling apparatus according to the present invention includes: a distillation tank 100 having a liquid-phase refrigerant tube 110 and a gaseous refrigerant tube 120 for receiving liquid refrigerant and gaseous refrigerant, A pollutant refrigerant recovery unit 200 for recovering the polluted liquid refrigerant and the gaseous contaminant refrigerant provided from the outside to the distillation tank 100 and a heater 300 for heating the polluted refrigerant in the distillation tank 100 A pollutant removing unit 400 for removing contaminants in the gaseous pollutant refrigerant discharged from the distillation tank 100, a charging unit 400 for storing the liquid refrigerant regenerated by the pollutant removing unit 400, And a vessel 500. The distillation tank 100 is provided with a safety valve 140 for discharging the pressure when excess pressure is formed and a purge valve 145 for discharging the non-condensing gas.

The pollutant removing unit 400 includes a refrigerant oil removing column 410 and a refrigerant oil separator 420 for removing oil contained in gaseous polluted refrigerant discharged from the distillation tank 100, A suction filter drier 430 for removing moisture contained in polluted refrigerant in the vapor phase passing through the separator 420, a refrigerant condenser 440 for condensing the regenerated refrigerant from which oil and moisture have been removed, A moisture removal suction pipe 460 for additionally removing moisture in the regenerated refrigerant liquefied by the refrigerant condenser 440, and a sight glass 450 for visually checking the refrigerant discharged from the refrigerant condenser 440. At this time, the refrigerant oil removing column 410, the refrigerant oil separator 420, the suction filter drier 430, and the moisture removing suction pipe 460 can be used as currently commercialized products, Detailed description of the internal structure and operating principle of each component for oil and moisture removal can be made as long as it can remove any oil and moisture.

As described above, since the compressor for transferring gaseous refrigerant vaporized in the distillation tank is not used, the refrigerant regeneration apparatus according to the present invention can prevent the phenomenon that the lubricating oil of the compressor is mixed into the refrigerant in the process of compressing the contaminated refrigerant. The polluted refrigerant is phase-changed into a gas phase to separate foreign matters such as dust and the like, and the oil and moisture contained in the polluted refrigerant in the gas phase are removed by an adsorption method, so that the purity of the regenerated refrigerant can be remarkably improved.

Further, the refrigerant recycling apparatus according to the present invention is not only capable of regenerating any kind of refrigerant, but also is capable of regenerating various types of refrigerant. That is, the refrigerant regeneration apparatus according to the present invention is configured to remove contaminants by vaporizing the polluted refrigerant, and it is possible to regenerate various types of refrigerant by appropriately adjusting the temperature and time for heating the distillation tank 100 have.

On the other hand, when the contaminated refrigerant is excessively stored in the distillation tank 100 and the internal pressure is excessively increased, the distillation tank 100 may be damaged, And a level sensor (in this embodiment, the upper level sensor 150 and the lower level sensor 160) for sensing the weight and the load cell 180, and the pollutant refrigerant stored therein is heated to raise the internal pressure beyond the reference value And a discharge valve 130 for discharging the gaseous polluted refrigerant to the outside. Further, even when the contaminated refrigerant in the distillation tank 100 is excessively heated, the internal pressure of the distillation tank 100 rises and may be damaged. Therefore, the operation of the heater 300 is controlled according to the internal pressure of the distillation tank 100 A temperature controller 310 may be provided.

In addition, when the contaminated refrigerant flowing into the distillation tank 100 is heated and vaporized, foreign substances such as dust accumulate on the bottom of the distillation tank 100. If such a process is continued for a long time, a large amount of foreign substances are accumulated in the distillation tank 100 A drain valve 170 for discharging a foreign substance may be provided on the bottom surface of the distillation tank 100.

The polluted refrigerant recovery unit 200 for storing the polluted refrigerant supplied from the outside in the distillation tank 100 may be installed in the distillation tank 100 through the liquid refrigerant pipe 110 when the polluted refrigerant supplied from the outside is in the liquid phase, And if the polluted refrigerant supplied from the outside is in a gaseous phase, the gaseous polluted refrigerant may be phase-changed through the gaseous refrigerant pipe 120 to a liquid phase and then stored in the distillation tank 100.

That is, the polluted refrigerant recovery unit 200 includes a polluted refrigerant compressor 210 for compressing gaseous pollutant refrigerant flowing along the gaseous refrigerant pipe 120 to a higher pressure than a reference value, And a polluted refrigerant condenser 220 for condensing the gaseous polluted refrigerant at a high temperature and pressure and phase-changing the refrigerant into a liquid phase. If the gaseous phase-containing refrigerant is phase-changed into a liquid phase and stored in the distillation tank 100, a larger amount of contaminated refrigerant can be stored in the distillation tank 100, and in the process of phase- And the like are easily separated from each other.

At this time, a contaminated refrigerant liquid separator 230 for preventing liquid-phase contaminated refrigerant from flowing into the contaminated refrigerant compressor 210 is provided at the front end side of the polluted refrigerant compressor 210, and the polluted refrigerant discharged from the compressor, The polluted refrigerant oil separator 230 and the polluted refrigerant oil separator 240 are widely used in the technical field of the present invention. And therefore, a detailed description thereof will be omitted.

Also, it is preferable that the regenerated refrigerant from which the contaminant is removed through the pollutant removing unit 400 is stored in the liquid container in the filling container 500. The regenerant refrigerant is more efficiently liquefied and is liquid in the filling container 500 A regenerated coolant cooling unit 600 for cooling the regenerated coolant may be additionally provided.

The regenerated coolant cooling unit 600 includes a cooling water tank 610 having a size to which the filling container 500 can be introduced and filled with cooling water therein and cooling water in the cooling water tank 610, And a cooling water pump (620) for flowing the cooling water through the cooling water pump (440). The filling container 500 provided in the cooling water tank 610 is always kept at a temperature lower than the reference value so that the liquid regenerated refrigerant in the filling container 500 can be maintained in a liquid phase have. The refrigerant condenser 440 for condensing the gaseous recycled refrigerant is configured such that the cooling water drawn out from the cooling water tank 610 performs heat exchange with the gaseous recycled refrigerant, There is an advantage that it can be.

On the other hand, the cooling water, which has undergone the heat exchange with the recycled refrigerant in the gaseous phase while passing through the refrigerant condenser 440, may be heated to a certain level and may be unsuitable for cooling the filling container 500. Accordingly, the refrigerant recycling apparatus according to the present invention includes the cooling water cooling unit 700 for cooling the cooling water so that the cooling water discharged from the refrigerant condenser 440 may be cooled before being returned to the cooling water tank 610 .

The cooling water cooling unit 700 includes a compressor 710, a condenser 720, an expansion valve 730, and an evaporator 740. The cooling water passing through the cooling water pump 620 flows through the evaporator 720, The cooling water heated to a certain level while passing through the refrigerant condenser 440 is cooled while passing through the evaporator 740 and is then returned to the cooling water tank 610 so that the cooling water tank 610 The charging container 500 mounted in the container can be kept in a continuously cooled state.

The cooling water cooling unit 700 is provided with a liquid separator 750 at the inlet side of the compressor 710 so as to prevent the liquid from flowing into the compressor 710 and the oil component is not introduced into the condenser 720 An oil separator 760 is provided between the compressor 710 and the condenser 720 and a filter dryer 770 is installed between the condenser 720 and the evaporator 740 to prevent water inflow to the expansion valve 730 side. . The liquid separator 750, the oil separator 760, and the filter drier 770 are parts commercialized in the related technical fields of the present invention, and a detailed description thereof will be omitted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the present invention is not limited to the disclosed exemplary embodiments. It will also be appreciated that many modifications and variations will be apparent to those skilled in the art without departing from the scope of the invention.

100: distillation tank 110: liquid refrigerant tube
120: gas refrigerant tube 130: discharge valve
140: Safety valve 145: Purge valve
150: upper level sensor 160: lower level sensor
170: drain valve 180: load cell
200: polluted refrigerant recovery unit 210: polluted refrigerant compressor
220: polluted refrigerant condenser 230: polluted refrigerant liquid separator
240: Contaminated refrigerant oil separator 300: Heater
310: Temperature regulator 400: Pollutant removal
410: Refrigerant oil removal column 420: Refrigerant oil separator
430: suction filter dryer 440: refrigerant condenser
450: Sight glass 460: Moisture removal adsorption tube
500: Charging vessel 600: Recycled refrigerant cooling unit
610: Cooling water tank 620: Cooling water pump
700: cooling water cooling part

Claims (7)

A first step of recovering the contaminated refrigerant and storing it in the distillation tank 100; A second step of heating and vaporizing the refrigerant stored in the distillation tank 100; A third step of discharging the gaseous refrigerant in the distillation tank 100 when the pressure in the distillation tank 100 rises above a reference value; A fourth step of removing oil and moisture in the gaseous refrigerant discharged from the distillation tank 100; A fifth step of condensing the regenerated refrigerant from which oil and moisture have been removed, and a sixth step of storing the regenerated refrigerant liquefied through the condensation process in the filling container 500,
The first stage is configured to store the liquid-phase contaminated refrigerant and the gaseous phase-separated refrigerant in the distillation tank 100 in a liquefied state by a push / pull method and a compression condensing method, respectively,
In the sixth step, the filling container 500 is drawn into the cooling water tank 610 to maintain the filling container 500 at a temperature equal to or lower than a reference value,
Wherein the fifth step is configured to cause the gaseous refrigerant to be heat-exchanged with the cooling water in the cooling water tank (610) for condensation.
delete delete A distillation tank 100 provided with an internal space for storing liquid refrigerant and having a liquid refrigerant pipe 110 and a gaseous refrigerant pipe 120 for entering and exiting the liquid refrigerant and the gaseous refrigerant; A polluted refrigerant recovery unit 200 for recovering liquid-phase contaminated refrigerant and gaseous pollutant refrigerant supplied from the outside to the distillation tank 100, respectively; A heater 300 for heating the polluted refrigerant in the distillation tank 100; A refrigerant oil separator 420 and a refrigerant oil separator 420 having alumina silica gel as an adsorbent for removing the oil contained in the gaseous contaminant refrigerant discharged from the distillation tank 100, A refrigerant condenser 440 for condensing the regenerated refrigerant from which oil and moisture have been removed; a condenser 440 for condensing the condensed refrigerant from the refrigerant condenser 440 by means of the refrigerant condenser 440; And a water removing adsorption pipe (460) having a molecular sieve as an adsorbent for additionally removing moisture in the recovered refrigerant. And a charging container 500 for storing the liquid refrigerant regenerated by the pollutant removing unit 400,
The distillation tank 100 includes a discharge valve 130 for discharging gas-phase contaminated refrigerant to the outside when the contaminated refrigerant stored therein is heated and the internal pressure rises above a reference value, A load sensor (180) for measuring the weight of the pollutant refrigerant stored therein, and a drain valve (170) for discharging the foreign matters stacked on the floor surface.
delete The method of claim 4,
The polluted refrigerant recovery unit 200 includes a polluted refrigerant compressor 210 and a polluted refrigerant condenser 220. The polluted refrigerant flowing along the gaseous refrigerant pipe 120 is compressed and condensed to be liquefied, And the refrigerant is recycled to the distillation tank (100).
The method of claim 4,
A cooling water tank 610 in which the filling container 500 is drawn in and a cooling water pump 620 for allowing the cooling water in the cooling water tank 610 to flow through the refrigerant condenser 440, A refrigerant cooling unit 600;
And a refrigerating cycle including a compressor 710, a condenser 720, an expansion valve 730 and an evaporator 740. The cooling water passing through the cooling water pump 620 is heat exchanged by the evaporator 740 A cooling water cooling unit 700;
Further comprising a refrigerant circulation pump for circulating the refrigerant.

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