KR100662893B1 - Regenerating system of absorption refrigeration cycle and apparatus thereof - Google Patents

Abstract

A method and an apparatus for reproducing a refrigerant of an absorption type refrigeration cycle are provided to prevent damage to a refrigerant pump due to idling by stopping the operation of the refrigerant pump if the level of the refrigerant in an evaporator is lower than a predetermined lowest limit. A method for reproducing a refrigerant of an absorption type refrigeration cycle in which some of the refrigerant supplied to an upper portion of an evaporator is sent to a reproducer through an absorption unit(4) includes the steps of: performing reproduction of the refrigerant if the pressure of a high temperature reproducer is higher than a reference pressure and the temperature of cooling water at an outlet of a cooling tower is lower than a reference temperature; stopping temporarily the reproduction of the refrigerant if the refrigerant in the evaporator is lowered below a predetermined lowest level while the reproduction of the refrigerant is being performed; and performing the reproduction of the refrigerant if the refrigerant in the evaporator is raised above a predetermined reference level when the reproduction of the refrigerant is temporarily stopped.

Description

Regenerating system of absorption refrigeration cycle and apparatus

1 is a schematic configuration diagram showing an overall refrigerant regeneration system of an absorption type refrigeration cycle according to the present invention;

Figure 2 is a detailed view showing the installation configuration of the regeneration pipe for sending a part of the refrigerant supplied to the spray pipe to the absorber in the refrigerant regeneration system of the present invention;

3 is a flowchart illustrating the operation of the present invention.

※ Explanation of symbols about main part of drawing ※

1: regenerator 2: condenser

3: evaporator 4: absorber

5: solution pump 6: refrigerant pump

7: pressure sensor 8: temperature sensor

9, 9A, 9B: level sensor 10: spray piping

12: regeneration piping 13: automatic valve

14: manual ball valve 15: bypass piping

The present invention relates to a refrigerant regeneration method and a refrigerant regeneration device of an absorption refrigeration cycle, and more particularly, to a refrigerant regeneration method and a refrigerant regeneration device of an absorption refrigeration cycle in which refrigerant regeneration is automatically performed according to preset conditions.

In general, the absorption refrigeration cycle uses a regenerator that heats a strong concentration solution to evaporate the refrigerant contained in the strong solution to obtain a refrigerant vapor and simultaneously generates a low concentration refrigerant medicinal solution, and a refrigerant steam obtained from the regenerator uses cooling water. Condensate with liquid refrigerant, an evaporator to evaporate the liquid refrigerant discharged from the condenser, and a refrigerant vapor, and a continuous concentration of absorption to allow the medicinal solution to absorb the refrigerant vapor generated in the evaporator to create a strong concentration solution. And an absorber and a solution pump for sending the solution of the absorber, which is the low pressure part, to the regenerator, the high pressure part.

The regenerator may include a high temperature and a low temperature regenerator. In the case of a parallel type, a structure in which an evaporator and an absorber are installed horizontally with the low temperature regenerator and a high temperature regenerator is installed below the low temperature regenerator is adopted, and in the case of the serial type, Usually, a structure in which the cryogenic regenerator is installed on top of the evaporator and absorber is adopted.

In the case of the parallel type with the former structure, since the pressure of the high temperature regenerator is increased even after the refrigeration cycle is stopped and the dilution operation is completed, the absorbent solution collected at the lower part of the absorber due to the pressure difference between the absorber and the low temperature regenerator and the high temperature regenerator The injector is combined with the intermediate absorbing solution descending from the low temperature regenerator and then flows into the high temperature regenerator so that the level of the absorbing solution of the high temperature regenerator is higher than the normal level. Therefore, during the initial operation, the fuel is unnecessarily used until the water level of the absorption liquid is evaporated and lowered to the normal level, and it takes a considerable time until the absorption liquid is concentrated at a high concentration, and the cooling operation is delayed.

In the case of the series type having the latter structure, when the refrigeration cycle is stopped and the dilution operation is completed, some of the absorbent solution is stagnated in the lower part of the low temperature regenerator even if the inlet / outlet pressure of the hot and cold water is balanced, so the pressure in the cabin increases or the solution pump is restarted. There is a disadvantage that the cooling action is delayed until the start.

As described above, in the case of the parallel type or the serial tine, there is a common disadvantage that the cooling action is delayed, and various attempts have been made to shorten the cooling effect delay time and increase efficiency.

Most of these efforts focus on circulating the optimal amount of solution circulation and ensuring that the refrigerant is not contaminated by the absorbent liquid.

In particular, when the refrigerant is contaminated by the absorbent liquid and the specific gravity of the refrigerant is increased, the evaporator temperature of the evaporator is increased to lower the cooling capacity. Therefore, the refrigerant is called a refrigerant blowdown. After confirming directly with the back and the like, the valve is manually operated while checking the coolant level through the liquid level window, thereby regenerating the coolant while preventing idling of the coolant pump.

More specifically, when the refrigerant pump for supplying the lower portion of the evaporator, ie, the refrigerant filled in the refrigerant liquid receiver, to the spray pipe installed in the upper portion of the evaporator is started, the operation of the normal absorption refrigerant cycle in which the refrigerant evaporates from the evaporator is performed.

When the refrigerant is contaminated, that is, when the turbidity of the refrigerant is visually identified, the refrigerant is extracted, and the specific gravity of the refrigerant is checked to determine the contamination of the refrigerant, the refrigerant supplied to the spray pipe from the refrigerant receiver of the evaporator is checked. Send some to the absorber. At this time, the amount of refrigerant regenerated to the absorber should be at a level such that the refrigerant pump is not idled in the refrigerant reservoir, and the refrigerant level of the evaporator, that is, the refrigerant reservoir is visually confirmed through a liquid level meter installed in the evaporator. If the refrigerant level is too low, a manually operated valve is closed to close the path of the pipe that is installed to send the refrigerant to the absorber.

Subsequently, the refrigerant sent to the absorber is mixed with the rare solution in the absorber and sent to the high temperature regenerator by the solution pump, and a high temperature refrigerant vapor is generated in the high temperature regenerator heated by the gas or diesel heat source, and the inside of the heat exchanger tube of the low temperature regenerator is generated. Condensed with a high temperature refrigerant, the refrigerant vapor generated outside the low temperature regenerator heat pipe is condensed by the cooling water flowing inside the heat condenser heat pipe and sent to the evaporator by gathering under the condenser.

However, the conventional method described above requires a lot of experience for the driver, such as manually opening and closing the valve while visually checking the refrigerant level of the evaporator. There is a problem that the operation is continued with a low cooling capacity is not performed.

In addition, when parts such as solution pumps are damaged, the external air flows during the replacement of the parts, thereby causing a problem of lowering the performance of the equipment by reacting with an aqueous solution of lithium bromide as an absorbent to accelerate corrosion of the equipment.

Accordingly, an object of the present invention is to provide a refrigerant regeneration method and a refrigerant regeneration device of an absorption type refrigeration cycle in which refrigerant regeneration is automatically performed according to preset conditions.

In addition, the present invention, the refrigerant regeneration method of the absorption type refrigeration cycle that can monitor the refrigerant level of the evaporator when the refrigerant regeneration is performed and to control the on / off of the refrigerant pump in accordance with the refrigerant level to prevent idle rotation of the refrigerant pump and Another object is to provide a refrigerant regeneration device.

Another object of the present invention is to provide a refrigerant regeneration method and a refrigerant regeneration device of an absorption type refrigeration cycle that can prevent corrosion of equipment parts by blocking external air from entering when the parts such as a solution pump are damaged and replaced. There is this.

As a technical configuration for achieving the above object, the present invention, in the refrigerant regeneration method of the absorption refrigeration cycle for sending a portion of the refrigerant supplied to the upper portion of the evaporator to the regenerator through the regenerator, the pressure of the high temperature regenerator is a reference Regeneration of the refrigerant when the coolant temperature at the outlet of the cooling tower is higher than the reference temperature and lower than the reference temperature; and regeneration of the refrigerant is temporarily stopped when the refrigerant in the evaporator drops below a predetermined lower limit level during the regeneration of the refrigerant. And regenerating the refrigerant if the refrigerant in the evaporator rises higher than the preset reference level when the regeneration of the refrigerant is temporarily stopped, by providing a refrigerant regeneration method of the absorption refrigeration cycle. All.

In addition, the present invention, in the refrigerant regeneration device of the absorption refrigeration cycle to send a portion of the refrigerant supplied to the top of the evaporator through the absorber to the regenerator, the pressure of the high temperature regenerator is greater than the reference pressure and the cooling water temperature at the outlet of the cooling tower is a reference If the temperature is lower than the temperature, the regeneration of the refrigerant is performed. If the refrigerant in the evaporator falls further than the preset lower limit level during the regeneration of the refrigerant, the regeneration of the refrigerant is temporarily stopped. By providing a refrigerant regeneration device of the absorption type refrigeration cycle characterized in that it comprises a control unit for performing the regeneration of the refrigerant again when it is higher than the preset reference level.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic configuration diagram showing the overall refrigerant regeneration system of the absorption type refrigeration cycle according to the present invention.

The absorption refrigeration cycle is roughly similar to the conventional one, and has a regenerator 1, a condenser 2, an evaporator 3 and an absorber 4.

And it has a solution pump 5 which sends the solution of the absorber 4 which is a low pressure part to the regenerator 1 which is a high pressure part, and the piping for the movement of cooling water, a refrigerant | coolant, a solution, etc. is provided.

It also has a refrigerant pump (6) for supplying the lower portion of the evaporator (3), that is, the refrigerant filled in the refrigerant liquid receiver to the spray pipe (10) installed on the evaporator (3).

In addition, a regeneration pipe 11 for sending a portion of the refrigerant supplied to the spray pipe 10 to the absorber 4 during regeneration of the refrigerant is installed, and the regeneration pipe 11 is automatically operated to open and close the refrigerant passage. An automatic valve 12 is installed.

The invention relates to a pressure sensor (7) connected to measure the gauge pressure of a regenerator (1), in particular a high temperature regenerator, and to provide its information to a control panel (not shown), and the temperature of the cooling water discharged from the cooling tower outlet, ie the condenser (2). Has a level sensor (9) connected to measure the temperature of the temperature sensor (8) and the coolant level of the evaporator (3) to provide the information to the control panel and to provide the information to the control panel.

The level detecting sensor 9 has an upper limit level detecting sensor 9A for detecting that the lower portion of the evaporator 3, that is, the refrigerant filled in the coolant drip overflows toward the absorber 4, and the bottom of the coolant drip. It lowers to include a lower limit level detection sensor (9B) for detecting whether there is a possibility to cause idle rotation of the refrigerant pump (6).

The control panel receives a value input from the sensors, and inputs a program for performing refrigerant regeneration when the controller is in a predetermined condition. The program includes a pressure of the high temperature regenerator 1 measured by the pressure sensor 7 at 300. Refrigerant regeneration is performed when the cooling water temperature at the exit of the cooling tower measured by the temperature sensor 8 is less than or equal to mmHg (hereinafter referred to as 'reference pressure'), and the level is detected. Performing refrigerant regeneration when the refrigerant level measured by the sensor (9) is raised to overflow.

In the program input to the control panel, when the refrigerant is regenerated, the refrigerant level measured by the level sensor 9 falls to the bottom of the refrigerant receiver to cause idle rotation of the refrigerant pump 6. A program for pausing playback is included.

The present invention further has a configuration for preventing external air from entering the evaporator when parts such as a solution pump are damaged and replaced, which will be described in detail with reference to FIG.

The regeneration pipe 12 and the bypass pipe 15 are branched from the spray pipe 10, and the regeneration pipe 12 and the bypass pipe 15 are supplied with refrigerant from the evaporator 3 toward the absorber 4, respectively. It provides a refrigerant path as possible, and the regeneration pipe 12 and the bypass pipe 15 is equipped with an automatic valve 13 and a manual ball valve 14 to open and close each refrigerant path.

In addition, the manual ball valve 14 is also installed on the suction and discharge sides of the automatic valve 13 that frequently occurs.

That is, when the automatic valve 13 operates normally, the manual ball valve 14 of the bypass pipe 15 is closed and the manual ball valve 14 installed on the suction and discharge sides of the automatic valve 13 is opened. The flow path of the refrigerant is formed through the regeneration pipe 12 by the operation of the furnace automatic valve 13.

On the other hand, if a failure occurs in the automatic valve 13, the manual ball valve 14 of the bypass pipe 15 is opened to form a flow path of the refrigerant through the bypass pipe 15 and the automatic valve 13 After closing the manual ball valve 14 installed on the suction and discharge side performs the replacement operation of the automatic valve (13).

Similarly, the manual ball valve is installed on the suction and discharge sides of the solution pump 5 so that when the solution pump 5 is normally operated, the manual ball valve installed on the suction and discharge sides of the solution pump 5 is opened and the solution pump 5 ), It may have a configuration capable of closing the manual ball valve installed on the suction and discharge side of the solution pump (5).

Hereinafter, the operation of the present invention will be described with reference to FIG.

The refrigerant regeneration of the absorption refrigeration cycle is the pressure of the high temperature regenerator (1) measured by the pressure sensor (7) is 300mmHg or more reference pressure and the cooling water temperature of the cooling tower outlet measured by the temperature sensor (8) is the reference temperature It is performed when the temperature is 32 ° C. or lower, and is also performed when the coolant level measured by the level sensor 9 rises to overflow.

When the upper limit level sensor 9A detects that the refrigerant of the evaporator 3 has overflowed toward the absorber 4, that is, has risen to an upper limit value, the refrigerant is regenerated (steps 21 and 22).

That is, the automatic valve 13 of the closed regeneration pipe 12 is opened to regenerate the refrigerant in which a part of the refrigerant of the spray pipe 10 is supplied to the absorber 4 through the regeneration pipe 12.

The regeneration of the refrigerant is completed by pressing a signal for completing the regeneration of the refrigerant, for example, pressing a refrigerant completion button not shown in the control panel, or a refrigerant (not shown) for detecting a refrigerant pollution degree installed separately. It is performed until it is determined that it has been reproduced (step 23).

During the regeneration of the refrigerant, the refrigerant level of the evaporator 3 is continuously detected, and when the refrigerant of the evaporator 3 is detected by the lower limit level sensor 9B, that is, the lower limit value, the refrigerant is lowered. Playback is temporarily stopped (step 24 and step 25). That is, the operation of the refrigerant pump 6 is temporarily stopped to prevent damage due to idling of the refrigerant pump 6.

Of course, the regeneration of the refrigerant is continued when the refrigerant of the evaporator is higher than the lower limit.

Subsequently, when the regeneration of the refrigerant is temporarily stopped in the step, when the refrigerant level of the evaporator rises higher than a predetermined reference value, for example, a value set slightly higher than the above lower limit value or the lower limit value, the regeneration of the refrigerant is performed again ( Step 26).

In addition, when the level of the refrigerant in the step 21 is less than the upper limit, the temperature of the coolant at the outlet of the cooling tower measured by the temperature sensor 8 is below the reference temperature and the pressure of the high temperature regenerator 1 measured by the pressure sensor 7. If it is below this reference pressure, the refrigerant regeneration of step 22 is performed. Of course, otherwise, refrigerant regeneration is not performed.

As described above, according to the refrigerant regeneration method and the refrigerant regeneration device of the absorption type refrigeration cycle according to the present invention, the refrigerant of the evaporator rises above a preset upper limit, or the temperature of the cooling water at the outlet of the cooling tower is lower than the preset value and the pressure of the high temperature regenerator is preset. Refrigerant regeneration is automatically performed under conditions higher than the set value.

In addition, if the refrigerant level of the evaporator is lower than the predetermined lower limit when the refrigerant regeneration is performed, it is possible to prevent the refrigerant pump from being damaged by idling by stopping the operation of the refrigerant pump.

In addition, manual ball valves are installed at the front and rear of the solution pump and the like to close the manual ball valves when exchanging parts, and perform replacement work. According to such replacement work, external air is introduced to react with an aqueous solution of lithium bromide as an absorbent. This prevents corrosion of equipment parts.

Claims (8)

In the refrigerant regeneration method of the absorption refrigeration cycle to send a portion of the refrigerant supplied to the top of the evaporator through the absorber to the regenerator, Regenerating the refrigerant when the pressure of the high temperature regenerator is greater than the reference pressure and the cooling water temperature at the outlet of the cooling tower is lower than the reference temperature; Temporarily stopping the regeneration of the refrigerant when the refrigerant of the evaporator falls further than a predetermined lower limit level during the regeneration of the refrigerant; And regenerating the refrigerant if the refrigerant in the evaporator rises higher than a predetermined reference level when the refrigerant is temporarily stopped. The method of claim 1, further comprising: regenerating the refrigerant when the refrigerant of the evaporator rises higher than a predetermined upper limit level when the pressure of the high temperature regenerator is lower than the reference pressure or the cooling water temperature at the outlet of the cooling tower is higher than the reference temperature. Refrigerant regeneration method of the absorption refrigeration cycle characterized in that. The reference pressure of the high temperature regenerator is 300 mmHg, the reference temperature of the cooling water at the outlet of the cooling tower is 32 ° C, and the upper limit level of the refrigerant of the evaporator exceeds the refrigerant of the evaporator toward the absorber. Refrigerant regeneration method of the absorption refrigeration cycle, characterized in that set to the maximum height does not flow. According to claim 1, wherein the refrigerant is supplied to the upper portion of the evaporator through the spray pipe, the regeneration pipe and the bypass pipe for providing a refrigerant path so that the refrigerant of the evaporator is supplied to the absorber is branched respectively, the regeneration Refrigerant recycling method of the absorption refrigeration cycle, characterized in that the automatic valve and the manual ball valve is mounted on the piping and the bypass pipe to open and close the respective refrigerant path, and the manual ball valve is installed on the suction and discharge side of the automatic valve. In the refrigerant regeneration device of the absorption refrigeration cycle to send a portion of the refrigerant supplied to the top of the evaporator through the absorber to the regenerator, If the pressure of the high temperature regenerator is higher than the reference pressure and the coolant temperature at the outlet of the cooling tower is lower than the reference temperature, regeneration of the refrigerant is performed. If the refrigerant of the evaporator drops below the predetermined lower limit level during the regeneration of the refrigerant, the regeneration of the refrigerant is temporarily performed. And a control unit which regenerates the refrigerant when the refrigerant of the evaporator rises higher than a predetermined reference level when the refrigerant is temporarily stopped. The method of claim 5, wherein the control unit, when the pressure of the high temperature regenerator is less than the reference pressure or the coolant temperature at the outlet of the cooling tower is greater than the reference temperature, if the refrigerant of the evaporator rises higher than the predetermined upper limit level to perform the regeneration of the refrigerant. Refrigerant regeneration device of the absorption refrigeration cycle characterized in that. The reference pressure of the high temperature regenerator is 300 mmHg, the reference temperature of the cooling water at the outlet of the cooling tower is 32 ° C, and the upper limit level of the refrigerant of the evaporator exceeds the refrigerant of the evaporator toward the absorber. Refrigerant regeneration device of the absorption refrigeration cycle, characterized in that set to the maximum height does not flow. The method of claim 5, wherein the refrigerant is supplied to the upper portion of the evaporator through the spray pipe, the regeneration pipe and the bypass pipe for providing a refrigerant path so that the refrigerant of the evaporator is supplied to the absorber is branched to the spray pipe, respectively, the regeneration An automatic valve and a manual ball valve are installed in the pipe and the bypass pipe to open and close the respective refrigerant paths, and the manual ball valves are installed on the suction and discharge sides of the automatic valve, respectively.

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