KR100634843B1 - Refrigerating mechine - Google Patents

Abstract

The present invention relates to a refrigerator, and more particularly, to a refrigerator in which an absorption chiller and a steam compression freezer are combined. The heat source of the absorption chiller combines an absorption chiller and a steam compression chiller to radiate heat from the condenser of the steam compression chiller. By using it to increase the coefficient of absorption of the absorption chiller, and to save energy.

According to the present invention, a high temperature regenerator 11 for evaporating refrigerant vapor, a condenser 13 for condensing refrigerant vapor evaporated in the high temperature regenerator 11, and a refrigerant liquid condensed in the condenser 13 are evaporated heat exchangers. An absorption chiller (10) consisting of an evaporator (15) sprayed onto the (16) to cool the brine, and an absorber (17) for absorbing refrigerant vapor vaporized in the evaporator (15); A compressor (31), a condenser (32), an expansion valve (33), and a vapor compression freezer (30) connecting the evaporator (34) to a conduit (35), wherein the condenser (32) is a high temperature regenerator (11). When the refrigerant vapor of the high temperature and high pressure compressed by the compressor is condensed, the heat of condensation is used as the heat source of the absorption chiller.

Absorption Chiller, High Temperature Regenerator, Steam Compression Chiller, Condenser, Second Condenser, Hot Water Heat Exchanger, Auxiliary Heater

Description

Freezer {REFRIGERATING MECHINE}

1 is a block diagram of an embodiment of the present invention

2 is a block diagram of a conventional absorption chiller

3 is a configuration diagram of a conventional steam compression refrigerator

                   <Explanation of Signs of Major Parts of Drawings>

10: absorption chiller 11: high temperature regenerator 30: vapor compression freezer

32 condenser 40 second condenser 41 hot water heat exchanger

44: auxiliary heater

The present invention relates to a refrigerator, in particular lithium bromide (LiBr) as an absorbent

The present invention relates to a refrigerating device in which an absorption refrigerator using an aqueous solution or water as water or ammonia as a refrigerant, and a vapor compression refrigerator.

As is well known, the refrigerator is mainly composed of an absorption refrigerator using a lithium bromide (LiBr) aqueous solution or water as an absorbent and water or ammonia as a refrigerant, and a vapor compression refrigerator.

As shown in FIG. 2, the absorption chiller 10 includes a heating tube 12 to which steam is supplied as a heat source, or a high temperature regenerator (generator) 11 having a gas burner, and a condenser having a cooling water pipe 14 '. (13), an evaporator 15 having an evaporating heat exchanger 16, an absorber 17 having a cooling water pipe 14, a solution preheating heat exchanger 18, a refrigerant pump 19, a solution pump 20 And the like, the solution of dilute concentration in the high temperature regenerator 11 is heated by supplying steam to the heating tube 12 or by heating with a gas burner to evaporate the refrigerant vapor, and supply the refrigerant vapor to the condenser 13 After condensed by the cooling water supplied to the cooling water pipe 14 ', the refrigerant flows into the evaporator 15 through the refrigerant liquid conduit 21, and passes through the conduit 22 by the refrigerant pump 19. By evaporation to the evaporation heat exchanger 16 installed in the evaporator 15 by evaporation by the heat of vaporization when the refrigerant liquid evaporates. To form a cycle to cool the brine of muldeung supplied to the heat exchanger 16, is to use the cooled brine in applications such as air conditioning.

The refrigerant vapor evaporated from the evaporator 15 is concentrated in the absorber 17 and sprayed from the high temperature regenerator 11 through the conduit 24 through the solution preheat heat exchanger 18 in the diesel solution spray device 25. Is absorbed in a solution of the liquid, and the solution is cooled by the cooling water supplied to the cooling water pipe 14 as the temperature is increased by the latent heat of the refrigerant vapor. On the other hand, the solution spray device in the high temperature regenerator 11 in the solution preheating heat exchanger 18 when the solution of the dilute concentration absorbing the refrigerant vapor is supplied to the high temperature regenerator 11 through the conduit 26 by the solution pump 20 It is to form a cycle that is preheated by the concentrated solution sprayed on (25) and then supplied to the high temperature regenerator (11) to be reheated by the heating tube (12).

As shown in FIG. 3, the vapor compression refrigerator 30 includes a compressor 31, a condenser 32, an expansion valve 33, an evaporator 34, and the like, and are connected to each other by a conduit 35. The high-temperature / high-pressure refrigerant vapor compressed by the compressor (31) is condensed by air or cooling water in the condenser (32), and the high-temperature / high-pressure refrigerant liquid condensed is expanded by the expansion valve (33). It is a refrigerant liquid and heat exchanges with a fluid (such as air or water brine) in the evaporator 34 to cool the fluid. The cooled fluid is used for cooling or the like, and the low-temperature / low pressure refrigerant evaporated in the evaporator 34. Steam is drawn into the compressor 31 to form a cycle that is recompressed.

However, the absorption chiller 10 requires separate energy by using steam or gas as a heat source of the high temperature regenerator 11, and in particular, when using steam as a heat source, a separate steam boiler must be provided, which is complicated in structure. Equipment costs are high. In addition, the waste heat recovery is not good, there is a problem in terms of energy use is unreasonable and at the same time the grade coefficient of the absorption chiller is lowered.

On the other hand, the steam compression refrigerator (30) discards the heat of condensation when condensing the condenser (32) at high temperature and high pressure, and in particular, when employing an air-cooled condenser, the condenser is usually installed on the side of the road to provide high temperature condensation heat. By discharging to the side, there is a problem of causing discomfort to the passerby and raising the atmospheric temperature.

The present invention is to correct the above problems by combining the absorption chiller and the vapor compression freezer to use the condensation heat radiated from the condenser of the steam compression freezer as the heat source of the absorption chiller to increase the coefficient of performance of the absorption chiller, save energy It is an object of the present invention to provide a freezer.

In order to achieve the above object, the present invention provides a high temperature regenerator (11) for evaporating refrigerant vapor, a condenser (13) for condensing refrigerant vapor evaporated in the high temperature regenerator (11), and condensation in the condenser (13). An absorption chiller (10) consisting of an evaporator (15) for spraying the refrigerant liquid to the evaporation heat exchanger (16) to cool the brine, and an absorber (17) for absorbing the refrigerant vapor vaporized in the evaporator (15); A compressor (31), a condenser (32), an expansion valve (33) and a vapor compression refrigerator (30) connecting the evaporator (34) to a conduit (35) are provided, and the condenser (32) is connected to the high temperature regenerator (11). When the high-temperature, high-pressure refrigerant vapor compressed in the compressor is condensed, the heat of condensation is used as a heat source of the absorption chiller.

1 is a block diagram of an embodiment of the present invention, the present invention includes an absorption chiller 10 and a vapor compression refrigerator 30, the absorption chiller 10 is a high temperature regenerator (generator) for evaporating the refrigerant vapor ( 11), condenser 13 with cooling water pipe 14 ', evaporator 15 with evaporating heat exchanger 16, absorber 17 with cooling water pipe 14, solution preheating heat exchanger ( 18), the refrigerant pump 19, the solution pump 20 and the like, the refrigerant vapor is evaporated by the heat of condensation of the condenser 32 described later in the high temperature regenerator 11, and the refrigerant vapor is condenser 13 ) Is condensed by the cooling water supplied to the cooling water pipe (14 '), and then flows into the evaporator (15) through the refrigerant liquid conduit (21), and the refrigerant via the conduit (22) via the refrigerant pump (19). By spraying on the evaporation heat exchanger 16 installed in the evaporator 15 by the spraying apparatus 23, it increases by the heat of vaporization when the refrigerant liquid evaporates. To form a cycle to cool the brine of muldeung supplied to the heat exchanger (16), the cooled brine is used in applications such as air conditioning.

The refrigerant vapor evaporated from the evaporator 15 is concentrated in the absorber 17 and sprayed from the high temperature regenerator 11 through the conduit 24 through the solution preheat heat exchanger 18 in the diesel solution spray device 25. Is absorbed in a solution of the liquid, and the solution is cooled by the cooling water supplied to the cooling water pipe 14 as the temperature is increased by the latent heat of the refrigerant vapor. On the other hand, the solution spray device in the high temperature regenerator 11 in the solution preheating heat exchanger 18 when the solution of the dilute concentration absorbing the refrigerant vapor is supplied to the high temperature regenerator 11 through the conduit 26 by the solution pump 20 The cycle is preheated by the concentrated solution sprayed on (25), and then flows into the high temperature regenerator 11 to be reheated.

The vapor compression refrigerator (30) is provided with a compressor (31), a condenser (32), an expansion valve (33), an evaporator (34), and the like, by connecting them to a conduit (35) and simultaneously connecting the condenser (32). Built in the high temperature regenerator 11 of the absorption type refrigerator 10, the high temperature and high pressure refrigerant vapor compressed by the compressor 31 is condensed in the condenser 32, and the high temperature and high pressure refrigerant liquid condensed is expanded in the expansion valve. After being expanded in 33, it becomes a low-temperature / low-pressure refrigerant liquid and exchanges heat with a fluid (brine such as air or water) in the evaporator 34 to cool the fluid for use in cooling, etc., and evaporates in the evaporator 34. The low-temperature and low-pressure refrigerant vapor is sucked into the compressor 31 to form a cycle for recompression.

When forming the cycle as described above, the high-temperature / high-pressure refrigerant vapor compressed by the compressor 31 passes through the condenser 32 and heat-exchanges with the solution of the low concentration in the high-temperature regenerator 11 to condense the high-temperature / high-pressure refrigerant vapor. At the same time, the solution of the dilute concentration is heated by the heat of condensation to evaporate the refrigerant vapor, that is, the heat source of the high-temperature and high-pressure refrigerant vapor condensed in the condenser 32 of the vapor compression refrigerator 30 receives the heat source of the absorption chiller 10. It is intended to be used.

In addition, the present invention is to install a second condenser 40 between the condenser 32 and the expansion valve 33 of the conduit 35, by installing a hot water heat exchanger 41 in the second condenser 40 When the load of the absorption refrigerator 10 is reduced or the outside temperature is high, the condenser 32 is recondensed when the condensation of the high temperature / high pressure refrigerant vapor is incomplete, or the absorption and vapor compression refrigerators 10 and 30 are incomplete. When the condenser 32 is condensed at a high temperature and high pressure in the normal operation of the refrigerant, the supercooling can increase the coefficient of performance of the vapor compression refrigerator 30, and can be generated when only the conventional absorption refrigerator 10 is installed. To generate hot water for hot water supply.

In the present invention, the auxiliary heater 44 is provided on the inlet side of the condenser 32 of the conduit 35 so that the load of the vapor-compressor freezer 30 is reduced. When the temperature of the high-pressure refrigerant vapor is low, it is possible to improve evaporation of the refrigerant vapor in the dilute solution in the high temperature regenerator 11 by heating it.

The present invention further provides a bypass conduit 42 between the inlet and the outlet of the condenser 32 of the conduit 35 to provide a valve 43 (at the inlet side and bypass conduit 42 of the condenser 32). 43 '), the valve 43 is opened and the valve 43' is closed when the absorption chiller 10 and the vapor compression refrigerator 30 are operated at the same time. When it is small, the valve 43 'is opened and the valve 43 is closed so that the operation of the absorption type refrigerator 10 is stopped and only the steam compression type refrigerator 30 is operated.

As described above, when only the steam compression refrigerator 30 is operated, the second condenser 40 functions as the condenser 32.

According to the present invention as described above, each of the freezing capacity of the absorption type refrigerator 10 and the vapor compression type refrigerator 30 is a cooling load or absorption heat of the condenser 32 and the heat source capacity of the high temperature regenerator 11. ) And the steam compression freezer (30) is formed at the same capacity (capacity), or any one larger or smaller than the other operation at the same time, or when the cooling load is reduced due to seasonal factors, the operation of the absorption refrigerator (10) Is to stop and operate only the steam compression refrigerator (30).

As described above, when the two refrigerators 10 and 30 are operated simultaneously, the valve 43 installed at the inlet side of the condenser 32 of the conduit 35 is opened and the valve installed in the bypass conduit 42. When 43 'is closed, the refrigerant vapor is generated by heating and evaporating a solution of a thin concentration in the high temperature regenerator 11 of the absorption chiller 10 by the heat of condensation of the condenser 32 of the steam compression chiller 30 to generate a refrigerant vapor. In the evaporator heat exchanger (16) installed in the evaporator (15) of the refrigerator (10), the cooled brine is produced, and in the evaporator (34) of the vapor compression refrigerator (30), cooling fluids are generated. Is to use.

As described above, when the condenser 32 of the steam compression refrigerator 30 is installed in the high temperature regenerator 11 of the absorption refrigerator 10 and both the refrigerators 10 and 30 are operated at the same time, the conventional steam compression refrigerator Since the condensation heat of the condenser 32 discarded at 30 may be used as a heat source of the high temperature regenerator 11, energy consumption is reduced by not requiring extra energy when operating the absorption type refrigerator 10, and a conventional steam boiler It is possible to significantly reduce the equipment cost by not having to install, it is possible to increase the grade coefficient of the absorption chiller (10).

In addition, since the heat of condensation of the condenser 32 is not discharged to the road side, it does not cause discomfort to the passerby, and the rise of the atmospheric temperature can be prevented.

In addition, when the operation of the absorption refrigerator 10 is stopped and only the steam compression refrigerator 30 is operated, the valve 43 installed at the inlet side of the condenser 32 of the conduit 35 is closed and the bypass conduit 42 is closed. When the valve 43 'installed at the opening is opened, the absorption type refrigerator 10 stops operation, and the high temperature / high pressure refrigerant vapor compressed by the compressor 31 of the vapor compression type refrigerator 30 functions as a condenser. The condenser 40 is introduced into and condensed, and cooling fluid is generated only in the evaporator 34.

The second condenser 40 is installed at the outlet side of the condenser 32 of the vapor compression refrigerator 30 to improve the condensation of the refrigerant liquid or to supercool the refrigerant liquid. Increasing the coefficient of performance, and by installing the hot water heat exchanger 41 in the second condenser 40 can also generate hot water for hot water supply, when installing a conventional absorption chiller compared to the installation of a separate hot water boiler It is possible to reduce the back and promote convenience.

In the above embodiment, the combination of the single-effect absorption chiller and the vapor compression freezer has been shown and described, but the present invention is not limited thereto, but the combination of the well-known dual-effect absorption chiller and the steam compression freezer can be performed. Of course.

As described above, the present invention includes an absorption chiller and a vapor compression chiller, and a condenser of the steam compressor is installed in a high temperature regenerator of the absorption chiller, so that both of the chillers are operated simultaneously and the heat of the condenser is absorbed. By using it, it is possible to save energy, drastically reduce the equipment cost, and increase the coefficient of performance of the absorption chiller because it does not take extra energy when operating the absorption chiller.

In addition, by installing a second condenser on the condenser outlet side of the steam compressor, the refrigerant liquid is re-condensed or subcooled to increase the coefficient of performance of the steam compressor, and a heat exchanger for the hot water is installed on the second condenser. It can be generated to reduce the equipment cost, it is possible to increase the convenience.

Claims (4)

The high temperature regenerator 11 for evaporating the refrigerant vapor, the condenser 13 for condensing the refrigerant vapor evaporated in the high temperature regenerator 11, and the heat exchanger 16 for evaporating the refrigerant liquid condensed in the condenser 13 An absorption chiller (10) comprising an evaporator (15) for spraying on the brine to cool the brine, and an absorber (17) for absorbing refrigerant vapor vaporized by the evaporator (15); A compressor (31), a condenser (32), an expansion valve (33), and a vapor compression freezer (30) connecting the evaporator (34) to a conduit (35), wherein the condenser (32) is a high temperature regenerator (11). And a second condenser (40) installed between the condenser (32) and the expansion valve (33) of the conduit (35). The refrigerator according to claim 1, wherein a hot water heat exchanger (41) is provided in the second condenser (40). The refrigerator according to claim 1, wherein an auxiliary heater (44) is provided at an inlet side of the condenser (32) of the conduit (35). 2. The valve 43 according to claim 1, wherein a bypass conduit 42 is provided between the inlet and the outlet of the condenser 32 of the conduit 35 so as to provide a valve 43 at the inlet side and the bypass conduit 42 of the condenser 32. Refrigerator with 43 '.

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