KR200154287Y1 - Absorption type air conditioner - Google Patents

Abstract

The present invention relates to a dual-efficiency absorption type cooling and heating unit, which increases the evaporation efficiency of the refrigerant during the cooling operation, increases the production temperature of the hot water for heating, and reduces energy consumption.

The present invention includes an evaporator (1), an absorber (2), a low temperature regenerator (3), a condenser (4), a high temperature regenerator (5), a high and low temperature heat exchanger (6) (7) and a heat exchanger (8) for heating. In the dual-effect absorption air-cooler provided, the first and second flue 32, 33 divided by the partition wall 31 is formed in the flue 30 of the high temperature regenerator 5, so that the absorption liquid heat exchanger 34 And a heating supply water heat exchanger (35), respectively, and the absorbent liquid having a low concentration collected at the bottom of the absorber (2) in the absorbent liquid heat exchanger (34) at a low temperature heat exchanger (7) at a temperature of about 75 ° C. After that, by connecting a conduit 21 'which transfers a part of the absorbent liquid to the low temperature regenerator 3, the absorbent liquid is directly passed through the heat exchanger 34 so that the absorbent liquid of the concentration bound by the waste heat is directly heated, The outlet of the machine 35 is connected to the hot water pipe 26 of the heat exchanger 8 for heating to return the heating return to the heating feed water heat exchanger 35. In order to heat, the damper 36 is installed at the lower end of the partition wall 31 to selectively close the first and second flue 32, 33.

Description

Absorption Air Conditioner

The present invention relates to an absorption type cooling and heating device, and more particularly, to a dual-use absorption type cooling and heating device using water as a refrigerant and an aqueous lithium bromide (LiBr) solution as an absorption liquid.

As is well known, the dual-effect absorption air-cooler is shown in Fig. 2 as an evaporator 1, an absorber 2, a low temperature regenerator 3, a condenser 4, a high temperature regenerator 5, and a high and low temperature heat exchanger. (6) A refrigerant liquid and a low temperature regenerator (3) provided with (7) and a heat exchanger (8) for heating and condensing refrigerant vapor generated in the high temperature regenerator (5) in a heat transfer pipe (23) provided in the low temperature regenerator (3). After the refrigerant vapor evaporated in the condenser 4 is introduced into the condenser 4, the condenser is condensed with the cooling water of the cooling pipe 11 'and the refrigerant liquid is introduced into the solution receiver 24 of the evaporator 1 via the conduit 16. The refrigerant pump 10 sprays the cold water pipe 15 in the evaporator 1 from the refrigerant spray device 13 via the conduit 18 so that the refrigerant liquid evaporates at a temperature corresponding to the pressure in the evaporator 1. Cooling medium such as water supplied to the cold water pipe 15 by the heat of vaporization generated at the time is used to cool and freeze the heating medium. After the water vapor is separated from the separator 12, the refrigerant vapor evaporated in the evaporator 1 is introduced into the absorber 2 and absorbed by the medium concentration of the absorbed liquid sprayed from the absorbent liquid spraying device 14. The absorption liquid is cooled by the cooling water supplied to the cooling pipe 11 because the temperature is increased by the latent heat of the refrigerant vapor.

In addition, the absorbent liquid having a weak concentration absorbed by the coolant medium is collected at the bottom of the absorber (2), and then the low temperature heat exchanger (7) is heated by the absorbent liquid pump (9) in a part of the conduit (21 '). After entering the low temperature regenerator (3), the refrigerant is evaporated by the heat transfer pipe (23), and part of the refrigerant is introduced into the high temperature regenerator (5) via the high temperature heat exchanger (6) via the conduit (19). When a thinner absorbent liquid is heated by a heating source, half of the refrigerant vapor absorbed by the absorber 2 is evaporated.

In addition, the concentrated liquid absorbed by the refrigerant vapor in the high temperature regenerator (5) is condensed through the high temperature heat exchanger (6) via the conduit (20) and heat exchanged with the dilute absorbent liquid, and then from the low temperature regenerator (3) to the conduit (22). The mixture is mixed with the medium concentration absorbed liquid and flows into the low temperature heat exchanger (7), and is sprayed by the absorbent liquid spray device (14) through the conduit (17) by the absorbent liquid pump (9 '), and the refrigerant generated in the high temperature regenerator (5). The steam is heated in the low temperature heat exchanger (7) while passing through the heat exchanger tube (23) of the low temperature regenerator (3), and then heats and absorbs the diluted concentration liquid introduced into the low temperature regenerator (3) to cool and condense while evaporating the refrigerant in the absorbent liquid. The refrigerant liquid is introduced into the condenser 4 through the conduit.

On the other hand, the refrigerant vapor evaporated from the intermediate liquid of the low temperature regenerator 3 is cooled and condensed by the cooling tube 11 'connected to the cooling tube 11 and the connecting tube 11' of the absorber 2 to the refrigerant liquid. The above-described operation is repeated, and the intermediate liquid absorbed by the refrigerant vapor of the heat transfer tube 23 in the low temperature regenerator 3 is evaporated to the conduit 22 and is diluted in the high temperature heat exchanger 6. The absorbing liquid of the concentration is joined with the heated absorbing liquid in the conduit 20 to become an absorbing liquid of medium concentration, passing through the low temperature heat exchanger 7, and then sprayed by the absorbing liquid spraying device 14 by the absorbing liquid pump 9 '. Repeated cooling operation.

In the heating operation, the refrigerant vapor generated from the high temperature generator 5 is supplied to the heating heat exchanger 8 through the supply conduit 25, and heat exchanged with the heating supply water flowing into the hot water heating tube 26 to supply the heating supply water. After the direct heating, the refrigerant liquid is repeated to be heated in the high temperature regenerator 5 through the return conduit 25 '.

In addition, valves 26, 26 'and 26 are provided at the inlet of the conduits 19, 20 and the heat pipe 23, and valves 27 and 27' are connected to the supply conduit 25 and the return conduit 25 '. The valves 27 and 27 'are closed during the cooling operation, and the valves 26, 26' and 26 are closed during the heating operation.

However, the dual-effect absorption air-conditioner is a low-temperature heat exchanger (7) that absorbs the refrigerant evaporated from the evaporator (1) during the cooling operation in the absorber (2) so that the absorption capacity of the refrigerant vapor is weakened. After heating at a portion of the absorbed liquid is introduced into the low temperature regenerator (3) to increase the thermal efficiency (CO P) by evaporating the refrigerant by heating in the heat transfer pipe (23) as the refrigerant vapor generated in the high temperature regenerator (5) Since the thermal efficiency (CO P) in cooling operation is proportional to the amount of evaporation of the refrigerant, the existing high and low temperature heat exchanger (6) (7) alone has a limit in increasing the thermal efficiency. There is a lot of room for improvement by maintaining less than, and also for evaporation of the refrigerant in the high temperature regenerator (5), the heating temperature must be maintained at 150 ℃ or more as confirmed in the During diagram In case of using direct heating method that uses gas, fuel, etc., the temperature of the exhaust gas is high, which consumes much energy for operation of air conditioner and heater, it is not economical, and emissions of harmful gas are increased. There is a problem that becomes a factor.

The present invention aims to provide an absorption type air conditioner that can improve the evaporation efficiency of the refrigerant during the cooling operation, increase the production temperature of the hot water for heating, and at the same time reduce the energy consumption.

The present invention is an evaporator, absorber, low temperature regenerator, condenser to achieve the above object. In the dual-effect absorption air conditioner having a high temperature regenerator, a high and low temperature heat exchanger, and a heat exchanger for heating, an absorbent heat exchanger and a heating feed water heat exchanger are respectively installed in the year of the high temperature regenerator, and the outlet of the low temperature heat exchanger is provided in the absorbent heat exchanger. A conduit for transferring a portion of the heated absorbent liquid to the low temperature regenerator is connected to a hot water heating tube of the heat exchanger for heating to the heating feed water heat exchanger.

1 is a schematic diagram of an embodiment of the present invention.

2 is a schematic diagram of a conventional one.

* Explanation of symbols for main parts of the drawings

1: evaporator 2: absorber

3: low temperature regenerator 4: condenser

5: high temperature regenerator 6: high temperature heat exchanger

7: low temperature heat exchanger 8: heat exchanger for heating

30: year 31: bulkhead

32, 33: first and second year 34: absorbent liquid heat exchanger

35: heating feed water heat exchanger 36: damper

The present invention, as shown in Figure 1 evaporator (1), absorber (2), low temperature regenerator (3), condenser (4), high temperature regenerator (5), high and low temperature heat exchanger (6) (7) and for heating In the dual-effect absorption air-conditioner as shown in FIG. 2 having a heat exchanger 8 or the like, the first and second flue (divided by the partition wall 31 in the flue 30 of the high temperature regenerator 5) ( 32) (33) is formed to provide an absorbent liquid heat exchanger (34) and a heating feed water heat exchanger (35), respectively, and the absorbent liquid having a low concentration collected at the bottom of the absorber (2) in the absorbent liquid heat exchanger (34) at a low temperature. After heating to a temperature of about 75 ° C. in the heat exchanger 7, a conduit 21 ′ which transfers a part of the absorbent liquid to the low temperature regenerator 3 is connected, and the absorbent liquid is bound by waste heat while passing through the heat exchanger 34. The absorption liquid of the concentration is directly heated, and the outlet of the heating feed water heat exchanger 35 is connected to the inlet of the hot water heating tube 26 of the heat exchanger 8 for heating. Connected to preheat the heating return in the heating feed water heat exchanger (35), and a damper (36) is installed at the bottom of the partition (31) to selectively close the first and second flue (32) (33). will be.

In the present invention as described above, the valves 26, 26 ', 26 are opened and the valves 27, 27' are closed during the cooling operation, and the damper 36 closes the second flue 33 by As the conventional cycle is operated, the absorbent liquid heat exchanger 34 installed in the first flue 32 when the absorbent liquid having a low concentration heated in the low temperature heat exchanger 7 is transferred to the low temperature regenerator 3 by the conduit 21 '. The evaporation efficiency of the refrigerant is increased by evaporating the refrigerant by the refrigerant vapor evaporated in the heat regenerator (3) and then heated in the low temperature regenerator (3) and then evaporated in the high temperature regenerator (5).

In the heating operation, the valves 27 and 27 'are opened, and the valves 26 and 26' and 26 are closed, and the damper 36 closes the first flue 32 so that the high temperature regenerator 5 is closed. Transfers the refrigerant vapor evaporated from to the heating heat exchanger (8) and heats the heating water flowing through the hot water heating tube (26) to heat the required place and the like. Preheated by the waste heat evaporated refrigerant in the high temperature regenerator (5) in the heating feed water heat exchanger (35) installed in the (33), and then heated again in the heat exchanger (8) for heating to increase the production temperature of the heating water than conventional It is.

As described above, when the waste heat discharged from the high temperature regenerator 5 is utilized to increase or increase the evaporation efficiency of the refrigerant and the generation temperature of the heating water during the cooling operation or the heating operation, the damper 36 is selectively switched to remove the waste heat. By concentrating on the first year 32 or the second year 33, the efficiency is increased and the energy consumption is reduced.

In addition, when the absorbent liquid is heated in the absorbent liquid heat exchanger 34 and the heating feed water heat exchanger 35 installed in the first and second flue 32 and 33 as described above, the preheated return water for the heating of the high temperature regenerator 5 Since the heating temperature can be kept lower than the conventional one, and the efficiency can be the same as the conventional one, the evaporation temperature of the refrigerant can be lowered, so that the concentration of the lithium bromide aqueous solution can be prevented from increasing so that the refrigerant by precipitation of the crystal By suppressing freezing, the reliability of the operation is improved.

As described above, the present invention forms the first and second flue in the ointment of the high temperature regenerator, installs the absorbent heat exchanger and the heating feed water heat exchanger to directly heat the dilute absorbent liquid and the heating return water, thereby increasing the evaporation efficiency of the refrigerant and for heating. Since the production temperature of the hot water can be maintained high, the efficiency is increased, and the absorption liquid heat exchanger and the heating water heat exchanger are heated by waste heat, thereby saving energy and reducing generation of harmful gases.

In addition, the efficiency of the high temperature regenerator can be kept low while maintaining the same efficiency as the conventional one. Therefore, the concentration of the lithium bromide aqueous solution can be prevented from being concentrated. Therefore, precipitation of crystals can be suppressed, thus improving the reliability of operation and cooling and heating devices. There is an effect, such as to prevent the breakage of.

Claims (2)

In the dual-effect absorption air-heater equipped with an evaporator, an absorber, a low temperature regenerator, a condenser, a high temperature regenerator, a high and low temperature heat exchanger, and a heat exchanger for heating, the absorber heat exchanger and the heating feed water heat exchanger are respectively installed in the year of the high temperature regenerator. Absorption heat exchanger A conduit for transferring some of the absorption liquid heated in the low temperature heat exchanger to the low temperature regenerator, and the outlet of the heating water supply heat exchanger is connected to the hot water heating tube of the heating heat exchanger. The method of claim 1, wherein the absorbent liquid heat exchanger and the heating water supply heat exchanger is installed in each of the first and second years separated by the partition wall, and a damper for selectively closing the first and second year at the lower end of the partition wall. Absorption Air Conditioner