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Absorption-compression type dual-temperature second-kind heat pump system

A heat pump system and compression technology, which is applied in the field of absorption-compression dual-temperature heat pump system of the second type, can solve the problems of limited flexibility, reduced scope of application, and inability of temperature to be independent of each other, so as to reduce temperature requirements and temperature requirements low effect

Inactive Publication Date: 2013-03-06
ZHEJIANG SCI-TECH UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In this structure type, due to the coupling relationship between the high and low pressure absorbers, the heating temperature of the high pressure absorber must be affected by the absorption pressure of the low pressure absorber, and the absorption pressure of the low pressure absorber is constrained by the temperature level of the driving heat source , so that the temperatures of the two heating ends provided by the high-pressure and low-pressure absorbers cannot be independent of each other, that is, as long as the heating temperature of one is determined, the temperature of the other is basically determined. This feature limits the system to a certain extent. The flexibility of the temperature adjustment of the two heating ends reduces its scope of application

Method used

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  • Absorption-compression type dual-temperature second-kind heat pump system
  • Absorption-compression type dual-temperature second-kind heat pump system
  • Absorption-compression type dual-temperature second-kind heat pump system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0044] Embodiment 1, figure 1 An absorption-compression dual-temperature heat pump system of the second type is given, which consists of a generator 1, a condenser 2, a vapor-liquid heat exchanger 4, an evaporator 5, a first absorber 8, a second absorber 6, a compressor Machine 7, first solution heat exchanger 9, second solution heat exchanger 11, solution pump 13, refrigerant pump 3, first throttling element 10 and second throttling element 12. Compressor 7 selects frequency conversion compressor for use.

[0045] The gaseous refrigerant outlet of generator 1 is connected to the gaseous refrigerant inlet of gas-liquid heat exchanger 4, the gaseous refrigerant outlet of gas-liquid heat exchanger 4 is connected to the gaseous refrigerant inlet of condenser 2, and the liquid refrigerant outlet of condenser 2 The refrigerant pump 3 is connected, the refrigerant pump 3 is connected to the liquid refrigerant inlet of the gas-liquid heat exchanger 4 , and the liquid refrigerant out...

Embodiment 2

[0063] Embodiment 2, figure 2 Another absorption-compression dual-temperature heat pump system of the second type is given, which is different from Embodiment 1 in that the system also includes an additional absorber 14, an additional solution heat exchanger 15, an additional throttling element 16 and an additional cooling Agent pump 17 . The second absorber heating agent inlet 601 and the second absorber heating agent outlet 602 provided on the second absorber 6 are canceled; the second absorber 6 is respectively provided with a second absorber liquid refrigerant inlet 603 and the gaseous refrigerant outlet 604 of the second absorber, the liquid refrigerant inlet 603 of the second absorber is connected with the outlet of the additional refrigerant pump 17 , the gaseous refrigerant outlet 604 of the second absorber is connected with the gaseous refrigerant inlet of the additional absorber 14 .

[0064] The low-temperature solution outlet of the first solution heat exchanger ...

Embodiment 3

[0080] Embodiment 3, image 3 An absorption-compression dual-temperature heat pump system of the second type is given, which is different from Embodiment 2 in that: the system also includes a regulating valve 18; and the evaporator 5 has only one gaseous refrigerant outlet (that is, in Embodiment 2 The second gaseous refrigerant outlet of the evaporator 5).

[0081] The liquid refrigerant outlet of the evaporator 5 is connected to the second absorber liquid refrigerant inlet 603 of the second absorber 6 through the additional refrigerant pump 17; the gaseous agent outlet 604 of the second absorber is connected to the air inlet of the compressor 7, and the compressor 7 is connected to the gaseous refrigerant inlet of the additional absorber 14, and the gaseous refrigerant outlet 604 of the second absorber is also connected to the gaseous inlet of the first absorber 8 through the regulating valve 18.

[0082] The rest of the structure is equal to embodiment 2.

[0083] Its wor...

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Abstract

The invention discloses an absorption-compression type dual-temperature second-kind heat pump system. The absorption-compression type dual-temperature heat pump system comprises a generator (1), a condenser (2), a gas-liquid heat exchanger (4), an evaporator (5), a first absorber (8), a second absorber (6), a compressor (7), a first solution heat exchanger (9), a second solution heat exchanger (11), a solution pump (13), a refrigerant pump (3), a first throttling element (10) and a second throttling element (12), wherein the evaporator (5) is provided with two gaseous refrigerant outlets; a first gaseous refrigerant outlet is connected with an air inlet of the compressor (7); an air exhaust of the compressor (7) is connected with a gaseous refrigerant inlet of the first absorber (8); and a second gaseous refrigerant outlet is connected with a gaseous refrigerant inlet of the second absorber (6). The system has a function of providing a high-grade dual-temperature heat source by utilizing a driving heat source, and the temperature, which is provided by the system, of two heat supply ends has higher flexibility in output regulation.

Description

technical field [0001] The invention relates to an absorption-compression double-temperature second-type heat pump system, which belongs to the technical field of refrigeration and air-conditioning equipment. The system adds a compressor on the basis of the second type of absorption heat pump system, which can provide two independent heat sources. At the same time, it has the characteristics of low temperature of the driving heat source, strong feasibility, hybrid drive, and low-grade heat source can be used. It is easy to popularize and apply. Background technique [0002] The second type of heat pump system (or heating type heat pump) is a device driven by a low-grade heat source to obtain a high-grade heat source. Wide advantages, when there is only one driving heat source, if you want to provide a dual-temperature high-grade heat source to the outside world, you can use the high and low pressure absorbers of the traditional double-effect second-type heat pump to provide ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F25B30/00
Inventor 王厉骆菁菁
Owner ZHEJIANG SCI-TECH UNIV
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