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CN106403370B - First-class thermally-driven compression heat pump - Google Patents

First-class thermally-driven compression heat pump Download PDF

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CN106403370B
CN106403370B CN201610815242.5A CN201610815242A CN106403370B CN 106403370 B CN106403370 B CN 106403370B CN 201610815242 A CN201610815242 A CN 201610815242A CN 106403370 B CN106403370 B CN 106403370B
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compressor
communicated
temperature heat
heat exchanger
channel
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CN106403370A (en
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李华玉
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
    • F25B29/00Combined heating and refrigeration systems, e.g. operating alternately or simultaneously
    • F25B29/003Combined heating and refrigeration systems, e.g. operating alternately or simultaneously of the compression type system

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Abstract

The invention provides a first-class thermally-driven compression heat pump, and belongs to the technical field of power, refrigeration and heat pumps. An air channel is arranged outside and communicated with a combustion chamber through a compressor, the combustion chamber is provided with a fuel channel and communicated with the outside, the combustion chamber is provided with a gas channel and communicated with a gas turbine, the gas turbine is provided with a gas channel and communicated with the outside through a high-temperature heat exchanger, a circulating medium channel of a second compressor is communicated with an expander through a high-temperature heat exchanger, the expander is also provided with a circulating medium channel and communicated with a third compressor through a low-temperature heat exchanger, the third compressor is also provided with a circulating medium channel and communicated with a second compressor through a heat supplier, the heat supplier is provided with a heated medium channel and communicated with the outside, the low-temperature heat exchanger is provided with a low-temperature heat medium channel and communicated with the outside, the gas turbine and the expander are connected with the compressor, the second compressor and the.

Description

First-class thermally-driven compression heat pump
The technical field is as follows:
the invention belongs to the technical field of power, refrigeration and heat pumps.
Background art:
cold demand, heat demand and power demand, which are common in human life and production; in reality, people often need to use high-temperature heat energy to realize refrigeration, heat supply or power conversion, and also need to use power to refrigerate or use power and combine low-temperature heat energy to supply heat. In achieving the above objects, various considerations or conditional limitations are faced, including the type, grade and quantity of energy sources, the type, grade and quantity of user demands, ambient temperature, the type of working medium, the flow, structure and manufacturing cost of the equipment, and so on.
A heat energy (temperature difference) utilization technology represented by an absorption heat pump technology, and high-temperature heat load driving is utilized to realize heat supply or refrigeration; but the application field and the application range are greatly limited due to the influence of the properties of the working media (solution and refrigerant media). Compression heat pump technology that utilizes the difference in grade between mechanical energy and heat energy has certain flexibility, but it is difficult to realize the high-efficient utilization of heat energy in many cases. Meanwhile, the two technologies have the common defect that the external power cannot be supplied during heating or cooling.
Therefore, the invention provides a first type of thermally driven compression heat pump with a simple structure aiming at utilizing fuel as driving energy for heating or cooling and considering power driving or external power supply requirements.
The invention content is as follows:
the invention mainly aims to provide a first-class thermally-driven compression heat pump, and the specific contents of the invention are explained in terms of the following:
1. the first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier and a low-temperature heat exchanger; the external air channel is communicated with the compressor, the compressor is also communicated with the combustion chamber through a compressed air channel, the combustion chamber is also communicated with the external fuel channel, the combustion chamber is also communicated with the gas turbine through a gas channel, the gas turbine is also communicated with the external through a high-temperature heat exchanger through a gas channel, the second compressor is also communicated with the expander through a high-temperature heat exchanger through a circulating medium channel, the expander is also communicated with the third compressor through a low-temperature heat exchanger, the third compressor is also communicated with the second compressor through a circulating medium channel, the heat supplier is also communicated with the external through a heated medium channel, the low-temperature heat exchanger is also communicated with the external through a low-temperature heat medium channel, the gas turbine and the expander are connected with the compressor, the second compressor and the third compressor and transmit power, and the first-type heat-driven compression heat pump is formed.
2. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a fourth compressor and a second high-temperature heat exchanger; the external part is provided with an air channel communicated with a compressor, the compressor is also provided with a compressed air channel communicated with a combustion chamber, the combustion chamber is also provided with a fuel channel communicated with the external part, the combustion chamber is also provided with a gas channel communicated with a gas turbine, the gas turbine is also provided with a gas channel which is sequentially communicated with a second high-temperature heat exchanger, a gas channel communicated with the external part, the second compressor is also provided with a circulating medium channel communicated with a third compressor through the high-temperature heat exchanger, the third compressor is also provided with a circulating medium channel communicated with an expander through the second high-temperature heat exchanger, the expander is also provided with a circulating medium channel communicated with a fourth compressor through a low-temperature heat exchanger, the fourth compressor is also provided with a circulating medium channel communicated with the second compressor through a heat supply device, the heat supply device is also provided, the gas turbine and the expander are connected with the compressor, the second compressor, the third compressor and the fourth compressor and transmit power to form a first type of heat-driven compression heat pump.
3. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second high-temperature heat exchanger and a second expander; the external part of the compressor is communicated with an air channel, the compressor is also communicated with a combustion chamber, the combustion chamber is also communicated with the external part of a fuel channel, the combustion chamber is also communicated with a gas turbine, the gas turbine is also communicated with the external part of the compressor through a second high-temperature heat exchanger and a high-temperature heat exchanger in sequence, the second compressor is also communicated with an expander through the high-temperature heat exchanger, the expander is also communicated with a second expander through a second high-temperature heat exchanger, the second expander is also communicated with a third compressor through a low-temperature heat exchanger, the third compressor is also communicated with the second compressor through a heat supply device, the heat supply device is also communicated with the external part through a heated medium channel, the low-temperature heat exchanger is also communicated with the external part through a low-temperature heat medium channel, the gas turbine, the expander and the second expander are connected with the compressor, The second compressor and the third compressor transmit power to form a first type of thermally driven compression heat pump.
4. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second expander and a second low-temperature heat exchanger; the external part of the compressor is communicated with an air channel, the compressor is also communicated with a compressed air channel, the combustion chamber is also communicated with the external part of the combustion chamber, the combustion chamber is also communicated with a gas channel, the gas channel of the gas turbine is also communicated with the external part of the combustion chamber through a high-temperature heat exchanger, the second compressor is also communicated with an expander through a high-temperature heat exchanger, the expander is also communicated with a second expander through a low-temperature heat exchanger, the circulating medium channel of the second expander is also communicated with a third compressor through a second low-temperature heat exchanger, the circulating medium channel of the third compressor is also communicated with the second compressor through a heat supplier, the heat supplier is also communicated with the external part of the heated medium channel, the low-temperature heat exchanger and the second low-temperature heat exchanger are also respectively communicated with the external part through low-temperature heat medium channels, the gas turbine, the expander and the second expander are, The second compressor and the third compressor transmit power to form a first type of thermally driven compression heat pump.
5. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger and a fourth compressor; the external part has air channel connected to compressor, the compressor also has compressed air channel connected to combustion chamber, the combustion chamber also has fuel channel connected to external part, the combustion chamber also has gas channel connected to gas turbine, the gas turbine also has gas channel connected to external part via high temperature heat exchanger, the second compressor also has circulating medium channel connected to expander via high temperature heat exchanger, the expander also has circulating medium channel connected to third compressor via low temperature heat exchanger, the third compressor also has circulating medium channel connected to fourth compressor via heat supplier, the fourth compressor also has circulating medium channel connected to second compressor via heat supplier, the heat supplier also has heated medium channel connected to external part, the low temperature heat exchanger also has low temperature heat medium channel connected to external part, the gas turbine and expander are connected to compressor, second compressor, third compressor and fourth compressor and transmit power, forming a first type of thermally driven compression heat pump.
6. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second expander and a second heat supplier; the external part has air channel connected to compressor, the compressor also has compressed air channel connected to combustion chamber, the combustion chamber also has fuel channel connected to external part, the combustion chamber also has gas channel connected to gas turbine, the gas turbine also has gas channel connected to external part through high temperature heat exchanger, the second compressor also has circulating medium channel connected to expander through high temperature heat exchanger, the expander also has circulating medium channel connected to second expander through heat supplier, the second expander also has circulating medium channel connected to third compressor through low temperature heat exchanger, the third compressor also has circulating medium channel connected to second compressor through second heat supplier, the heat supplier and the second heat supplier also have heated medium channel connected to external part, the low temperature heat exchanger also has low temperature heat medium channel connected to external part, the gas turbine, expander and the second expander are connected to compressor, The second compressor and the third compressor transmit power to form a first type of thermally driven compression heat pump.
7. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second expander and a second heat supplier; the external part has air channel connected to compressor, the compressor also has compressed air channel connected to combustion chamber, the combustion chamber also has fuel channel connected to external part, the combustion chamber also has gas channel connected to gas turbine, the gas turbine also has gas channel connected to external part via high temperature heat exchanger, the second compressor also has circulating medium channel connected to expander via high temperature heat exchanger, the expander also has circulating medium channel connected to third compressor via low temperature heat exchanger, the third compressor also has circulating medium channel connected to second expander via heat supply device, the second expander also has circulating medium channel connected to second compressor via second heat supply device, the heat supply device and the second heat supply device also have heated medium channel connected to external part, the low temperature heat exchanger also has low temperature heat medium channel connected to external part, the gas turbine, expander and second expander are connected to compressor, The second compressor and the third compressor transmit power to form a first type of thermally driven compression heat pump.
8. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a fourth compressor and a second heat supplier; the external part has air channel connected to compressor, the compressor also has compressed air channel connected to combustion chamber, the combustion chamber also has fuel channel connected to external part, the combustion chamber also has gas channel connected to gas turbine, the gas turbine also has gas channel connected to external part through high temperature heat exchanger, the second compressor also has circulating medium channel connected to expander through high temperature heat exchanger, the expander also has circulating medium channel connected to third compressor through low temperature heat exchanger, the third compressor also has circulating medium channel connected to fourth compressor through heat supplier, the fourth compressor also has circulating medium channel connected to second compressor through second heat supplier, the heat supplier and second heat supplier also have heated medium channel connected to external part, the low temperature heat exchanger also has low temperature heat medium channel connected to external part, the gas turbine and expander are connected to compressor, second compressor, And the third compressor and the fourth compressor transmit power to form a first type of thermally driven compression heat pump.
9. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger and a heat regenerator; the external part is provided with an air channel communicated with a compressor, the compressor is also provided with a compressed air channel communicated with a combustion chamber, the combustion chamber is also provided with a fuel channel communicated with the external part, the combustion chamber is also provided with a gas channel communicated with a gas turbine, the gas turbine is also provided with a gas channel communicated with the external part through a high-temperature heat exchanger, a second compressor is provided with a circulating medium channel communicated with an expander through a heat regenerator and a high-temperature heat exchanger in sequence, the expander is also provided with a circulating medium channel communicated with a third compressor through a low-temperature heat exchanger, the third compressor is also provided with a circulating medium channel communicated with the second compressor through the heat regenerator and a heat supplier in sequence, the heat supplier is also provided with a heated medium channel communicated with the external part, the low-temperature heat exchanger is, the second compressor and the third compressor transmit power to form a first type of thermally driven compression heat pump.
10. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger and a heat regenerator; the external part is provided with an air channel communicated with a compressor, the compressor is also provided with a compressed air channel communicated with a combustion chamber, the combustion chamber is also provided with a fuel channel communicated with the external part, the combustion chamber is also provided with a gas channel communicated with a gas turbine, the gas turbine is also provided with a gas channel communicated with the external part through a high-temperature heat exchanger, a second compressor is provided with a circulating medium channel communicated with an expander through a high-temperature heat exchanger, the expander is also provided with a circulating medium channel communicated with a third compressor through a low-temperature heat exchanger and a heat regenerator in sequence, the third compressor is also provided with a circulating medium channel communicated with the second compressor through a heat supplier and a heat regenerator in sequence, the heat supplier is also provided with a heated medium channel communicated with the external part, the low-temperature heat exchanger, the second compressor and the third compressor transmit power to form a first type of thermally driven compression heat pump.
11. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger and a second heat supplier; an air channel is arranged outside and communicated with a compressor, the compressor is also provided with a compressed air channel and communicated with a combustion chamber, the combustion chamber is also provided with a fuel channel and communicated with the outside, the combustion chamber is also provided with a gas channel and communicated with a gas turbine, the gas turbine is also provided with a gas channel which is communicated with the outside sequentially through a high-temperature heat exchanger and a second heat supplier, the second compressor is provided with a circulating medium channel which is communicated with an expander through the high-temperature heat exchanger, the expander is also provided with a circulating medium channel which is communicated with a third compressor through a low-temperature heat exchanger, the third compressor is also provided with a circulating medium channel which is communicated with the second compressor through the heat supplier, the heat supplier and the second heat supplier are also respectively communicated with the outside through a heated medium channel, the low-temperature heat exchanger is, the second compressor and the third compressor transmit power to form a first type of thermally driven compression heat pump.
12. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second low-temperature heat exchanger and a second heat supplier; the external part has air channel connected to compressor, the compressor also has compressed air channel connected to combustion chamber, the combustion chamber also has fuel channel connected to external part, the combustion chamber also has gas channel connected to gas turbine, the gas turbine also has gas channel connected to high temperature heat exchanger, second heat supplier and second low temperature heat exchanger in turn, then the second low temperature heat exchanger has gas channel connected to external part, the second compressor also has circulating medium channel connected to expander through high temperature heat exchanger, expander also has circulating medium channel connected to third compressor through low temperature heat exchanger, the third compressor also has circulating medium channel connected to second compressor through heat supplier, the heat supplier and second heat supplier also have heated medium channel connected to external part, the external part also has low temperature heat medium channel connected to second low temperature heat exchanger and low temperature heat exchanger in turn, then the low temperature heat exchanger has low temperature heat medium channel connected to external part, the gas turbine and the expander are connected with the compressor, the second compressor and the third compressor and transmit power to form a first type of heat-driven compression heat pump.
13. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger and a high-temperature heat regenerator; the external part has air channel connected to compressor, the compressor also has compressed air channel connected to combustion chamber through high temperature heat regenerator, the combustion chamber also has fuel channel connected to external part, the combustion chamber also has gas channel connected to gas turbine, the gas turbine also has gas channel connected to high temperature heat regenerator and high temperature heat exchanger in turn, then the high temperature heat exchanger has gas channel connected to external part, the second compressor has circulating medium channel connected to expander through high temperature heat exchanger, the expander also has circulating medium channel connected to third compressor through low temperature heat exchanger, the third compressor also has circulating medium channel connected to second compressor through heat supplier, the heat supplier also has heated medium channel connected to external part, the low temperature heat exchanger also has low temperature heat medium channel connected to external part, the gas turbine and expander are connected to compressor, second compressor and third compressor and transmit power, forming a first type of thermally driven compression heat pump.
14. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a fourth compressor, a second high-temperature heat exchanger and a high-temperature heat regenerator; the external part is provided with an air channel communicated with a compressor, the compressor is also provided with a compressed air channel communicated with a combustion chamber through a high-temperature regenerator, the combustion chamber is also provided with a fuel channel communicated with the external part, the combustion chamber is also provided with a gas channel communicated with a gas turbine, the gas turbine is also provided with a gas channel which is sequentially communicated with the high-temperature regenerator, a second high-temperature heat exchanger and the high-temperature heat exchanger, then the high-temperature heat exchanger is also provided with a gas channel communicated with the external part, the second compressor is provided with a circulating medium channel communicated with a third compressor through the high-temperature heat exchanger, the third compressor is also provided with a circulating medium channel communicated with an expander through the second high-temperature heat exchanger, the expander is also provided with a circulating medium channel communicated with a fourth compressor through a low-temperature heat exchanger, the fourth compressor is also provided with a circulating medium channel communicated with the second, the gas turbine and the expander are connected with the compressor, the second compressor, the third compressor and the fourth compressor and transmit power to form a first type of heat-driven compression heat pump.
15. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second high-temperature heat exchanger, a second expander and a high-temperature heat regenerator; the external part is provided with an air channel communicated with a compressor, the compressor is also provided with a compressed air channel communicated with a combustion chamber through a high-temperature heat regenerator, the combustion chamber is also provided with a fuel channel communicated with the external part, the combustion chamber is also provided with a gas channel communicated with a gas turbine, the gas turbine is also provided with a gas channel communicated with the external part through the high-temperature heat regenerator, a second high-temperature heat exchanger and a high-temperature heat exchanger in sequence, the second compressor is provided with a circulating medium channel communicated with an expander through the high-temperature heat exchanger, the expander is also provided with a circulating medium channel communicated with a second expander through the second high-temperature heat exchanger, the second expander is also provided with a circulating medium channel communicated with a third compressor through a low-temperature heat exchanger, the third compressor is also provided with a circulating medium channel communicated with the second compressor through a heat supply device, the heat supply device, the gas turbine, the expander and the second expander are connected with the compressor, the second compressor and the third compressor and transmit power to form a first type of heat-driven compression heat pump.
16. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second expander, a second low-temperature heat exchanger and a high-temperature heat regenerator; the external part has air channel connected to compressor, the compressor also has compressed air channel connected to combustion chamber through high temperature heat regenerator, the combustion chamber also has fuel channel connected to external part, the combustion chamber also has gas channel connected to gas turbine, the gas turbine also has gas channel connected to high temperature heat regenerator and high temperature heat exchanger in turn, then the high temperature heat exchanger has gas channel connected to external part, the second compressor has circulating medium channel connected to expander through high temperature heat exchanger, the expander also has circulating medium channel connected to second expander through low temperature heat exchanger, the second expander also has circulating medium channel connected to third compressor through second low temperature heat exchanger, the third compressor also has circulating medium channel connected to second compressor through heat supplier, the heat supplier also has heated medium channel connected to external part, the low temperature heat exchanger and second low temperature heat exchanger also have low temperature heat medium channel connected to external part, the gas turbine, the expander and the second expander are connected with the compressor, the second compressor and the third compressor and transmit power to form a first type of heat-driven compression heat pump.
17. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a fourth compressor and a high-temperature heat regenerator; the external part is provided with an air channel communicated with a compressor, the compressor is also provided with a compressed air channel communicated with a combustion chamber through a high-temperature heat regenerator, the combustion chamber is also provided with a fuel channel communicated with the external part, the combustion chamber is also provided with a gas channel communicated with a gas turbine, the gas turbine is also provided with a gas channel which is communicated with the high-temperature heat regenerator and a high-temperature heat exchanger in sequence, then the high-temperature heat exchanger is provided with a gas channel communicated with the external part, the second compressor is provided with a circulating medium channel communicated with an expander through a high-temperature heat exchanger, the expander is also provided with a circulating medium channel communicated with a third compressor through a low-temperature heat exchanger, the third compressor is also provided with a circulating medium channel communicated with a fourth compressor through a heat supplier, the fourth compressor is also provided with a circulating medium channel communicated with the second compressor through a, the gas turbine and the expander are connected with the compressor, the second compressor, the third compressor and the fourth compressor and transmit power to form a first type of heat-driven compression heat pump.
18. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second expander, a second heat supplier and a high-temperature heat regenerator; the external part has air channel connected with compressor, the compressor also has compressed air channel connected with combustion chamber through high-temperature heat regenerator, the combustion chamber also has fuel channel connected with external part, the combustion chamber also has gas channel connected with gas turbine, the gas turbine also has gas channel connected with high-temperature heat regenerator and high-temperature heat exchanger in turn, then the high-temperature heat exchanger has gas channel connected with external part, the second compressor also has circulating medium channel connected with expander through high-temperature heat exchanger, the expander also has circulating medium channel connected with second expander through heat supply device, the second expander also has circulating medium channel connected with third compressor through low-temperature heat exchanger, the third compressor also has circulating medium channel connected with second compressor through second heat supply device, the heat supply device and second heat supply device also have heated medium channel connected with external part, the low-temperature heat exchanger also has low-temperature heat medium channel connected with external part, the gas turbine, the expander and the second expander are connected with the compressor, the second compressor and the third compressor and transmit power to form a first type of heat-driven compression heat pump.
19. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second expander, a second heat supplier and a high-temperature heat regenerator; the external part has air channel connected to compressor, the compressor also has compressed air channel connected to combustion chamber through high temperature heat regenerator, the combustion chamber also has fuel channel connected to external part, the combustion chamber also has gas channel connected to gas turbine, the gas turbine also has gas channel connected to high temperature heat regenerator and high temperature heat exchanger in turn, then the high temperature heat exchanger has gas channel connected to external part, the second compressor also has circulating medium channel connected to expander through high temperature heat exchanger, the expander also has circulating medium channel connected to third compressor through low temperature heat exchanger, the third compressor also has circulating medium channel connected to second expander through heat supplier, the second expander also has circulating medium channel connected to second compressor through second heat supplier, the heat supplier and second heat supplier also have heated medium channel connected to external part, the low temperature heat exchanger also has low temperature heat medium channel connected to external part, the gas turbine, the expander and the second expander are connected with the compressor, the second compressor and the third compressor and transmit power to form a first type of heat-driven compression heat pump.
20. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a fourth compressor, a second heat supplier and a high-temperature heat regenerator; the external part has air channel connected to compressor, the compressor also has compressed air channel connected to combustion chamber through high temperature heat regenerator, the combustion chamber also has fuel channel connected to external part, the combustion chamber also has gas channel connected to gas turbine, the gas turbine also has gas channel connected to high temperature heat regenerator and high temperature heat exchanger in turn, then the high temperature heat exchanger has gas channel connected to external part, the second compressor also has circulating medium channel connected to expander through high temperature heat exchanger, the expander also has circulating medium channel connected to third compressor through low temperature heat exchanger, the third compressor also has circulating medium channel connected to fourth compressor through heat supplier, the fourth compressor also has circulating medium channel connected to second compressor through second heat supplier, the heat supplier and second heat supplier also have heated medium channel connected to external part, the low temperature heat exchanger also has low temperature heat medium channel connected to external part, the gas turbine and the expander are connected with the compressor, the second compressor, the third compressor and the fourth compressor and transmit power to form a first type of heat-driven compression heat pump.
21. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a heat regenerator and a high-temperature heat regenerator; the external part of the compressor is communicated with an air channel, the compressor is also communicated with a combustion chamber through a high-temperature heat regenerator, the combustion chamber is also communicated with the external part through a fuel channel, the combustion chamber is also communicated with a gas channel, the gas channel is also communicated with the high-temperature heat exchanger in turn, then the high-temperature heat exchanger is further communicated with the external part through the gas channel, the second compressor is communicated with an expander through a heat regenerator and a high-temperature heat exchanger in turn, the expander is also communicated with the third compressor through a low-temperature heat exchanger in turn, the third compressor is also communicated with the second compressor through a heat regenerator and a heat supplier in turn, the heat supplier is also communicated with the external part through a heated medium channel, the low-temperature heat exchanger is also communicated with the external part through a low-temperature heat medium channel, the gas turbine and the expander are connected with the compressor, The second compressor and the third compressor transmit power to form a first type of thermally driven compression heat pump.
22. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a heat regenerator and a high-temperature heat regenerator; the external part of the compressor is communicated with an air channel, the compressor is also communicated with a combustion chamber through a high-temperature heat regenerator, the combustion chamber is also communicated with the external part through a fuel channel, the combustion chamber is also communicated with a gas channel and a gas turbine, the gas turbine is also communicated with the high-temperature heat regenerator and the high-temperature heat exchanger in sequence, then the high-temperature heat exchanger is further communicated with the external part through the gas channel, the second compressor is communicated with an expander through a high-temperature heat exchanger and a circulating medium channel, the expander is also communicated with the third compressor through a low-temperature heat exchanger and a heat regenerator in sequence, the third compressor is also communicated with the second compressor through a heat supply and a heat regenerator in sequence, the heat supply is also communicated with the external part through a heated medium channel, the low-temperature heat exchanger is also communicated with the external part through a low-temperature, The second compressor and the third compressor transmit power to form a first type of thermally driven compression heat pump.
23. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second heat supplier and a high-temperature heat regenerator; the external part has air channel connected to compressor, the compressor also has compressed air channel connected to combustion chamber through high temperature heat regenerator, the combustion chamber also has fuel channel connected to external part, the combustion chamber also has gas channel connected to gas turbine, the gas turbine also has gas channel connected to high temperature heat regenerator, high temperature heat exchanger and second heat supply device in turn, then the second heat supply device has gas channel connected to external part, the second compressor also has circulating medium channel connected to expander through high temperature heat exchanger, the expander also has circulating medium channel connected to third compressor through low temperature heat exchanger, the third compressor also has circulating medium channel connected to second compressor through heat supply device, the heat supply device and the second heat supply device also have heated medium channel connected to external part, the low temperature heat exchanger also has low temperature heat medium channel connected to external part, the gas turbine and the expander are connected to compressor, The second compressor and the third compressor transmit power to form a first type of thermally driven compression heat pump.
24. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second heat supplier and a high-temperature heat regenerator; the external part has air channel connected to compressor, the compressor also has compressed air channel connected to combustion chamber through high temperature heat regenerator, the combustion chamber also has fuel channel connected to external part, the combustion chamber also has gas channel connected to gas turbine, the gas turbine also has gas channel connected to high temperature heat regenerator, high temperature heat exchanger, the second heat supply device and the second low temperature heat exchanger then have gas channel connected to external part, the second compressor also has circulating medium channel connected to expander through high temperature heat exchanger, the expander also has circulating medium channel connected to the third compressor through low temperature heat exchanger, the third compressor also has circulating medium channel connected to the second compressor through heat supply device, the heat supply device and the second heat supply device also have heated medium channel connected to external part, the external part also has low temperature heat medium channel connected to the second low temperature heat exchanger and the low temperature heat exchanger then have low temperature heat medium channel connected to external part The gas turbine and the expander are connected with the compressor, the second compressor and the third compressor and transmit power to form a first type of heat-driven compression heat pump.
25. A first kind of heat-driven compression heat pump is characterized in that in any one of the first kind of heat-driven compression heat pumps described in items 1-24, a fuel channel communicated with a combustion chamber is omitted, a new compressor is added, a gaseous fuel channel is arranged outside and communicated with the new compressor, the new compressor is also communicated with the combustion chamber, and a gas turbine is connected with the new compressor and transmits power to form the first kind of heat-driven compression-absorption heat pump.
26. The first kind of thermally driven compression heat pump is any one of the first kind of thermally driven compression heat pumps described in items 1-25, wherein a power machine is added, the power machine is connected with the second compressor and provides power for the second compressor to form the first kind of thermally driven compression heat pump driven by additional external power.
27. The first kind of thermally driven compression heat pump is any one of the first kind of thermally driven compression heat pumps described in items 1-25, wherein a working machine is added, and a gas turbine is connected with the working machine and provides power for the working machine to form the first kind of thermally driven compression heat pump additionally providing power load to the outside.
Description of the drawings:
fig. 1 is a diagram of a first principle thermodynamic system of a first type of thermally driven compression heat pump according to the present invention.
Fig. 2 is a schematic diagram of a 2 nd principle thermodynamic system of a first type of thermally driven compression heat pump according to the present invention.
Fig. 3 is a diagram of a 3 rd principle thermodynamic system of a first type of thermally driven compression heat pump according to the present invention.
Fig. 4 is a diagram of a 4 th principle thermodynamic system of a first type of thermally driven compression heat pump according to the present invention.
Fig. 5 is a diagram of a 5 th principle thermodynamic system of a first type of thermally driven compression heat pump according to the present invention.
Fig. 6 is a diagram of a 6 th principle thermodynamic system of a first type of thermally driven compression heat pump according to the present invention.
Fig. 7 is a diagram of a 7 th principle thermodynamic system of a first type of thermally driven compression heat pump according to the present invention.
Fig. 8 is a diagram of 8 th principle thermodynamic system of a first type of thermally driven compression heat pump according to the present invention.
Fig. 9 is a diagram of a 9 th principle thermodynamic system of a first type of thermally driven compression heat pump according to the present invention.
Fig. 10 is a diagram of a 10 th principle thermodynamic system of a first type of thermally driven compression heat pump according to the present invention.
Fig. 11 is a diagram of a 11 th principle thermodynamic system of a first type of thermally driven compression heat pump according to the present invention.
Fig. 12 is a diagram of a 12 th principle thermodynamic system of a first type of thermally driven compression heat pump provided in accordance with the present invention.
Fig. 13 is a 13 th principle thermodynamic system diagram of a first type of thermally driven compression heat pump provided in accordance with the present invention.
Fig. 14 is a diagram of a 14 th principle thermodynamic system of a first type of thermally driven compression heat pump provided in accordance with the present invention.
In the figure, 1-compressor, 2-combustion chamber, 3-gas turbine, 4-second compressor, 5-expander, 6-third compressor, 7-high temperature heat exchanger, 8-heat supplier, 9-low temperature heat exchanger, 10-fourth compressor, 11-second high temperature heat exchanger, 12-second expander, 13-second low temperature heat exchanger, 14-second heat supplier, 15-heat regenerator, 16-high temperature heat regenerator, 17-new compressor.
The specific implementation mode is as follows:
it is to be noted that, in the description of the structure and the flow, the repetition is not necessary; obvious flow is not described. The invention is described in detail below with reference to the figures and examples.
The first type of thermally driven compression heat pump shown in fig. 1 is realized by:
(1) structurally, the heat pump unit consists of a compressor, a combustor, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier and a low-temperature heat exchanger; an air channel is arranged outside and communicated with the compressor 1, the compressor 1 is also communicated with the combustion chamber 2 through a compressed air channel, the combustion chamber 2 is also communicated with the outside through a fuel channel, the combustion chamber 2 is also communicated with the gas turbine 3 through a gas channel, the gas turbine 3 is also communicated with the outside through a high-temperature heat exchanger 7, the second compressor 4 is also communicated with the expander 5 through a circulating medium channel, the expander 5 is also communicated with the third compressor 6 through a low-temperature heat exchanger 9, the third compressor 6 is also communicated with the second compressor 4 through a circulating medium channel, the heater 8 is also communicated with the outside through a heated medium channel, the low-temperature heat exchanger 9 is also communicated with the outside through a low-temperature heat medium channel, the gas turbine 3 and the expander 5 are connected with the compressor 1, a second compressor 4 and a third compressor 6 and transmits power.
(2) In the flow, air flows through the compressor 1 to be boosted and heated and then enters the combustion chamber 2, external fuel enters the combustion chamber 2, is mixed with compressed air and is combusted into high-temperature gas, the high-temperature gas enters the gas turbine 3 to be decompressed and do work, and the gas discharged by the gas turbine 3 flows through the high-temperature heat exchanger 7 to release heat and then is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the high-temperature heat exchanger 7 and absorbs heat, and then enters the expander 5 to reduce the pressure and do work; the circulating medium discharged by the expander 5 flows through the low-temperature heat exchanger 9 and absorbs heat, and then enters the third compressor 6 to be boosted and heated; the circulating medium discharged by the third compressor 6 flows through the heater 8 and releases heat, and then enters the second compressor 4 for boosting and heating; work output by the gas turbine 3 and the expander 5 is provided for the compressor 1, the second compressor 4 and the third compressor 6 as power, fuel is combusted to provide high-temperature heat load, heated medium obtains medium-temperature heat load through a heat supplier 8, and low-temperature heat medium provides low-temperature heat load through a low-temperature heat exchanger 9, so that the first type of heat-driven compression heat pump is formed.
The first type of thermally driven compression heat pump shown in fig. 2 is realized by:
(1) structurally, the system mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supply device, a low-temperature heat exchanger, a fourth compressor and a second high-temperature heat exchanger; an air channel is arranged outside and communicated with the compressor 1, the compressor 1 is also communicated with the combustion chamber 2 by a compressed air channel, the combustion chamber 2 is also communicated with the outside by a fuel channel, the combustion chamber 2 is also communicated with the gas turbine 3 by a gas channel, the gas turbine 3 is also communicated with the second high-temperature heat exchanger 11 and the high-temperature heat exchanger 7 in sequence and then is also communicated with the outside by a gas channel, the second compressor 4 is communicated with the third compressor 6 by a circulating medium channel through the high-temperature heat exchanger 7, the third compressor 6 is also communicated with the expander 5 by a circulating medium channel through the second high-temperature heat exchanger 11, the expander 5 is also communicated with the fourth compressor 10 by a circulating medium channel through the low-temperature heat exchanger 9, the fourth compressor 10 is also communicated with the second compressor 4 by a circulating medium channel through a heater 8, and the heater 8 is also communicated with the outside by a heated medium channel, the low-temperature heat exchanger 9 is also communicated with the outside through a low-temperature heat medium channel, and the gas turbine 3 and the expander 5 are connected with the compressor 1, the second compressor 4, the third compressor 6 and the fourth compressor 10 and transmit power.
(2) In the process, air flows through the compressor 1 to be boosted and heated and then enters the combustion chamber 2, external fuel enters the combustion chamber 2, is mixed with compressed air and is combusted into high-temperature gas, the high-temperature gas enters the gas turbine 3 to be decompressed and do work, the gas discharged by the gas turbine 3 sequentially flows through the second high-temperature heat exchanger 11 and the high-temperature heat exchanger 7 to gradually release heat, and then is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the high-temperature heat exchanger 7 and absorbs heat, and then enters the third compressor 6 to be boosted and heated; the circulating medium discharged by the third compressor 6 flows through the second high-temperature heat exchanger 11 and absorbs heat, and then enters the expander 5 to perform decompression and work; the circulating medium discharged by the expander 5 flows through the low-temperature heat exchanger 9 and absorbs heat, and then enters the fourth compressor 10 to be boosted and heated; the circulating medium discharged by the fourth compressor 10 flows through the heater 8 and releases heat, and then enters the second compressor 4 for boosting and heating; work output by the gas turbine 3 and the expander 5 is supplied to the compressor 1, the second compressor 4, the third compressor 6 and the fourth compressor 10 as power, fuel is combusted to provide high-temperature heat load, heated medium obtains medium-temperature heat load through the heater 8, and low-temperature heat medium provides low-temperature heat load through the low-temperature heat exchanger 9, so that the first type of thermally driven compression heat pump is formed.
The first type of thermally driven compression heat pump shown in fig. 3 is realized by:
(1) structurally, the system mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supply device, a low-temperature heat exchanger, a second high-temperature heat exchanger and a second expander; an air channel is arranged outside and communicated with the compressor 1, the compressor 1 is also communicated with the combustion chamber 2 by a compressed air channel, the combustion chamber 2 is also communicated with the outside by a fuel channel, the combustion chamber 2 is also communicated with the gas turbine 3 by a gas channel, the gas turbine 3 is also communicated with the outside by a second high-temperature heat exchanger 11 and a high-temperature heat exchanger 7 in sequence, the second compressor 4 is communicated with the expander 5 by a circulating medium channel through the high-temperature heat exchanger 7, the expander 5 is also communicated with a second expander 12 by a circulating medium channel through the second high-temperature heat exchanger 11, the second expander 12 is also communicated with a third compressor 6 by a circulating medium channel through a low-temperature heat exchanger 9, the third compressor 6 is also communicated with the second compressor 4 by a circulating medium channel through a heat supplier 8, the heat supplier 8 is also communicated with the outside by a heated medium channel, the low-temperature heat exchanger 9 is also communicated with the outside by a low, the gas turbine 3, the expander 5, and the second expander 12 are connected to the compressor 1, the second compressor 4, and the third compressor 6 and transmit power.
(2) In the process, air flows through the compressor 1 to be boosted and heated and then enters the combustion chamber 2, external fuel enters the combustion chamber 2, is mixed with compressed air and is combusted into high-temperature gas, the high-temperature gas enters the gas turbine 3 to be decompressed and do work, the gas discharged by the gas turbine 3 sequentially flows through the second high-temperature heat exchanger 11 and the high-temperature heat exchanger 7 to gradually release heat, and then is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the high-temperature heat exchanger 7 and absorbs heat, and then enters the expander 5 to reduce the pressure and do work; the circulating medium discharged by the expander 5 flows through the second high-temperature heat exchanger 11 and absorbs heat, and then enters the second expander 12 to reduce the pressure and do work; the circulating medium discharged by the second expander 12 flows through the low-temperature heat exchanger 9 and absorbs heat, and then enters the third compressor 6 to be boosted and heated; the circulating medium discharged by the third compressor 6 flows through the heater 8 and releases heat, and then enters the second compressor 4 for boosting and heating; work output by the gas turbine 3, the expander 5 and the second expander 12 is provided for the compressor 1, the second compressor 4 and the third compressor 6 as power, fuel is combusted to provide high-temperature heat load, heated medium obtains medium-temperature heat load through the heat supply device 8, and low-temperature heat medium provides low-temperature heat load through the low-temperature heat exchanger 9, so that the first type of heat-driven compression heat pump is formed.
The first type of thermally driven compression heat pump shown in fig. 4 is realized by:
(1) structurally, the system mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supply device, a low-temperature heat exchanger, a second expander and a second low-temperature heat exchanger; an air channel is arranged outside and communicated with the compressor 1, the compressor 1 is also communicated with the combustion chamber 2 by a compressed air channel, the combustion chamber 2 is also communicated with the outside by a fuel channel, the combustion chamber 2 is also communicated with the gas turbine 3 by a gas channel, the gas turbine 3 is also communicated with the outside by a high-temperature heat exchanger 7 by a gas channel, the second compressor 4 is communicated with the expander 5 by a circulating medium channel, the expander 5 is also communicated with the second expander 12 by a low-temperature heat exchanger 9 by a circulating medium channel, the second expander 12 is also communicated with the third compressor 6 by a circulating medium channel, the third compressor 6 is also communicated with the second compressor 4 by a heat supplier 8, the heat supplier 8 is also communicated with the outside by a heated medium channel, and the low-temperature heat exchanger 9 and the second low-temperature heat exchanger 13 are respectively communicated with the outside by a low-temperature heat medium channel, the gas turbine 3, the expander 5, and the second expander 12 are connected to the compressor 1, the second compressor 4, and the third compressor 6 and transmit power.
(2) In the flow, air flows through the compressor 1 to be boosted and heated and then enters the combustion chamber 2, external fuel enters the combustion chamber 2, is mixed with compressed air and is combusted into high-temperature gas, the high-temperature gas enters the gas turbine 3 to be decompressed and do work, and the gas discharged by the gas turbine 3 flows through the high-temperature heat exchanger 7 to release heat and then is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the high-temperature heat exchanger 7 and absorbs heat, and then enters the expander 5 to reduce the pressure and do work; the circulating medium discharged by the expansion machine 5 flows through the low-temperature heat exchanger 9 and absorbs heat, and then enters the second expansion machine 12 to reduce the pressure and do work; the circulating medium discharged from the second expander 12 flows through the second low-temperature heat exchanger 13 and absorbs heat, and then enters the third compressor 6 to be boosted and heated; the circulating medium discharged by the third compressor 6 flows through the heater 8 and releases heat, and then enters the second compressor 4 for boosting and heating; work output by the gas turbine 3, the expander 5 and the second expander 12 is provided for the compressor 1, the second compressor 4 and the third compressor 6 as power, fuel is combusted to provide high-temperature heat load, heated medium obtains medium-temperature heat load through the heat supply device 8, and low-temperature heat medium provides low-temperature heat load through the low-temperature heat exchanger 9 and the second low-temperature heat exchanger 13 respectively to form a first-class thermally driven compression heat pump.
The first type of thermally driven compression heat pump shown in fig. 5 is realized by:
(1) structurally, the system mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supply device, a low-temperature heat exchanger and a fourth compressor; an air channel is arranged outside and communicated with the compressor 1, the compressor 1 is also communicated with the combustion chamber 2 through a compressed air channel, the combustion chamber 2 is also communicated with the outside through a fuel channel, the combustion chamber 2 is also communicated with the gas turbine 3 through a gas channel, the gas turbine 3 is also communicated with the outside through a high-temperature heat exchanger 7, the second compressor 4 is also communicated with the expander 5 through the high-temperature heat exchanger 7 through a circulating medium channel, the expander 5 is also communicated with the third compressor 6 through a low-temperature heat exchanger 9, the third compressor 6 is also communicated with a fourth compressor 10 through a heat supplier 8, the fourth compressor 10 is also communicated with the second compressor 4 through a heat supplier 8, the heat supplier 8 is also communicated with the outside through a heated medium channel, the low-temperature heat exchanger 9 is also communicated with the outside through a low-temperature heat medium channel, the gas turbine 3 is connected with the compressor 1 through the expander 5, A second compressor 4, a third compressor 6 and a fourth compressor 10 and transmits power.
(2) In the flow, air flows through the compressor 1 to be boosted and heated and then enters the combustion chamber 2, external fuel enters the combustion chamber 2, is mixed with compressed air and is combusted into high-temperature gas, the high-temperature gas enters the gas turbine 3 to be decompressed and do work, and the gas discharged by the gas turbine 3 flows through the high-temperature heat exchanger 7 to release heat and then is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the high-temperature heat exchanger 7 and absorbs heat, and then enters the expander 5 to reduce the pressure and do work; the circulating medium discharged by the expander 5 flows through the low-temperature heat exchanger 9 and absorbs heat, and then enters the third compressor 6 to be boosted and heated; the circulating medium discharged by the third compressor 6 flows through the heater 8 and releases heat, and then enters the fourth compressor 10 to increase the pressure and the temperature; the circulating medium discharged by the fourth compressor 10 flows through the heater 8 and releases heat, and then the second compressor 4 increases the pressure and the temperature; work output by the gas turbine 3 and the expander 5 is supplied to the compressor 1, the second compressor 4, the third compressor 6 and the fourth compressor 10 as power, fuel is combusted to provide high-temperature heat load, heated medium obtains medium-temperature heat load through the heater 8, and low-temperature heat medium provides low-temperature heat load through the low-temperature heat exchanger 9, so that the first type of thermally driven compression heat pump is formed.
The first type of thermally driven compression heat pump shown in fig. 6 is realized by:
(1) structurally, the heat pump unit mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supply device, a low-temperature heat exchanger, a second expander and a second heat supply device; an air channel is arranged outside and communicated with the compressor 1, the compressor 1 is also communicated with the combustion chamber 2 by a compressed air channel, the combustion chamber 2 is also communicated with the outside by a fuel channel, the combustion chamber 2 is also communicated with the gas turbine 3 by a gas channel, the gas turbine 3 is also communicated with the outside by a high-temperature heat exchanger 7 by a gas channel, the second compressor 4 is communicated with the expander 5 by the high-temperature heat exchanger 7 by a circulating medium channel, the expander 5 is also communicated with the second expander 12 by a circulating medium channel through a heat supplier 8, the second expander 12 is also communicated with the third compressor 6 by a circulating medium channel through a low-temperature heat exchanger 9, the third compressor 6 is also communicated with the second compressor 4 by a circulating medium channel through a second heat supplier 14, the heat supplier 8 and the second heat supplier 14 are also communicated with the outside by a heated medium channel respectively, and the low-temperature heat exchanger 9 is also communicated with the outside by a low-, the gas turbine 3, the expander 5, and the second expander 12 are connected to the compressor 1, the second compressor 4, and the third compressor 6 and transmit power.
(2) In the flow, air flows through the compressor 1 to be boosted and heated and then enters the combustion chamber 2, external fuel enters the combustion chamber 2, is mixed with compressed air and is combusted into high-temperature gas, the high-temperature gas enters the gas turbine 3 to be decompressed and do work, and the gas discharged by the gas turbine 3 flows through the high-temperature heat exchanger 7 to release heat and then is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the high-temperature heat exchanger 7 and absorbs heat, and then enters the expander 5 to reduce the pressure and do work; the circulating medium discharged by the expander 5 flows through the heater 8 and releases heat, and then enters the second expander 12 to reduce the pressure and do work; the circulating medium discharged by the second expander 12 flows through the low-temperature heat exchanger 9 and absorbs heat, and then enters the third compressor 6 to be boosted and heated; the circulating medium discharged by the third compressor 6 flows through the second heat supplier 14 and releases heat, and then enters the second compressor 4 to increase the pressure and the temperature; work output by the gas turbine 3, the expander 5 and the second expander 12 is provided for the compressor 1, the second compressor 4 and the third compressor 6 as power, fuel is combusted to provide high-temperature heat load, heated medium obtains medium-temperature heat load through the heat supplier 8 and the second heat supplier 14 respectively, and low-temperature heat medium provides low-temperature heat load through the low-temperature heat exchanger 9 to form a first type of thermally driven compression heat pump.
The first type of thermally driven compression heat pump shown in fig. 7 is realized by:
(1) structurally, the heat pump unit mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supply device, a low-temperature heat exchanger, a second expander and a second heat supply device; an air channel is arranged outside and communicated with the compressor 1, the compressor 1 is also communicated with the combustion chamber 2 by a compressed air channel, the combustion chamber 2 is also communicated with the outside by a fuel channel, the combustion chamber 2 is also communicated with the gas turbine 3 by a gas channel, the gas turbine 3 is also communicated with the outside by a high-temperature heat exchanger 7 by a gas channel, the second compressor 4 is communicated with the expander 5 by a circulating medium channel, the expander 5 is also communicated with the third compressor 6 by a low-temperature heat exchanger 9 by a circulating medium channel, the third compressor 6 is also communicated with the second expander 12 by a heat supplier 8 by a circulating medium channel, the second expander 12 is also communicated with the second compressor 4 by a circulating medium channel 14, the heat supplier 8 and the second heat supplier 14 are also communicated with the outside by a heated medium channel respectively, and the low-temperature heat exchanger 9 is also communicated with the outside by a low-temperature heat medium channel, the gas turbine 3, the expander 5, and the second expander 12 are connected to the compressor 1, the second compressor 4, and the third compressor 6 and transmit power.
(2) In the flow, air flows through the compressor 1 to be boosted and heated and then enters the combustion chamber 2, external fuel enters the combustion chamber 2, is mixed with compressed air and is combusted into high-temperature gas, the high-temperature gas enters the gas turbine 3 to be decompressed and do work, and the gas discharged by the gas turbine 3 flows through the high-temperature heat exchanger 7 to release heat and then is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the high-temperature heat exchanger 7 and absorbs heat, and then enters the expander 5 to reduce the pressure and do work; the circulating medium discharged by the expander 5 flows through the low-temperature heat exchanger 9 and absorbs heat, and then enters the third compressor 6 to be boosted and heated; the circulating medium discharged by the third compressor 6 flows through the heat supply device 8 and releases heat, and then enters the second expansion machine 12 to reduce the pressure and do work; the circulating medium discharged from the second expander 12 flows through the second heat supplier 14 and releases heat, and then enters the second compressor 4 to increase the pressure and the temperature; work output by the gas turbine 3, the expander 5 and the second expander 12 is provided for the compressor 1, the second compressor 4 and the third compressor 6 as power, fuel is combusted to provide high-temperature heat load, heated medium obtains medium-temperature heat load through the heat supplier 8 and the second heat supplier 14 respectively, and low-temperature heat medium provides low-temperature heat load through the low-temperature heat exchanger 9 to form a first type of thermally driven compression heat pump.
The first type of thermally driven compression heat pump shown in fig. 8 is realized by:
(1) structurally, the heat pump system mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a fourth compressor and a second heat supplier; an air channel is arranged outside and communicated with the compressor 1, the compressor 1 is also communicated with the combustion chamber 2 by a compressed air channel, the combustion chamber 2 is also communicated with the outside by a fuel channel, the combustion chamber 2 is also communicated with the gas turbine 3 by a gas channel, the gas turbine 3 is also communicated with the outside by a high-temperature heat exchanger 7 by a gas channel, the second compressor 4 is communicated with the expander 5 by a circulating medium channel, the expander 5 is also communicated with the third compressor 6 by a circulating medium channel by a low-temperature heat exchanger 9, the third compressor 6 is also communicated with the fourth compressor 10 by a circulating medium channel 8, the fourth compressor 10 is also communicated with the second compressor 4 by a circulating medium channel 14, the heat supplier 8 and the second heat supplier 14 are also communicated with the outside by a heated medium channel respectively, and the low-temperature heat exchanger 9 is also communicated with the outside by a low-temperature heat medium channel, the gas turbine 3 and the expander 5 are connected to the compressor 1, the second compressor 4, the third compressor 6, and the fourth compressor 10 and transmit power.
(2) In the flow, air flows through the compressor 1 to be boosted and heated and then enters the combustion chamber 2, external fuel enters the combustion chamber 2, is mixed with compressed air and is combusted into high-temperature gas, the high-temperature gas enters the gas turbine 3 to be decompressed and do work, and the gas discharged by the gas turbine 3 flows through the high-temperature heat exchanger 7 to release heat and then is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the high-temperature heat exchanger 7 and absorbs heat, and then enters the expander 5 to reduce the pressure and do work; the circulating medium discharged by the expander 5 flows through the low-temperature heat exchanger 9 and absorbs heat, and then enters the third compressor 6 to be boosted and heated; the circulating medium discharged by the third compressor 6 flows through the heater 8 and releases heat, and then enters the fourth compressor 10 to increase the pressure and the temperature; the circulating medium discharged by the fourth compressor 10 flows through the second heat supplier 14 and releases heat, and then enters the second compressor 4 to increase the pressure and the temperature; work output by the gas turbine 3 and the expander 5 is provided for the compressor 1, the second compressor 4, the third compressor 6 and the fourth compressor 10 as power, fuel is combusted to provide high-temperature heat load, heated medium obtains medium-temperature heat load through the heat supplier 8 and the second heat supplier 14 respectively, and low-temperature heat medium provides low-temperature heat load through the low-temperature heat exchanger 9 to form a first-class thermally driven compression heat pump.
The first type of thermally driven compression heat pump shown in fig. 9 is realized by:
(1) structurally, the heat recovery device mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supply device, a low-temperature heat exchanger and a heat regenerator; an air channel is arranged outside and communicated with the compressor 1, the compressor 1 is also communicated with the combustion chamber 2 through a compressed air channel, the combustion chamber 2 is also communicated with the outside through a fuel channel, the combustion chamber 2 is also communicated with the gas turbine 3 through a gas channel, the gas turbine 3 is also communicated with the outside through a high-temperature heat exchanger 7, the second compressor 4 is provided with a circulating medium channel which is communicated with the expander 5 through a heat regenerator 15 and the high-temperature heat exchanger 7 in sequence, the expander 5 is also communicated with the third compressor 6 through a low-temperature heat exchanger 9, the third compressor 6 is also provided with a circulating medium channel which is communicated with the second compressor 4 through a heat regenerator 15 and a heat supplier 8 in sequence, the heat supplier 8 is also communicated with the outside through a heated medium channel, the low-temperature heat exchanger 9 is also communicated with the outside through a low-temperature heat medium channel, the gas turbine 3 and the, a second compressor 4 and a third compressor 6 and transmits power.
(2) In the flow, air flows through the compressor 1 to be boosted and heated and then enters the combustion chamber 2, external fuel enters the combustion chamber 2, is mixed with compressed air and is combusted into high-temperature gas, the high-temperature gas enters the gas turbine 3 to be decompressed and do work, and the gas discharged by the gas turbine 3 flows through the high-temperature heat exchanger 7 to release heat and then is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the heat regenerator 15 and the high-temperature heat exchanger 7 in sequence, gradually absorbs heat, and then enters the expansion machine 5 to reduce the pressure and do work; the circulating medium discharged by the expander 5 flows through the low-temperature heat exchanger 9 and absorbs heat, and then enters the third compressor 6 to be boosted and heated; the circulating medium discharged by the third compressor 6 flows through the heat regenerator 15 and the heat supplier 8 in sequence, gradually releases heat, and then enters the second compressor 4 for boosting and heating; work output by the gas turbine 3 and the expander 5 is provided for the compressor 1, the second compressor 4 and the third compressor 6 as power, fuel is combusted to provide high-temperature heat load, heated medium obtains medium-temperature heat load through a heat supplier 8, and low-temperature heat medium provides low-temperature heat load through a low-temperature heat exchanger 9, so that the first type of heat-driven compression heat pump is formed.
The first type of thermally driven compression heat pump shown in fig. 10 is realized by:
(1) structurally, the heat recovery device mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supply device, a low-temperature heat exchanger and a heat regenerator; an air channel is arranged outside and communicated with the compressor 1, the compressor 1 is also communicated with the combustion chamber 2 through a compressed air channel, the combustion chamber 2 is also communicated with the outside through a fuel channel, the combustion chamber 2 is also communicated with the gas turbine 3 through a gas channel, the gas turbine 3 is also communicated with the outside through a high-temperature heat exchanger 7, the second compressor 4 is also communicated with the expander 5 through the high-temperature heat exchanger 7 through a circulating medium channel, the expander 5 is also communicated with the third compressor 6 through a low-temperature heat exchanger 9 and a heat regenerator 15 in sequence, the third compressor 6 is also communicated with the second compressor 4 through a heat supplier 8 and a heat regenerator 15 in sequence, the heat supplier 8 is also communicated with the outside through a heated medium channel, the low-temperature heat exchanger 9 is also communicated with the outside through a low-temperature heat medium channel, the gas turbine 3 and the expander 5 are connected with the compressor 1, a second compressor 4 and a third compressor 6 and transmits power.
(2) In the flow, air flows through the compressor 1 to be boosted and heated and then enters the combustion chamber 2, external fuel enters the combustion chamber 2, is mixed with compressed air and is combusted into high-temperature gas, the high-temperature gas enters the gas turbine 3 to be decompressed and do work, and the gas discharged by the gas turbine 3 flows through the high-temperature heat exchanger 7 to release heat and then is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the high-temperature heat exchanger 7 and absorbs heat, and then enters the expander 5 to reduce the pressure and do work; the circulating medium discharged by the expander 5 flows through the low-temperature heat exchanger 9 and the heat regenerator 15 in sequence and absorbs heat gradually, and then enters the third compressor 6 to increase the pressure and the temperature; the circulating medium discharged by the third compressor 6 flows through the heat supplier 8 and the heat regenerator 15 in sequence, gradually releases heat, and then enters the second compressor 4 to increase the pressure and the temperature; work output by the gas turbine 3 and the expander 5 is provided for the compressor 1, the second compressor 4 and the third compressor 6 as power, fuel is combusted to provide high-temperature heat load, heated medium obtains medium-temperature heat load through a heat supplier 8, and low-temperature heat medium provides low-temperature heat load through a low-temperature heat exchanger 9, so that the first type of heat-driven compression heat pump is formed.
The first type of thermally driven compression heat pump shown in fig. 11 is realized by:
(1) structurally, the heat pump system mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger and a second heat supplier; an air channel is arranged outside and communicated with the compressor 1, the compressor 1 is also communicated with the combustion chamber 2 through a compressed air channel, the combustion chamber 2 is also communicated with the outside through a fuel channel, the combustion chamber 2 is also communicated with the gas turbine 3 through a gas channel, the gas turbine 3 is also communicated with the outside through a high-temperature heat exchanger 7 and a second heat supplier 14 in sequence, the second compressor 4 is provided with a circulating medium channel communicated with the expander 5 through the high-temperature heat exchanger 7, the expander 5 is also communicated with a third compressor 6 through a circulating medium channel 9, the third compressor 6 is also communicated with the second compressor 4 through a heat supplier 8, the heat supplier 8 and the second heat supplier 14 are also respectively communicated with the outside through a heated medium channel, the low-temperature heat exchanger 9 is also communicated with the outside through a low-temperature heat medium channel, the gas turbine 3 and the expander 5 are connected with the compressor 1, A second compressor 4 and a third compressor 6 and transmits power.
(2) In the process, air flows through the compressor 1 to be boosted and heated and then enters the combustion chamber 2, external fuel enters the combustion chamber 2, is mixed with compressed air and is combusted into high-temperature gas, the high-temperature gas enters the gas turbine 3 to be decompressed and work, the gas discharged by the gas turbine 3 sequentially flows through the high-temperature heat exchanger 7 and the second heat supply device 14 and gradually releases heat, and then is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the high-temperature heat exchanger 7 and absorbs heat, and then enters the expander 5 to reduce the pressure and do work; the circulating medium discharged by the expander 5 flows through the low-temperature heat exchanger 9 and absorbs heat, and then enters the third compressor 6 to be boosted and heated; the circulating medium discharged by the third compressor 6 flows through the heater 8 and releases heat, and then enters the second compressor 4 for boosting and heating; work output by the gas turbine 3 and the expander 5 is provided for the compressor 1, the second compressor 4 and the third compressor 6 as power, fuel is combusted to provide high-temperature heat load, heated medium obtains medium-temperature heat load through the heat supplier 8 and the second heat supplier 14 respectively, and low-temperature heat medium provides low-temperature heat load through the low-temperature heat exchanger 9 to form a first-type heat driving compression heat pump.
The first type of thermally driven compression heat pump shown in fig. 12 is realized by:
(1) structurally, the heat pump unit mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second low-temperature heat exchanger and a second heat supplier; an air channel is arranged outside and communicated with the compressor 1, the compressor 1 is also provided with a compressed air channel and communicated with the combustion chamber 2, the combustion chamber 2 is also provided with a fuel channel and communicated with the outside, the combustion chamber 2 is also provided with a gas channel and communicated with the gas turbine 3, the gas turbine 3 is also provided with a gas channel which is sequentially communicated with the high-temperature heat exchanger 7, the second heat exchanger 13 is also provided with a gas channel and communicated with the outside after the second heat exchanger 14 and the second low-temperature heat exchanger 13, the second compressor 4 is provided with a circulating medium channel which is communicated with the expander 5 through the high-temperature heat exchanger 7, the expander 5 is also provided with a circulating medium channel which is communicated with the third compressor 6 through the low-temperature heat exchanger 9, the third compressor 6 is also provided with a circulating medium channel which is communicated with the second compressor 4 through the heat exchanger 8, the heat exchanger 8 and the second heat exchanger 14 are also provided with the outside respectively, and the outside are also The low-temperature heat medium passage is connected to the outside, and the gas turbine 3 and the expander 5 are connected to the compressor 1, the second compressor 4, and the third compressor 6 to transmit power.
(2) In the process, air flows through the compressor 1 to be boosted and heated and then enters the combustion chamber 2, external fuel enters the combustion chamber 2, is mixed with compressed air and is combusted into high-temperature gas, the high-temperature gas enters the gas turbine 3 to be decompressed and work, the gas discharged by the gas turbine 3 sequentially flows through the high-temperature heat exchanger 7, the second heat supply device 14 and the second low-temperature heat exchanger 13 to gradually release heat, and then is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the high-temperature heat exchanger 7 and absorbs heat, and then enters the expander 5 to reduce the pressure and do work; the circulating medium discharged by the expander 5 flows through the low-temperature heat exchanger 9 and absorbs heat, and then enters the third compressor 6 to be boosted and heated; the low-temperature thermal medium flows through the second low-temperature heat exchanger 13 and absorbs heat, and then flows through the low-temperature heat exchanger 9 and releases heat; the circulating medium discharged by the third compressor 6 flows through the heater 8 and releases heat, and then enters the second compressor 4 for boosting and heating; work output by the gas turbine 3 and the expander 5 is provided for the compressor 1, the second compressor 4 and the third compressor 6 as power, fuel is combusted to provide high-temperature heat load, fuel gas is provided for medium-temperature heat load through the second heat supplier 14, fuel gas is provided for low-temperature heat load through the second low-temperature heat exchanger 13, heated media are respectively provided for medium-temperature heat load through the heat supplier 8 and the second heat supplier 14, and low-temperature heat media are provided for low-temperature heat load through the low-temperature heat exchanger 9, so that the first-type heat-driven compression heat pump is formed.
The first type of thermally driven compression heat pump shown in fig. 13 is realized by:
(1) structurally, the heat exchanger mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supply device, a low-temperature heat exchanger and a high-temperature heat regenerator; an air channel is arranged outside and communicated with a compressor 1, the compressor 1 is also communicated with a combustion chamber 2 through a high-temperature regenerator 16, the combustion chamber 2 is also communicated with the outside through a fuel channel, the combustion chamber 2 is also communicated with a gas channel and a gas turbine 3, the gas turbine 3 is also provided with a gas channel which is sequentially communicated with the high-temperature regenerator 16 and a high-temperature heat exchanger 7, then the high-temperature heat exchanger 7 is also provided with a gas channel which is communicated with the outside, a circulating medium channel of a second compressor 4 is communicated with an expander 5 through the high-temperature heat exchanger 7, the expander 5 is also provided with a circulating medium channel which is communicated with a third compressor 6 through a low-temperature heat exchanger 9, the third compressor 6 is also provided with a circulating medium channel which is communicated with the second compressor 4 through a heater 8, the heater 8 is also provided with a heated medium channel which is communicated with the outside, the low-temperature heat exchanger 9 is also, A second compressor 4 and a third compressor 6 and transmits power.
(2) In the process, air enters a compressor 1 to be boosted and heated, compressed air discharged by the compressor 1 enters a combustion chamber 2 after flowing through a high-temperature heat regenerator 16 to absorb heat, external fuel enters the combustion chamber 2 to be mixed with the compressed air and combusted into high-temperature gas, the high-temperature gas enters a gas turbine 3 to be decompressed and do work, the gas discharged by the gas turbine 3 sequentially flows through the high-temperature heat regenerator 16 and a high-temperature heat exchanger 7 to gradually release heat, and then is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the high-temperature heat exchanger 7 and absorbs heat, and then enters the expander 5 to reduce the pressure and do work; the circulating medium discharged by the expander 5 flows through the low-temperature heat exchanger 9 and absorbs heat, and then enters the third compressor 6 to be boosted and heated; the circulating medium discharged by the third compressor 6 flows through the heater 8 and releases heat, and then enters the second compressor 4 for boosting and heating; work output by the gas turbine 3 and the expander 5 is provided for the compressor 1, the second compressor 4 and the third compressor 6 as power, fuel is combusted to provide high-temperature heat load, heated medium obtains medium-temperature heat load through a heat supplier 8, and low-temperature heat medium provides low-temperature heat load through a low-temperature heat exchanger 9, so that the first type of heat-driven compression heat pump is formed.
The first type of thermally driven compression heat pump shown in fig. 14 is realized by:
(1) structurally, in the first type of thermally driven compression heat pump shown in fig. 1, a fuel channel communicated with the combustion chamber 2 from the outside is eliminated, a newly added compressor is added, a gaseous fuel channel is communicated with the newly added compressor 17 from the outside, the newly added compressor 17 is also communicated with the combustion chamber 2 through a compressed gaseous fuel channel, and the gas turbine 3 is connected with the newly added compressor 17 and transmits power.
(2) In the flow, air flows through the compressor 1 to be boosted and heated and then enters the combustion chamber 2, gaseous fuel enters the newly-added compressor 17 to be boosted and heated and then enters the combustion chamber 2, is mixed with compressed air and is combusted into high-temperature gas, the high-temperature gas enters the gas turbine 3 to be decompressed and work, and the gas discharged by the gas turbine 3 flows through the high-temperature heat exchanger 7 to release heat and is discharged outwards; the circulating medium discharged by the second compressor 4 flows through the high-temperature heat exchanger 7 and absorbs heat, and then enters the expander 5 to reduce the pressure and do work; the circulating medium discharged by the expander 5 flows through the low-temperature heat exchanger 9 and absorbs heat, and then enters the third compressor 6 to be boosted and heated; the circulating medium discharged by the third compressor 6 flows through the heater 8 and releases heat, and then enters the second compressor 4 for boosting and heating; work output by the gas turbine 3 and the expander 5 is provided for the compressor 1, the second compressor 4, the third compressor 6 and the newly-added compressor 17 as power, fuel is combusted to provide high-temperature heat load, heated medium obtains medium-temperature heat load through the heater 8, and low-temperature heat medium provides low-temperature heat load through the low-temperature heat exchanger 9, so that the first type of thermally-driven compression heat pump is formed.
The effect that the technology of the invention can realize-the first kind of thermally driven compression heat pump provided by the invention has the following effects and advantages:
(1) provides a new idea and a new technology for utilizing temperature difference under the condition of directly utilizing fuel as driving energy.
(2) The heat energy (temperature difference) drives to realize heat supply/refrigeration, or can selectively provide power to the outside at the same time.
(3) The process is reasonable, and the full and efficient utilization of heat energy (temperature difference) can be realized.
(4) When necessary, heat supply/refrigeration is realized by means of external power, the mode is flexible, and the adaptability is good.
(5) The compressor, the expander and the heat exchanger are used as components of the compression heat pump, and the structure is simple.
(6) The temperature difference utilization is realized through the gas turbine device and the high-temperature heat exchanger respectively, and the temperature difference utilization degree is improved.
(7) A plurality of specific technical schemes are provided, so that the method can cope with a plurality of different actual conditions and has a wider application range.
(8) The heat pump technology is expanded, the types of compression heat pumps are enriched, and the high-efficiency utilization of heat energy is better realized.

Claims (27)

1. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier and a low-temperature heat exchanger; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel and communicated with a combustion chamber (2), the combustion chamber (2) is also provided with a fuel channel and communicated with the outside, the combustion chamber (2) is also provided with a gas channel and communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel and communicated with the outside through a high-temperature heat exchanger (7), a circulating medium channel of a second compressor (4) is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel and communicated with a third compressor (6) through a low-temperature heat exchanger (9), a circulating medium channel of the third compressor (6) is also communicated with the second compressor (4) through a heat supply device (8), a heated medium channel of the heat supply device (8) is also communicated with the outside, and a low-temperature heat medium channel of the low-temperature, the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first type of thermally driven compression heat pump.
2. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a fourth compressor and a second high-temperature heat exchanger; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel and communicated with a combustion chamber (2), the combustion chamber (2) is also provided with a fuel channel and communicated with the outside, the combustion chamber (2) is also provided with a gas channel and communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is sequentially communicated with a second high-temperature heat exchanger (11) and a high-temperature heat exchanger (7), then the high-temperature heat exchanger (7) is also provided with a gas channel and communicated with the outside, the second compressor (4) is provided with a circulating medium channel which is communicated with a third compressor (6) through the high-temperature heat exchanger (7), the third compressor (6) is also provided with a circulating medium channel which is communicated with an expander (5) through the second high-temperature heat exchanger (11), the expander (5) is also provided with a circulating medium channel which is communicated with a fourth compressor (10) through a low-temperature heat exchanger (9), and the fourth compressor (10), the heat supply device (8) is also provided with a heated medium channel communicated with the outside, the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel communicated with the outside, and the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4), the third compressor (6) and the fourth compressor (10) and transmit power to form a first-class heat-driven compression heat pump.
3. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second high-temperature heat exchanger and a second expander; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel and communicated with a combustion chamber (2), the combustion chamber (2) is also provided with a fuel channel and communicated with the outside, the combustion chamber (2) is also provided with a gas channel and communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is communicated with the outside sequentially through a second high-temperature heat exchanger (11) and a high-temperature heat exchanger (7), the second compressor (4) is provided with a circulating medium channel which is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a second expander (12) through the second high-temperature heat exchanger (11), the second expander (12) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9), the third compressor (6) is also provided with a circulating medium channel which is communicated with the, the heat supply device (8) is also provided with a heated medium channel communicated with the outside, the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel communicated with the outside, and the gas turbine (3), the expander (5) and the second expander (12) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first-class heat-driven compression heat pump.
4. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second expander and a second low-temperature heat exchanger; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel and communicated with a combustion chamber (2), the combustion chamber (2) is also provided with a fuel channel and communicated with the outside, the combustion chamber (2) is also provided with a gas channel and communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel and communicated with the outside through a high-temperature heat exchanger (7), a circulating medium channel of a second compressor (4) is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel and communicated with a second expander (12) through a low-temperature heat exchanger (9), a circulating medium channel of the second expander (12) is also communicated with a third compressor (6) through a second low-temperature heat exchanger (13), and a circulating medium channel of the third compressor (6) is also communicated with the second compressor (4) through a heat supplier (8), the heat supply device (8) is also provided with a heated medium channel communicated with the outside, the low-temperature heat exchanger (9) and the second low-temperature heat exchanger (13) are also respectively provided with a low-temperature heat medium channel communicated with the outside, and the gas turbine (3), the expander (5) and the second expander (12) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first-class heat-driven compression heat pump.
5. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger and a fourth compressor; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel and communicated with a combustion chamber (2), the combustion chamber (2) is also provided with a fuel channel and communicated with the outside, the combustion chamber (2) is also provided with a gas channel and communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel and communicated with the outside through a high-temperature heat exchanger (7), a circulating medium channel of a second compressor (4) is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel and communicated with a third compressor (6) through a low-temperature heat exchanger (9), a circulating medium channel of the third compressor (6) is also communicated with a fourth compressor (10) through a heat supplier (8), the fourth compressor (10) is also provided with a circulating medium channel which is communicated with the second compressor (4) through the heat supplier (8), and the heat supplier (8) is also provided with a heated medium, the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel communicated with the outside, and the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4), the third compressor (6) and the fourth compressor (10) and transmit power to form a first type of heat-driven compression heat pump.
6. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second expander and a second heat supplier; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel and communicated with a combustion chamber (2), the combustion chamber (2) is also provided with a fuel channel and communicated with the outside, the combustion chamber (2) is also provided with a gas channel and communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel and communicated with the outside through a high-temperature heat exchanger (7), a circulating medium channel of a second compressor (4) is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel and communicated with a second expander (12) through a heat supplier (8), a circulating medium channel of the second expander (12) is also communicated with a third compressor (6) through a low-temperature heat exchanger (9), the third compressor (6) is also provided with a circulating medium channel and communicated with the second compressor (4) through a second heat supplier (14), and the heat supplier (8) and the second heat supplier (14) are also respectively communicated with the outside, the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel communicated with the outside, and the gas turbine (3), the expander (5) and the second expander (12) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first-class heat-driven compression heat pump.
7. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second expander and a second heat supplier; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel and communicated with a combustion chamber (2), the combustion chamber (2) is also provided with a fuel channel and communicated with the outside, the combustion chamber (2) is also provided with a gas channel and communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel and communicated with the outside through a high-temperature heat exchanger (7), a circulating medium channel of a second compressor (4) is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel and communicated with a third compressor (6) through a low-temperature heat exchanger (9), a circulating medium channel of the third compressor (6) is also communicated with a second expander (12) through a heat supplier (8), the circulating medium channel of the second expander (12) is also communicated with the second compressor (4) through a second heat supplier (14), and the heat supplier (8) and the second heat supplier (14) are also respectively communicated with the outside, the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel communicated with the outside, and the gas turbine (3), the expander (5) and the second expander (12) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first-class heat-driven compression heat pump.
8. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a fourth compressor and a second heat supplier; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel and communicated with a combustion chamber (2), the combustion chamber (2) is also provided with a fuel channel and communicated with the outside, the combustion chamber (2) is also provided with a gas channel and communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel and communicated with the outside through a high-temperature heat exchanger (7), a circulating medium channel of a second compressor (4) is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel and communicated with a third compressor (6) through a low-temperature heat exchanger (9), a circulating medium channel of the third compressor (6) is also communicated with a fourth compressor (10) through a heat supplier (8), the circulating medium channel of the fourth compressor (10) is also communicated with the second compressor (4) through a second heat supplier (14), and the heat supplier (8) and the second heat supplier (14) are also respectively communicated with the outside, the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel communicated with the outside, and the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4), the third compressor (6) and the fourth compressor (10) and transmit power to form a first type of heat-driven compression heat pump.
9. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger and a heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel and communicated with a combustion chamber (2), the combustion chamber (2) is also provided with a fuel channel and communicated with the outside, the combustion chamber (2) is also provided with a gas channel and communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel and communicated with the outside through a high-temperature heat exchanger (7), a circulating medium channel of a second compressor (4) is communicated with an expander (5) through a regenerator (15) and the high-temperature heat exchanger (7) in sequence, the expander (5) is also provided with a circulating medium channel and communicated with a third compressor (6) through a low-temperature heat exchanger (9), the third compressor (6) is also provided with a circulating medium channel and communicated with the second compressor (4) through the regenerator (15) and a heat supplier (8) in sequence, the heat supplier (8) is also provided with a heated medium channel and communicated with the outside, and the low-temperature heat exchanger, the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first type of thermally driven compression heat pump.
10. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger and a heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel and communicated with a combustion chamber (2), the combustion chamber (2) is also provided with a fuel channel and communicated with the outside, the combustion chamber (2) is also provided with a gas channel and communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel and communicated with the outside through a high-temperature heat exchanger (7), a circulating medium channel of a second compressor (4) is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9) and a regenerator (15) in sequence, the third compressor (6) is also provided with a circulating medium channel which is communicated with the second compressor (4) through a heat supplier (8) and a regenerator (15) in sequence, the heat supplier (8) is also provided with a heated medium channel which is communicated with the outside, the low-, the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first type of thermally driven compression heat pump.
11. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger and a second heat supplier; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel and communicated with a combustion chamber (2), the combustion chamber (2) is also provided with a fuel channel and communicated with the outside, the combustion chamber (2) is also provided with a gas channel and communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is communicated with the outside sequentially through a high-temperature heat exchanger (7) and a second heat supply device (14), the second compressor (4) is provided with a circulating medium channel which is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9), the third compressor (6) is also provided with a circulating medium channel which is communicated with the second compressor (4) through a heat supply device (8), and the heat supply device (8) and the second heat supply device (14) are also, the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel communicated with the outside, and the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first-class heat-driven compression heat pump.
12. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second low-temperature heat exchanger and a second heat supplier; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel and communicated with a combustion chamber (2), the combustion chamber (2) is also provided with a fuel channel and communicated with the outside, the combustion chamber (2) is also provided with a gas channel and communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is sequentially communicated with a high-temperature heat exchanger (7), a second heat supplier (14) and a second low-temperature heat exchanger (13), then the second low-temperature heat exchanger (13) is also provided with a gas channel and communicated with the outside, the second compressor (4) is provided with a circulating medium channel which is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9), and the circulating medium channel of the third compressor (6) is also communicated, the heat supply device (8) and the second heat supply device (14) are respectively provided with a heated medium channel to be communicated with the outside, the outside is also provided with a low-temperature heat medium channel to be sequentially communicated with the second low-temperature heat exchanger (13) and the low-temperature heat exchanger (9), then the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel to be communicated with the outside, the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power, and a first-class thermally driven compression heat pump is formed.
13. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger and a high-temperature heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel which is communicated with a combustion chamber (2) through a high-temperature heat regenerator (16), the combustion chamber (2) is also provided with a fuel channel which is communicated with the outside, the combustion chamber (2) is also provided with a gas channel which is communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is sequentially communicated with the high-temperature heat regenerator (16) and a high-temperature heat exchanger (7), then the high-temperature heat exchanger (7) is also provided with a gas channel which is communicated with the outside, a second compressor (4) is provided with a circulating medium channel which is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9), the third compressor (6) is also provided with a circulating medium channel which is communicated with the second, the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel communicated with the outside, and the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first-class heat-driven compression heat pump.
14. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a fourth compressor, a second high-temperature heat exchanger and a high-temperature heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel which is communicated with a combustion chamber (2) through a high-temperature heat regenerator (16), the combustion chamber (2) is also provided with a fuel channel which is communicated with the outside, the combustion chamber (2) is also provided with a gas channel which is communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is sequentially communicated with the high-temperature heat regenerator (16), a second high-temperature heat exchanger (11) and the high-temperature heat exchanger (7), then the high-temperature heat exchanger (7) is also provided with a gas channel which is communicated with the outside, the second compressor (4) is provided with a circulating medium channel which is communicated with a third compressor (6) through the high-temperature heat exchanger (7), the third compressor (6) is also provided with a circulating medium channel which is communicated with an expander (5) through the second high-temperature heat exchanger (11), and the expander, the fourth compressor (10) is also provided with a circulating medium channel which is communicated with the second compressor (4) through a heat supplier (8), the heat supplier (8) is also provided with a heated medium channel which is communicated with the outside, the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel which is communicated with the outside, and the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4), the third compressor (6) and the fourth compressor (10) and transmit power, so that the first-class heat-driven compression heat pump is formed.
15. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second high-temperature heat exchanger, a second expander and a high-temperature heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel which is communicated with a combustion chamber (2) through a high-temperature heat regenerator (16), the combustion chamber (2) is also provided with a fuel channel which is communicated with the outside, the combustion chamber (2) is also provided with a gas channel which is communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is communicated with the outside through the high-temperature heat regenerator (16), a second high-temperature heat exchanger (11) and a high-temperature heat exchanger (7) in sequence, the second compressor (4) is provided with a circulating medium channel which is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a second expander (12) through the second high-temperature heat exchanger (11), the second expander (12) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9), the third compressor (6) is, the heat supply device (8) is also provided with a heated medium channel communicated with the outside, the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel communicated with the outside, and the gas turbine (3), the expander (5) and the second expander (12) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first-class heat-driven compression heat pump.
16. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second expander, a second low-temperature heat exchanger and a high-temperature heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel which is communicated with a combustion chamber (2) through a high-temperature heat regenerator (16), the combustion chamber (2) is also provided with a fuel channel which is communicated with the outside, the combustion chamber (2) is also provided with a gas channel which is communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is communicated with the high-temperature heat regenerator (16) and a high-temperature heat exchanger (7) in sequence, then the high-temperature heat exchanger (7) is also provided with a gas channel which is communicated with the outside, a second compressor (4) is provided with a circulating medium channel which is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a second expander (12) through a low-temperature heat exchanger (9), and the circulating medium channel which is also, the third compressor (6) is also provided with a circulating medium channel which is communicated with the second compressor (4) through a heat supply device (8), the heat supply device (8) is also provided with a heated medium channel which is communicated with the outside, the low-temperature heat exchanger (9) and the second low-temperature heat exchanger (13) are also respectively provided with a low-temperature heat medium channel which is communicated with the outside, and the gas turbine (3), the expander (5) and the second expander (12) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power, so that the first-class thermally driven compression heat pump is formed.
17. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a fourth compressor and a high-temperature heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel which is communicated with a combustion chamber (2) through a high-temperature heat regenerator (16), the combustion chamber (2) is also provided with a fuel channel which is communicated with the outside, the combustion chamber (2) is also provided with a gas channel which is communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is sequentially communicated with the high-temperature heat regenerator (16) and a high-temperature heat exchanger (7), then the high-temperature heat exchanger (7) is also provided with a gas channel which is communicated with the outside, a second compressor (4) is also provided with a circulating medium channel which is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9), the third compressor (6) is also provided with a circulating medium channel which is communicated with a fourth compressor (10) through a heat supplier (8 The heat supply device (8) is also provided with a heated medium channel communicated with the outside, the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel communicated with the outside, and the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4), the third compressor (6) and the fourth compressor (10) and transmit power to form a first-class thermally driven compression heat pump.
18. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second expander, a second heat supplier and a high-temperature heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel which is communicated with a combustion chamber (2) through a high-temperature heat regenerator (16), the combustion chamber (2) is also provided with a fuel channel which is communicated with the outside, the combustion chamber (2) is also provided with a gas channel which is communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is sequentially communicated with the high-temperature heat regenerator (16) and a high-temperature heat exchanger (7), then the high-temperature heat exchanger (7) is also provided with a gas channel which is communicated with the outside, a second compressor (4) is provided with a circulating medium channel which is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a second expander (12) through a heat supplier (8), the second expander (12) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9), and the third The heat supply device (8) and the second heat supply device (14) are respectively communicated with the outside through a heated medium channel, the low-temperature heat exchanger (9) is also communicated with the outside through a low-temperature heat medium channel, and the gas turbine (3), the expansion machine (5) and the second expansion machine (12) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first-class heat-driven compression heat pump.
19. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second expander, a second heat supplier and a high-temperature heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel which is communicated with a combustion chamber (2) through a high-temperature heat regenerator (16), the combustion chamber (2) is also provided with a fuel channel which is communicated with the outside, the combustion chamber (2) is also provided with a gas channel which is communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is sequentially communicated with the high-temperature heat regenerator (16) and a high-temperature heat exchanger (7), then the high-temperature heat exchanger (7) is also provided with a gas channel which is communicated with the outside, a second compressor (4) is also provided with a circulating medium channel which is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9), the third compressor (6) is also provided with a circulating medium channel which is communicated with a second expander (12) through a heat supplier (8), and the heat supply device (8) and the second heat supply device (14) are respectively communicated with the outside through a heated medium channel, the low-temperature heat exchanger (9) is also communicated with the outside through a low-temperature heat medium channel, and the gas turbine (3), the expansion machine (5) and the second expansion machine (12) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first-class heat-driven compression heat pump.
20. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a fourth compressor, a second heat supplier and a high-temperature heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel which is communicated with a combustion chamber (2) through a high-temperature heat regenerator (16), the combustion chamber (2) is also provided with a fuel channel which is communicated with the outside, the combustion chamber (2) is also provided with a gas channel which is communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is sequentially communicated with the high-temperature heat regenerator (16) and a high-temperature heat exchanger (7), then the high-temperature heat exchanger (7) is also provided with a gas channel which is communicated with the outside, a second compressor (4) is also provided with a circulating medium channel which is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9), the third compressor (6) is also provided with a circulating medium channel which is communicated with a fourth compressor (10) through a heat supplier (8 The heat supply device (8) and the second heat supply device (14) are respectively communicated with the outside through a heated medium channel, the low-temperature heat exchanger (9) is also communicated with the outside through a low-temperature heat medium channel, and the gas turbine (3) and the expansion machine (5) are connected with the compressor (1), the second compressor (4), the third compressor (6) and the fourth compressor (10) and transmit power to form a first-class heat-driven compression heat pump.
21. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a heat regenerator and a high-temperature heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel which is communicated with a combustion chamber (2) through a high-temperature heat regenerator (16), the combustion chamber (2) is also provided with a fuel channel which is communicated with the outside, the combustion chamber (2) is also provided with a gas channel which is communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is sequentially communicated with the high-temperature heat regenerator (16) and a high-temperature heat exchanger (7), then the high-temperature heat exchanger (7) is also provided with a gas channel which is communicated with the outside, a circulating medium channel of a second compressor (4) is sequentially communicated with an expander (5) through a heat regenerator (15) and a high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9), and the third compressor (6) is also provided with a circulating medium channel, the heat supply device (8) is also provided with a heated medium channel communicated with the outside, the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel communicated with the outside, and the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first-class heat-driven compression heat pump.
22. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a heat regenerator and a high-temperature heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel which is communicated with a combustion chamber (2) through a high-temperature heat regenerator (16), the combustion chamber (2) is also provided with a fuel channel which is communicated with the outside, the combustion chamber (2) is also provided with a gas channel which is communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is communicated with the high-temperature heat regenerator (16) and a high-temperature heat exchanger (7) in turn and then is also provided with a gas channel which is communicated with the outside, a second compressor (4) is provided with a circulating medium channel which is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9) and a heat regenerator (15) in turn, the third compressor (6) is also provided with a circulating medium channel which is, the heat supply device (8) is also provided with a heated medium channel communicated with the outside, the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel communicated with the outside, and the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first-class heat-driven compression heat pump.
23. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second heat supplier and a high-temperature heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel which is communicated with a combustion chamber (2) through a high-temperature heat regenerator (16), the combustion chamber (2) is also provided with a fuel channel which is communicated with the outside, the combustion chamber (2) is also provided with a gas channel which is communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is sequentially communicated with the high-temperature heat regenerator (16), a high-temperature heat exchanger (7) and a second heat exchanger (14), then the second heat exchanger (17) is also provided with a gas channel which is communicated with the outside, the second compressor (4) is provided with a circulating medium channel which is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9), and the third compressor (6) is also provided, the heat supply device (8) and the second heat supply device (14) are respectively communicated with the outside through a heated medium channel, the low-temperature heat exchanger (9) is also communicated with the outside through a low-temperature heat medium channel, and the gas turbine (3) and the expansion machine (5) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power to form a first-class heat-driven compression heat pump.
24. The first kind of heat-driven compression heat pump mainly comprises a compressor, a combustion chamber, a gas turbine, a second compressor, an expander, a third compressor, a high-temperature heat exchanger, a heat supplier, a low-temperature heat exchanger, a second heat supplier and a high-temperature heat regenerator; an air channel is arranged outside and communicated with a compressor (1), the compressor (1) is also provided with a compressed air channel which is communicated with a combustion chamber (2) through a high-temperature heat regenerator (16), the combustion chamber (2) is also provided with a fuel channel which is communicated with the outside, the combustion chamber (2) is also provided with a gas channel which is communicated with a gas turbine (3), the gas turbine (3) is also provided with a gas channel which is sequentially communicated with the high-temperature heat regenerator (16), a high-temperature heat exchanger (7), a second heat supplier (14) and a second low-temperature heat exchanger (13) and then provided with a gas channel which is communicated with the outside, the second compressor (4) is provided with a circulating medium channel which is communicated with an expander (5) through the high-temperature heat exchanger (7), the expander (5) is also provided with a circulating medium channel which is communicated with a third compressor (6) through a low-temperature heat exchanger (9), and the third compressor (6) is also provided with a circulating medium channel, the heat supply device (8) and the second heat supply device (14) are respectively provided with a heated medium channel to be communicated with the outside, the outside is also provided with a low-temperature heat medium channel to be sequentially communicated with the second low-temperature heat exchanger (13) and the low-temperature heat exchanger (9), then the low-temperature heat exchanger (9) is also provided with a low-temperature heat medium channel to be communicated with the outside, the gas turbine (3) and the expander (5) are connected with the compressor (1), the second compressor (4) and the third compressor (6) and transmit power, and a first-class thermally driven compression heat pump is formed.
25. A first kind of heat-driven compression heat pump is characterized in that in any one of the first kind of heat-driven compression heat pump of claims 1-24, a fuel channel communicated with a combustion chamber (2) from the outside is eliminated, a newly-added compressor is added, a gaseous fuel channel is communicated with the newly-added compressor (17) from the outside, the newly-added compressor (17) is also communicated with the combustion chamber (2) through a compressed gaseous fuel channel, and a gas turbine (3) is connected with the newly-added compressor (17) and transmits power to form the first kind of heat-driven compression-absorption heat pump.
26. The first kind of thermally driven compression heat pump is the first kind of thermally driven compression heat pump according to any one of claims 1 to 25, wherein a power machine is added, the power machine is connected with the second compressor (4) and provides power for the second compressor (4), and the first kind of thermally driven compression heat pump driven by additional external power is formed.
27. The first kind of heat-driven compression heat pump is the first kind of heat-driven compression heat pump of any one of claims 1-25, wherein a working machine is added, and a gas turbine (3) is connected with the working machine and provides power for the working machine to form the first kind of heat-driven compression heat pump additionally providing power load for the outside.
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CN110542242B (en) * 2018-05-20 2022-09-23 李华玉 Combined cycle heat pump device
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Publication number Priority date Publication date Assignee Title
CN86104890A (en) * 1986-07-31 1988-02-10 通用电气公司 Heat transfer system for air circulation
US5833446A (en) * 1996-01-31 1998-11-10 Carrier Corporation Deriving mechanical power by expanding a liquid to its vapour
CN1488853A (en) * 2002-10-11 2004-04-14 王作国 Isothermal phase change condensed enthalpy difference power machine
CN1715810A (en) * 2004-07-01 2006-01-04 松下电器产业株式会社 Cooling and heating systems, refrigerators and vending machines using the systems

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN86104890A (en) * 1986-07-31 1988-02-10 通用电气公司 Heat transfer system for air circulation
US5833446A (en) * 1996-01-31 1998-11-10 Carrier Corporation Deriving mechanical power by expanding a liquid to its vapour
CN1488853A (en) * 2002-10-11 2004-04-14 王作国 Isothermal phase change condensed enthalpy difference power machine
CN1715810A (en) * 2004-07-01 2006-01-04 松下电器产业株式会社 Cooling and heating systems, refrigerators and vending machines using the systems

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