CN106568233B - Third-class thermally-driven compression heat pump - Google Patents

Third-class thermally-driven compression heat pump Download PDF

Info

Publication number
CN106568233B
CN106568233B CN201610814958.3A CN201610814958A CN106568233B CN 106568233 B CN106568233 B CN 106568233B CN 201610814958 A CN201610814958 A CN 201610814958A CN 106568233 B CN106568233 B CN 106568233B
Authority
CN
China
Prior art keywords
medium channel
expander
channel communicated
temperature
working medium
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201610814958.3A
Other languages
Chinese (zh)
Other versions
CN106568233A (en
Inventor
李华玉
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Publication of CN106568233A publication Critical patent/CN106568233A/en
Application granted granted Critical
Publication of CN106568233B publication Critical patent/CN106568233B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Classifications

    • 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
    • F25B30/00Heat pumps
    • F25B30/02Heat pumps of the compression type
    • 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
    • F25B41/00Fluid-circulation arrangements

Landscapes

  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Engine Equipment That Uses Special Cycles (AREA)
  • Compressors, Vaccum Pumps And Other Relevant Systems (AREA)

Abstract

The invention provides a third type of thermally driven compression heat pump, and belongs to the technical field of power, refrigeration and heat pumps. The low-temperature condenser is provided with a circulating working medium channel which is communicated with the high-temperature condenser through a compressor, the high-temperature condenser is also provided with a circulating working medium channel which is communicated with the high-temperature heat exchanger through a booster pump, the high-temperature condenser is also provided with a circulating working medium channel which is communicated with an evaporator through a water turbine, the high-temperature heat exchanger is also provided with a circulating working medium channel which is communicated with the evaporator through an expander, the low-temperature condenser is also provided with a circulating working medium channel which is communicated with the low-temperature condenser through a second expander channel, the high-temperature condenser is also provided with a heated medium channel which is communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel which is communicated with the outside, the evaporator is also, the second expansion machine and the water turbine are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump.

Description

Third-class thermally-driven compression heat pump
The technical field is as follows:
the invention belongs to the technical field of power, heat supply 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.
The heat energy (temperature difference) utilization technology represented by the absorption heat pump technology can simultaneously utilize the temperature difference between the medium-temperature heat load and the cold environment and the temperature difference between the high-temperature heat load and the heated medium, so as to realize the efficient utilization of the heat loads with different temperatures. However, due to the influence of the properties of the working media (solution and refrigerant media), the conversion from heat energy to mechanical energy cannot be realized while supplying heat, and the application field and the application range of the heat pump are greatly limited.
The invention provides a steam compression type third-class thermally-driven compression heat pump with a simple flow and a simple structure, which takes the efficient utilization of the temperature difference between a medium-temperature heat load and a cold environment and the temperature difference between a high-temperature heat load and a heated medium as starting points, and also takes the simultaneous utilization of power drive or the consideration of power requirements into consideration.
The invention content is as follows:
the invention mainly aims to provide a third type of thermally driven compression heat pump, and the specific contents of the invention are explained in terms of the following items:
1. the third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator and a low-temperature condenser; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the evaporator, the evaporator is also provided with a circulating working medium channel communicated with the second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser is also provided with a cooling medium channel; wherein, or the expander and the second expander are connected with the compressor and the booster pump and transmit power.
2. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a water turbine; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a water turbine, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the evaporator, the evaporator is also provided with a circulating working medium channel communicated with the second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low-temperature heat medium channel, forming a third type of thermally driven compression heat pump; wherein, or the expander, the second expander and the water turbine are connected with the compressor and the booster pump and transmit power.
3. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a throttle valve; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a throttle valve, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the evaporator, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low-temperature heat medium, forming a third type of thermally driven compression heat pump; wherein, or the expander and the second expander are connected with the compressor and the booster pump and transmit power.
4. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a water turbine; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander through a water turbine, the expander is also provided with a circulating working medium channel communicated with the evaporator, the evaporator is also provided with a circulating working medium channel communicated with the second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser is also provided with a cooling medium channel communicated, forming a third type of thermally driven compression heat pump; wherein, or the expander, the second expander and the water turbine are connected with the compressor and the booster pump and transmit power.
5. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a throttle valve; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander through a throttle valve, the expander is also provided with a circulating working medium channel communicated with the evaporator, the evaporator is also provided with a circulating working medium channel communicated with the second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser is also provided with a cooling medium channel, forming a third type of thermally driven compression heat pump; wherein, or the expander and the second expander are connected with the compressor and the booster pump and transmit power.
6. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the evaporator, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low-temperature heat medium, forming a third type of thermally driven compression heat pump; and the expander and the second expander are connected with the compressor, the booster pump and the second booster pump and transmit power.
7. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a water turbine, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the evaporator, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high, the expansion machine, the second expansion machine and the water turbine are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander, the second expander and the water turbine are connected with the compressor, the booster pump and the second booster pump and transmit power.
8. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a throttle valve, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the evaporator, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-, the expansion machine and the second expansion machine are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander and the second expander are connected with the compressor, the booster pump and the second booster pump and transmit power.
9. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander through a water turbine, the expander is also provided with a circulating working medium channel communicated with the evaporator, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the, the low-temperature condenser is also provided with a cooling medium channel which is communicated with the outside, and the expander, the second expander and the water turbine are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander, the second expander and the water turbine are connected with the compressor, the booster pump and the second booster pump and transmit power.
10. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander through a throttle valve, the expander is also provided with a circulating working medium channel communicated with the evaporator, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the low-temperature condenser is also provided with a cooling medium channel which is communicated with the outside, and the expander and the second expander are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander and the second expander are connected with the compressor, the booster pump and the second booster pump and transmit power.
11. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a water turbine; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a water turbine, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the evaporator is also provided with a circulating working medium channel communicated with the second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low-temperature, forming a third type of thermally driven compression heat pump; wherein, or the expander, the second expander and the water turbine are connected with the compressor and the booster pump and transmit power.
12. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a throttle valve; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a throttle valve, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the evaporator is also provided with a circulating working medium channel communicated with the second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low-, forming a third type of thermally driven compression heat pump; wherein, or the expander and the second expander are connected with the compressor and the booster pump and transmit power.
13. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a water turbine; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the evaporator through a water turbine, the evaporator is also provided with a circulating working medium channel communicated with the second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low-, forming a third type of thermally driven compression heat pump; wherein, or the expander, the second expander and the water turbine are connected with the compressor and the booster pump and transmit power.
14. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a throttle valve; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the evaporator through a throttle valve, the evaporator is also provided with a circulating working medium channel communicated with the second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low, forming a third type of thermally driven compression heat pump; wherein, or the expander and the second expander are connected with the compressor and the booster pump and transmit power.
15. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor through a second booster pump and an evaporator, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with, forming a third type of thermally driven compression heat pump; and the expander and the second expander are connected with the compressor, the booster pump and the second booster pump and transmit power.
16. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor is provided with a circulating working medium channel communicated with a high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger through a booster pump, the high-temperature condenser is also provided with a circulating working medium channel communicated with an evaporator through a water turbine, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with an expander, the expander is also provided with a circulating working medium channel communicated with a low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with an evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the, the low-temperature condenser is also provided with a cooling medium channel which is communicated with the outside, and the expander, the second expander and the water turbine are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander, the second expander and the water turbine are connected with the compressor, the booster pump and the second booster pump and transmit power.
17. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor is provided with a circulating working medium channel communicated with a high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger through a booster pump, the high-temperature condenser is also provided with a circulating working medium channel communicated with an evaporator through a throttle valve, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with an expander, the expander is also provided with a circulating working medium channel communicated with a low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with an evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the low-temperature condenser is also provided with a cooling medium channel which is communicated with the outside, and the expander and the second expander are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander and the second expander are connected with the compressor, the booster pump and the second booster pump and transmit power.
18. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the evaporator through a water turbine, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with, the low-temperature condenser is also provided with a cooling medium channel which is communicated with the outside, and the expander, the second expander and the water turbine are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander, the second expander and the water turbine are connected with the compressor, the booster pump and the second booster pump and transmit power.
19. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the evaporator through a throttle valve, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the, the low-temperature condenser is also provided with a cooling medium channel which is communicated with the outside, and the expander and the second expander are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander and the second expander are connected with the compressor, the booster pump and the second booster pump and transmit power.
20. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the evaporator, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with the second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the evaporator is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low-temperature heat medium channel communicated with, forming a third type of thermally driven compression heat pump; and the expander and the second expander are connected with the compressor, the booster pump and the second booster pump and transmit power.
21. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a water turbine, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the evaporator, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the evaporator is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat, the expansion machine, the second expansion machine and the water turbine are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander, the second expander and the water turbine are connected with the compressor, the booster pump and the second booster pump and transmit power.
22. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a throttle valve, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the evaporator, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the evaporator is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium, the expansion machine and the second expansion machine are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander and the second expander are connected with the compressor, the booster pump and the second booster pump and transmit power.
23. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the evaporator, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the evaporator is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low-temperature heat medium channel communicated with the, the expansion machine, the second expansion machine and the water turbine are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander, the second expander and the water turbine are connected with the compressor, the booster pump and the second booster pump and transmit power.
24. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the evaporator, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the evaporator is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low-temperature heat medium channel communicated with the outside, the expansion machine and the second expansion machine are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander and the second expander are connected with the compressor, the booster pump and the second booster pump and transmit power.
25. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with the second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the evaporator is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator is also provided with a low-temperature heat medium, forming a third type of thermally driven compression heat pump; and the expander and the second expander are connected with the compressor, the booster pump and the second booster pump and transmit power.
26. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a water turbine, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the evaporator is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high, the expansion machine, the second expansion machine and the water turbine are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander, the second expander and the water turbine are connected with the compressor, the booster pump and the second booster pump and transmit power.
27. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a throttle valve, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the evaporator is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-, the expansion machine and the second expansion machine are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander and the second expander are connected with the compressor, the booster pump and the second booster pump and transmit power.
28. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the evaporator is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, and the, the low-temperature condenser is also provided with a cooling medium channel which is communicated with the outside, and the expander, the second expander and the water turbine are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander, the second expander and the water turbine are connected with the compressor, the booster pump and the second booster pump and transmit power.
29. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor is provided with a circulating working medium channel communicated with the high-temperature condenser, the high-temperature condenser is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger through a booster pump, the high-temperature heat exchanger is also provided with a circulating working medium channel communicated with the expander, the expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the low-temperature condenser is also provided with a circulating working medium channel communicated with the evaporator through a second booster pump, the evaporator is also provided with a circulating working medium channel communicated with a second expander, the second expander is also provided with a circulating working medium channel communicated with the low-temperature condenser, the evaporator is also provided with a circulating working medium channel communicated with the compressor, the high-temperature condenser is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger is also provided with a high-temperature heat medium channel communicated with the outside, and the evaporator, the low-temperature condenser is also provided with a cooling medium channel which is communicated with the outside, and the expander and the second expander are connected with the compressor and transmit power to form a third type of thermally driven compression heat pump; and the expander and the second expander are connected with the compressor, the booster pump and the second booster pump and transmit power.
30. A third type of thermally driven compression heat pump is characterized in that a heat regenerator is added in any one of the third type of thermally driven compression heat pumps 2, 7, 11, 16, 21 and 26, a circulating working medium channel of a high-temperature condenser is communicated with an evaporator through a water turbine and adjusted to be communicated with the evaporator through the heat regenerator and the water turbine, a circulating working medium channel of the high-temperature condenser is communicated with the evaporator through the heat regenerator and the water turbine, and a circulating working medium channel of the evaporator is communicated with a second expander and adjusted to be communicated with the evaporator through the heat regenerator, so that the third type of thermally driven compression heat pump is formed.
31. A third type of thermally driven compression heat pump is characterized in that a heat regenerator is added in any one of the third type of thermally driven compression heat pumps in items 3, 8, 12, 17, 22 and 27, a circulating working medium channel of a high-temperature condenser is communicated with an evaporator through a throttle valve and adjusted to be communicated with the evaporator through the heat regenerator and the throttle valve, a circulating working medium channel of the evaporator is communicated with a second expansion machine and adjusted to be communicated with the evaporator through the heat regenerator and the second expansion machine, and the third type of thermally driven compression heat pump is formed.
32. A third type of thermally driven compression heat pump is characterized in that a heat regenerator is added in any one of the third type of thermally driven compression heat pumps in items 4, 9, 13, 18, 23 and 28, a circulating working medium channel of a high-temperature heat exchanger is communicated with an evaporator through a water turbine and adjusted to be communicated with the evaporator through the heat regenerator and the water turbine, a circulating working medium channel of the evaporator is communicated with a second expansion machine and adjusted to be communicated with the evaporator through the heat regenerator and the second expansion machine, and the third type of thermally driven compression heat pump is formed.
33. A third type of thermally driven compression heat pump is characterized in that a heat regenerator is added in any one of the third type of thermally driven compression heat pumps in the items 5, 10, 14, 19, 24 and 29, a circulating working medium channel of a high-temperature heat exchanger is communicated with an evaporator through a throttle valve and adjusted to be communicated with the evaporator through the heat regenerator and the throttle valve, a circulating working medium channel of the evaporator is communicated with a second expansion machine and adjusted to be communicated with the evaporator through the heat regenerator and the second expansion machine, and the third type of thermally driven compression heat pump is formed.
34. A third type of thermally driven compression heat pump is characterized in that a heat regenerator is added in any one of the third type of thermally driven compression heat pumps in items 6-10 and 15-29, a compressor is communicated with a high-temperature condenser and adjusted to be provided with a circulating working medium channel, the compressor is communicated with the high-temperature condenser through the heat regenerator, the high-temperature condenser is communicated with the high-temperature heat exchanger through a circulating working medium channel, the high-temperature condenser is adjusted to be provided with a circulating working medium channel, the high-temperature condenser is communicated with the high-temperature heat exchanger through a booster pump and the heat regenerator, and the third type of thermally driven compression heat pump is formed.
35. A third type of thermally driven compression heat pump is characterized in that a heat regenerator is added in any one of the third type of thermally driven compression heat pumps in items 1 to 29, a compressor is adjusted to be communicated with a high-temperature condenser through a circulating working medium channel, the compressor is adjusted to be communicated with the high-temperature condenser through the heat regenerator, the high-temperature condenser is adjusted to be communicated with the high-temperature heat exchanger through a boosting pump through a circulating working medium channel, the high-temperature condenser is adjusted to be communicated with the high-temperature heat exchanger through the boosting pump and the heat regenerator, and the third type of thermally driven compression heat pump is formed.
36. The third kind of heat driven compression heat pump is one of the third kind of heat driven compression heat pump 6-10 and 15-19, and has increased second compressor, which has circulating medium passage communicated with the compressor and the low temperature condenser communicated with the second compressor, high temperature condenser communicated with the compressor, expander connected to the second compressor to transmit power and form the third kind of heat driven compression heat pump.
37. A third kind of heat-driven compression heat pump is characterized in that a second compressor is added in any one of the third kind of heat-driven compression heat pumps in items 20-29, the communication between an evaporator provided with a circulating medium channel and the compressor is adjusted to be that the evaporator provided with the circulating medium channel is communicated with the second compressor, the second compressor is provided with the circulating medium channel which is communicated with the compressor through a high-temperature condenser, and an expander is connected with the second compressor and transmits power to form the third kind of heat-driven compression heat pump.
38. The third kind of thermally driven compression heat pump is the third kind of thermally driven compression heat pump with additional external power drive formed by adding power machine to the third kind of thermally driven compression heat pump in any one of items 1-37.
39. The third kind of thermally driven compression heat pump is the third kind of thermally driven compression heat pump which is additionally provided with a working machine in any one of the third kind of thermally driven compression heat pumps in items 1-37, wherein the expansion machine is connected with the working machine and provides power for the working machine to form a load for providing power to the outside.
Description of the drawings:
fig. 1 is a schematic diagram of a 1 st principal thermodynamic system of a third 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 third type of thermally driven compression heat pump according to the present invention.
Fig. 3 is a 3 rd principle thermodynamic system diagram of a third type of thermally driven compression heat pump provided in accordance with the present invention.
Fig. 4 is a diagram of a 4 th principle thermodynamic system of a third 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 third 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 third 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 third 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 third 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 third 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 third 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 third 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 third type of thermally driven compression heat pump according to the present invention.
Fig. 13 is a 13 th principle thermodynamic system diagram of a third 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 third type of thermally driven compression heat pump according to the present invention.
Fig. 15 is a diagram of a 15 th principle thermodynamic system of a third type of thermally driven compression heat pump according to the present invention.
Fig. 16 is a diagram of a 16 th principle thermodynamic system for a third class of thermally driven compression heat pump provided in accordance with the present invention.
Fig. 17 is a diagram of a 17 th principle thermodynamic system for a third type of thermally driven compression heat pump according to the present invention.
Fig. 18 is a diagram of a 18 th principle thermodynamic system of a third type of thermally driven compression heat pump according to the present invention.
Fig. 19 is a diagram of a 19 th principle thermodynamic system for a third type of thermally driven compression heat pump according to the present invention.
In the figure, 1-compressor, 2-booster pump, 3-expander, 4-second expander, 5-high temperature condenser, 6-high temperature heat exchanger, 7-evaporator, 8-low temperature condenser, 9-hydraulic turbine, 10-throttle valve, 11-second booster pump, 12-heat regenerator and 13-second compressor.
For ease of presentation and understanding, the following description is given:
(1) high temperature thermal load — the highest temperature, is customarily called the driving thermal load.
(2) Medium temperature thermal load-a thermal load that is at a temperature lower than the high temperature thermal load, provides thermal load to the thermal user.
(3) Low temperature thermal load — a temperature lower than the medium temperature thermal load, some of which are driving thermal loads.
(4) Low temperature cold load-the heat load carried away by the ambient medium, the temperature being the lowest, generally from the low temperature heat load; different from the refrigeration load.
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 third type of thermally driven compression heat pump shown in fig. 1 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator and a low-temperature condenser; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the expander 3 is also provided with a circulating working medium channel communicated with an evaporator 7, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger 6 is also provided with a high-temperature and high-temperature medium channel communicated with the outside, the evaporator 7 is also provided with a low-temperature and high-temperature medium channel communicated with the outside.
(2) In the process, the circulating working medium discharged by the compressor 1 sequentially enters the high-temperature condenser 5 to release heat to a heated medium and is condensed, flows through the booster pump 2 to be boosted, enters the high-temperature heat exchanger 6 to absorb heat and is partially vaporized; the circulating working medium discharged by the high-temperature heat exchanger 6 flows through the expander 3 in sequence to reduce pressure and do work, enters the evaporator 7 to absorb heat and vaporize, flows through the second expander 4 to reduce pressure and do work, enters the low-temperature condenser 8 to release heat to a cooling medium and partially condense, and then enters the compressor 1 to increase pressure and temperature; the medium to be heated obtains medium temperature heat load through the high-temperature condenser 5, the high-temperature heat load is provided by the high-temperature heat medium through the high-temperature heat exchanger 6, the low-temperature heat load is provided by the low-temperature heat medium through the evaporator 7, the low-temperature cold load is taken away by the cooling medium through the low-temperature condenser 8, and work output by the expansion machine 3 and the second expansion machine 4 is provided for the compressor 1 as power, so that a third type of heat-driven compression heat pump is formed.
The third type of thermally driven compression heat pump shown in fig. 2 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a water turbine; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with an evaporator 7 through a water turbine 9, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the expander 3 is also provided with a circulating working medium channel communicated with the evaporator 7, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger 6 is also provided with a high-temperature heating medium channel communicated with the outside, the expander 3, the second expander 4 and the water turbine 9 are connected to the compressor 1 and transmit power.
(2) In the flow, the circulating working medium discharged by the compressor 1 enters the high-temperature condenser 5 to release heat to a heated medium and is condensed, and then is divided into two paths, namely the first path flows through the booster pump 2 to be boosted and then enters the high-temperature heat exchanger 6 to absorb heat and be vaporized, and the second path flows through the water turbine 9 to be decompressed and work and then enters the evaporator 7 to absorb heat and be vaporized; circulating working medium discharged by the high-temperature heat exchanger 6 flows through the expander 3 to be decompressed and work, and then enters the evaporator 7; circulating working medium discharged by the evaporator 7 flows through the second expander 4 to be decompressed and do work, enters the low-temperature condenser 8 to release heat to a cooling medium and is partially condensed, and then enters the compressor 1 to be boosted and heated; the medium temperature heat load is obtained by a heated medium through a high-temperature condenser 5, the high-temperature heat load is provided by a high-temperature heat medium through a high-temperature heat exchanger 6, the low-temperature heat load is provided by a low-temperature heat medium through an evaporator 7, the low-temperature cold load is taken away by a cooling medium through a low-temperature condenser 8, and work output by the expansion machine 3, the second expansion machine 4 and the water turbine 9 is provided for the compressor 1 as power to form a third type of thermally driven compression heat pump.
The third type of thermally driven compression heat pump shown in fig. 3 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a throttle valve; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with an evaporator 7 through a throttle valve 10, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the expander 3 is also provided with a circulating working medium channel communicated with the evaporator 7, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger 6 is also provided with a high-temperature heating medium channel communicated with the outside, the, the expander 3 and the second expander 4 are connected to the compressor 1 and transmit power.
(2) In the flow, the circulating working medium discharged by the compressor 1 enters the high-temperature condenser 5 to release heat to a heated medium and is condensed, and then is divided into two paths, namely the first path enters the high-temperature heat exchanger 6 to absorb heat and vaporize after flowing through the booster pump 2 to increase the pressure, and the second path enters the evaporator 7 to absorb heat and vaporize after being throttled and reduced in pressure by the throttle valve 10; circulating working medium discharged by the high-temperature heat exchanger 6 flows through the expander 3 to be decompressed and work, and then enters the evaporator 7; circulating working medium discharged by the evaporator 7 flows through the second expander 4 to be decompressed and do work, enters the low-temperature condenser 8 to release heat to a cooling medium and is partially condensed, and then enters the compressor 1 to be boosted and heated; the medium to be heated obtains medium temperature heat load through the high-temperature condenser 5, the high-temperature heat load is provided by the high-temperature heat medium through the high-temperature heat exchanger 6, the low-temperature heat load is provided by the low-temperature heat medium through the evaporator 7, the low-temperature cold load is taken away by the cooling medium through the low-temperature condenser 8, and work output by the expansion machine 3 and the second expansion machine 4 is provided for the compressor 1 as power, so that a third type of heat-driven compression heat pump is formed.
The third type of thermally driven compression heat pump shown in fig. 4 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a water turbine; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an evaporator 7 through a water turbine 9, the expander 3 is also provided with a circulating working medium channel communicated with an evaporator 7, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger 6 is also provided with a high-temperature heating medium channel communicated with the outside, the expander 3, the second expander 4 and the water turbine 9 are connected to the compressor 1 and transmit power.
(2) In the process, the circulating working medium discharged by the compressor 1 sequentially enters the high-temperature condenser 5 to release heat to a heated medium and is condensed, flows through the booster pump 2 to be boosted, enters the high-temperature heat exchanger 6 to absorb heat and is partially vaporized; the circulating working medium of the high-temperature heat exchanger 6 is divided into two paths, the liquid circulating working medium flows through the water turbine 9 to reduce the pressure and do work, then enters the evaporator 7 to absorb heat and vaporize, and the gaseous circulating working medium flows through the expansion machine 3 to reduce the pressure and do work, and then enters the evaporator 7; circulating working medium discharged by the evaporator 7 flows through the second expander 4 to be decompressed and do work, enters the low-temperature condenser 8 to release heat to a cooling medium and is partially condensed, and then enters the compressor 1 to be boosted and heated; the medium temperature heat load is obtained by a heated medium through a high-temperature condenser 5, the high-temperature heat load is provided by a high-temperature heat medium through a high-temperature heat exchanger 6, the low-temperature heat load is provided by a low-temperature heat medium through an evaporator 7, the low-temperature cold load is taken away by a cooling medium through a low-temperature condenser 8, and work output by the expansion machine 3, the second expansion machine 4 and the water turbine 9 is provided for the compressor 1 as power to form a third type of thermally driven compression heat pump.
The third type of thermally driven compression heat pump shown in fig. 5 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a throttle valve; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an evaporator 7 through a throttle valve 10, the expander 3 is also provided with a circulating working medium channel communicated with the evaporator 7, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger 6 is also provided with a high-temperature heating medium channel communicated with the outside, the expander 3 and the second expander 4 are connected to the compressor 1 and transmit power.
(2) In the process, the circulating working medium discharged by the compressor 1 sequentially enters the high-temperature condenser 5 to release heat to a heated medium and is condensed, flows through the booster pump 2 to be boosted, enters the high-temperature heat exchanger 6 to absorb heat and is partially vaporized; the circulating working medium of the high-temperature heat exchanger 6 is divided into two paths, the liquid circulating working medium enters the evaporator 7 to absorb heat and vaporize after being throttled and depressurized by the throttle valve 10, and the gaseous circulating working medium flows through the expander 3 to be depressurized and do work and then enters the evaporator 7; circulating working medium discharged by the evaporator 7 flows through the second expander 4 to be decompressed and do work, enters the low-temperature condenser 8 to release heat to a cooling medium and is partially condensed, and then enters the compressor 1 to be boosted and heated; the medium to be heated obtains medium temperature heat load through the high-temperature condenser 5, the high-temperature heat load is provided by the high-temperature heat medium through the high-temperature heat exchanger 6, the low-temperature heat load is provided by the low-temperature heat medium through the evaporator 7, the low-temperature cold load is taken away by the cooling medium through the low-temperature condenser 8, and work output by the expansion machine 3 and the second expansion machine 4 is provided for the compressor 1 as power, so that a third type of heat-driven compression heat pump is formed.
The third type of thermally driven compression heat pump shown in fig. 6 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a second booster pump; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the expander 3 is also provided with a circulating working medium channel communicated with an evaporator 7, the low-temperature condenser 8 is provided with a circulating working medium channel communicated with the evaporator 7 through a second booster pump 11, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger 6 is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator, the expander 3 and the second expander 4 are connected to the compressor 1, the booster pump 2, and the second booster pump 11 and transmit power.
(2) In the process, the liquid circulating working medium of the low-temperature condenser 8 is pressurized by the second booster pump 11 and enters the evaporator 7 to absorb heat for vaporization, and the gaseous circulating working medium of the low-temperature condenser 8 enters the compressor 1 to be boosted and heated; the circulating working medium discharged by the compressor 1 sequentially enters the high-temperature condenser 5 to release heat to a heated medium and is condensed, flows through the booster pump 2 to be boosted, enters the high-temperature heat exchanger 6 to absorb heat and is partially vaporized; circulating working medium discharged by the high-temperature heat exchanger 6 flows through the expander 3 to be decompressed and work, and then enters the evaporator 7; circulating working medium discharged by the evaporator 7 flows through the second expander 4 to be decompressed and work, and then enters the low-temperature condenser 8 to release heat to a cooling medium and be partially condensed; the medium temperature heat load is obtained by a heated medium through a high-temperature condenser 5, the high-temperature heat load is provided by a high-temperature heat medium through a high-temperature heat exchanger 6, the low-temperature heat load is provided by a low-temperature heat medium through an evaporator 7, the low-temperature cooling load is taken away by a cooling medium through a low-temperature condenser 8, and work output by the expander 3 and the second expander 4 is provided for the compressor 1, the booster pump 2 and the second booster pump 11 as power, so that a third type of thermally driven compression heat pump is formed.
The third type of thermally driven compression heat pump shown in fig. 7 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with an evaporator 7 through a water turbine 9, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the expander 3 is also provided with a circulating working medium channel communicated with the evaporator 7, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the evaporator 7 through a second booster pump 11, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided with a, the evaporator 7 is also communicated with the outside through a low-temperature heat medium channel, the low-temperature condenser 8 is also communicated with the outside through a cooling medium channel, and the expander 3, the second expander 4 and the water turbine 9 are connected with the compressor 1 and transmit power.
(2) In the process, the liquid circulating working medium of the low-temperature condenser 8 is pressurized by the second booster pump 11 and enters the evaporator 7 to absorb heat for vaporization, and the gaseous circulating working medium of the low-temperature condenser 8 enters the compressor 1 to be boosted and heated; the circulating working medium discharged by the compressor 1 enters a high-temperature condenser 5 to release heat to a heated medium and is condensed, and then is divided into two paths, namely the first path flows through a booster pump 2 to be boosted and then enters a high-temperature heat exchanger 6 to absorb heat and be vaporized, and the second path flows through a water turbine 9 to be decompressed and work and then enters an evaporator 7 to absorb heat and be vaporized; circulating working medium discharged by the high-temperature heat exchanger 6 flows through the expander 3 to be decompressed and work, and then enters the evaporator 7; circulating working medium discharged by the evaporator 7 flows through the second expander 4 to be decompressed and work, and then enters the low-temperature condenser 8 to release heat to a cooling medium and be partially condensed; the medium temperature heat load is obtained by a heated medium through a high-temperature condenser 5, the high-temperature heat load is provided by a high-temperature heat medium through a high-temperature heat exchanger 6, the low-temperature heat load is provided by a low-temperature heat medium through an evaporator 7, the low-temperature cold load is taken away by a cooling medium through a low-temperature condenser 8, and work output by the expansion machine 3, the second expansion machine 4 and the water turbine 9 is provided for the compressor 1 as power to form a third type of thermally driven compression heat pump.
The third type of thermally driven compression heat pump shown in fig. 8 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with an evaporator 7 through a throttle valve 10, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the expander 3 is also provided with a circulating working medium channel communicated with the evaporator 7, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the evaporator 7 through a second booster pump 11, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided with a heated, the evaporator 7 is also communicated with the outside through a low-temperature heat medium channel, the low-temperature condenser 8 is also communicated with the outside through a cooling medium channel, and the expander 3 and the second expander 4 are connected with the compressor 1 and transmit power.
(2) In the process, the liquid circulating working medium of the low-temperature condenser 8 is pressurized by the second booster pump 11 and enters the evaporator 7 to absorb heat for vaporization, and the gaseous circulating working medium of the low-temperature condenser 8 enters the compressor 1 to be boosted and heated; the circulating working medium discharged by the compressor 1 enters a high-temperature condenser 5 to release heat to a heated medium and is condensed, and then is divided into two paths, namely the first path flows through a booster pump 2 to be boosted and then enters a high-temperature heat exchanger 6 to absorb heat and be vaporized, and the second path flows through a throttle valve 10 to be throttled and reduced in pressure and then enters an evaporator 7 to absorb heat and be vaporized; circulating working medium discharged by the high-temperature heat exchanger 6 flows through the expander 3 to be decompressed and work, and then enters the evaporator 7; circulating working medium discharged by the evaporator 7 flows through the second expander 4 to be decompressed and work, and then enters the low-temperature condenser 8 to release heat to a cooling medium and be partially condensed; the medium to be heated obtains medium temperature heat load through the high-temperature condenser 5, the high-temperature heat load is provided by the high-temperature heat medium through the high-temperature heat exchanger 6, the low-temperature heat load is provided by the low-temperature heat medium through the evaporator 7, the low-temperature cold load is taken away by the cooling medium through the low-temperature condenser 8, and work output by the expansion machine 3 and the second expansion machine 4 is provided for the compressor 1 as power, so that a third type of heat-driven compression heat pump is formed.
The third type of thermally driven compression heat pump shown in fig. 9 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3 through a water turbine 9, the expander 3 is also provided with a circulating working medium channel communicated with an evaporator 7, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the evaporator 7 through a second booster pump 11, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also communicated with the outside through a heated medium channel, and the high-temperature heat exchanger 6 is also provided with the outside, the evaporator 7 is also communicated with the outside through a low-temperature heat medium channel, the low-temperature condenser 8 is also communicated with the outside through a cooling medium channel, and the expander 3, the second expander 4 and the water turbine 9 are connected with the compressor 1 and transmit power.
(2) In the process, the liquid circulating working medium of the low-temperature condenser 8 is pressurized by the second booster pump 11 and enters the evaporator 7 to absorb heat for vaporization, and the gaseous circulating working medium of the low-temperature condenser 8 enters the compressor 1 to be boosted and heated; the circulating working medium discharged by the compressor 1 enters a high-temperature condenser 5 to release heat to a heated medium and is condensed, and then is boosted by a booster pump 2 to enter a high-temperature heat exchanger 6 to absorb heat and be partially vaporized; the circulating working medium of the high-temperature heat exchanger 6 is divided into two paths, the liquid circulating working medium enters the evaporator 7 to absorb heat and vaporize after passing through the hydraulic turbine 9 to reduce pressure and do work, and the gaseous circulating working medium enters the evaporator 7 after passing through the expansion machine 3 to reduce pressure and do work; circulating working medium discharged by the evaporator 7 flows through the second expander 4 to be decompressed and work, and then enters the low-temperature condenser 8 to release heat to a cooling medium and be partially condensed; the medium temperature heat load is obtained by a heated medium through a high-temperature condenser 5, the high-temperature heat load is provided by a high-temperature heat medium through a high-temperature heat exchanger 6, the low-temperature heat load is provided by a low-temperature heat medium through an evaporator 7, the low-temperature cold load is taken away by a cooling medium through a low-temperature condenser 8, and work output by the expansion machine 3, the second expansion machine 4 and the water turbine 9 is provided for the compressor 1 as power to form a third type of thermally driven compression heat pump.
The third type of thermally driven compression heat pump shown in fig. 10 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an evaporator 7 through a throttle valve 10, the expander 3 is also provided with a circulating working medium channel communicated with the evaporator 7, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the evaporator 7 through a second booster pump 11, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided with a, the evaporator 7 is also communicated with the outside through a low-temperature heat medium channel, the low-temperature condenser 8 is also communicated with the outside through a cooling medium channel, and the expander 3 and the second expander 4 are connected with the compressor 1 and transmit power.
(2) In the process, the liquid circulating working medium of the low-temperature condenser 8 is pressurized by the second booster pump 11 and enters the evaporator 7 to absorb heat for vaporization, and the gaseous circulating working medium of the low-temperature condenser 8 enters the compressor 1 to be boosted and heated; the circulating working medium discharged by the compressor 1 enters a high-temperature condenser 5 to release heat to a heated medium and is condensed, and then is boosted by a booster pump 2 to enter a high-temperature heat exchanger 6 to absorb heat and be partially vaporized; the circulating working medium of the high-temperature heat exchanger 6 is divided into two paths, the liquid circulating working medium enters the evaporator 7 to absorb heat and vaporize after being throttled and depressurized by the throttle valve 10, and the gaseous circulating working medium enters the evaporator 7 after being depressurized and applied with work by the expansion machine 3; circulating working medium discharged by the evaporator 7 flows through the second expander 4 to be decompressed and work, and then enters the low-temperature condenser 8 to release heat to a cooling medium and be partially condensed; the medium to be heated obtains medium temperature heat load through the high-temperature condenser 5, the high-temperature heat load is provided by the high-temperature heat medium through the high-temperature heat exchanger 6, the low-temperature heat load is provided by the low-temperature heat medium through the evaporator 7, the low-temperature cold load is taken away by the cooling medium through the low-temperature condenser 8, and work output by the expansion machine 3 and the second expansion machine 4 is provided for the compressor 1 as power, so that a third type of heat-driven compression heat pump is formed.
The third type of thermally driven compression heat pump shown in fig. 11 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a water turbine; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with an evaporator 7 through a water turbine 9, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the expander 3 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with the low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger 6 is also provided with a high-temperature heat medium channel communicated with, the expander 3, the second expander 4 and the water turbine 9 are connected to the compressor 1 and transmit power.
(2) In the flow, the circulating working medium discharged by the compressor 1 enters the high-temperature condenser 5 to release heat to a heated medium and is condensed, and then is divided into two paths, namely the first path flows through the booster pump 2 to be boosted and then enters the high-temperature heat exchanger 6 to absorb heat and be vaporized, and the second path flows through the water turbine 9 to be decompressed and work and then enters the evaporator 7 to absorb heat and be vaporized; the circulating working medium discharged by the high-temperature heat exchanger 6 flows through the expander 3 to be decompressed and work, and then enters the low-temperature condenser 8; circulating working medium discharged by the evaporator 7 flows through the second expander 4 to be decompressed and work, and then enters the low-temperature condenser 8; the circulating working medium entering the low-temperature condenser 8 releases heat to a cooling medium and is partially condensed, and then enters the compressor 1 to be boosted and heated; the medium temperature heat load is obtained by a heated medium through a high-temperature condenser 5, the high-temperature heat load is provided by a high-temperature heat medium through a high-temperature heat exchanger 6, the low-temperature heat load is provided by a low-temperature heat medium through an evaporator 7, the low-temperature cold load is taken away by a cooling medium through a low-temperature condenser 8, and work output by the expansion machine 3, the second expansion machine 4 and the water turbine 9 is provided for the compressor 1 as power to form a third type of thermally driven compression heat pump.
The third type of thermally driven compression heat pump shown in fig. 12 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a throttle valve; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with an evaporator 7 through a throttle valve 10, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the expander 3 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with the low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger 6 is also provided with a high-temperature heat medium channel communicated with the, the expander 3 and the second expander 4 are connected to the compressor 1 and transmit power.
(2) In the flow, the circulating working medium discharged by the compressor 1 enters the high-temperature condenser 5 to release heat to a heated medium and is condensed, and then is divided into two paths, namely the first path enters the high-temperature heat exchanger 6 to absorb heat and vaporize after flowing through the booster pump 2 to increase the pressure, and the second path enters the evaporator 7 to absorb heat and vaporize after being throttled and reduced in pressure by the throttle valve 10; the circulating working medium discharged by the high-temperature heat exchanger 6 flows through the expander 3 to be decompressed and work, and then enters the low-temperature condenser 8; circulating working medium discharged by the evaporator 7 flows through the second expander 4 to be decompressed and work, and then enters the low-temperature condenser 8; the circulating working medium entering the low-temperature condenser 8 releases heat to a cooling medium and is partially condensed, and then enters the compressor 1 to be boosted and heated; the medium to be heated obtains medium temperature heat load through the high-temperature condenser 5, the high-temperature heat load is provided by the high-temperature heat medium through the high-temperature heat exchanger 6, the low-temperature heat load is provided by the low-temperature heat medium through the evaporator 7, the low-temperature cold load is taken away by the cooling medium through the low-temperature condenser 8, and work output by the expansion machine 3 and the second expansion machine 4 is provided for the compressor 1 as power, so that a third type of heat-driven compression heat pump is formed.
The third type of thermally driven compression heat pump shown in fig. 13 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with an evaporator 7 through a water turbine 9, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the expander 3 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the evaporator 7 through a second booster pump 11, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with the low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also, the evaporator 7 is also communicated with the outside through a low-temperature heat medium channel, the low-temperature condenser 8 is also communicated with the outside through a cooling medium channel, and the expander 3, the second expander 4 and the water turbine 9 are connected with the compressor 1 and transmit power.
(2) In the process, the liquid circulating working medium of the low-temperature condenser 8 is pressurized by the second booster pump 11 and enters the evaporator 7 to absorb heat for vaporization, and the gaseous circulating working medium of the low-temperature condenser 8 enters the compressor 1 to be boosted and heated; the circulating working medium discharged by the compressor 1 enters a high-temperature condenser 5 to release heat to a heated medium and is condensed, and then is divided into two paths, namely the first path flows through a booster pump 2 to be boosted and then enters a high-temperature heat exchanger 6 to absorb heat and be vaporized, and the second path flows through a water turbine 9 to be decompressed and work and then enters an evaporator 7 to absorb heat and be vaporized; the circulating working medium discharged by the high-temperature heat exchanger 6 flows through the expander 3 to be decompressed and work, and then enters the low-temperature condenser 8; circulating working medium discharged by the evaporator 7 flows through the second expander 4 to be decompressed and work, and then enters the low-temperature condenser 8; the circulating working medium entering the low-temperature condenser 8 releases heat to the cooling medium and is partially condensed, then the gaseous circulating working medium enters the compressor 1, and the liquid circulating working medium enters the second booster pump 11; the medium temperature heat load is obtained by a heated medium through a high-temperature condenser 5, the high-temperature heat load is provided by a high-temperature heat medium through a high-temperature heat exchanger 6, the low-temperature heat load is provided by a low-temperature heat medium through an evaporator 7, the low-temperature cold load is taken away by a cooling medium through a low-temperature condenser 8, and work output by the expansion machine 3, the second expansion machine 4 and the water turbine 9 is provided for the compressor 1 as power to form a third type of thermally driven compression heat pump.
The third type of thermally driven compression heat pump shown in fig. 14 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with an evaporator 7 through a throttle valve 10, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the expander 3 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the evaporator 7 through a second booster pump 11, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with the low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided, the evaporator 7 is also communicated with the outside through a low-temperature heat medium channel, the low-temperature condenser 8 is also communicated with the outside through a cooling medium channel, and the expander 3 and the second expander 4 are connected with the compressor 1 and transmit power.
(2) In the process, the liquid circulating working medium of the low-temperature condenser 8 is pressurized by the second booster pump 11 and enters the evaporator 7 to absorb heat for vaporization, and the gaseous circulating working medium of the low-temperature condenser 8 enters the compressor 1 to be boosted and heated; the circulating working medium discharged by the compressor 1 enters a high-temperature condenser 5 to release heat to a heated medium and is condensed, and then is divided into two paths, namely the first path flows through a booster pump 2 to be boosted and then enters a high-temperature heat exchanger 6 to absorb heat and be vaporized, and the second path flows through a throttle valve 10 to be throttled and reduced in pressure and then enters an evaporator 7 to absorb heat and be vaporized; the circulating working medium discharged by the high-temperature heat exchanger 6 flows through the expander 3 to be decompressed and work, and then enters the low-temperature condenser 8; circulating working medium discharged by the evaporator 7 flows through the second expander 4 to be decompressed and work, and then enters the low-temperature condenser 8; the circulating working medium entering the low-temperature condenser 8 releases heat to the cooling medium and is partially condensed, then the gaseous circulating working medium enters the compressor 1, and the liquid circulating working medium enters the second booster pump 11; the medium to be heated obtains medium temperature heat load through the high-temperature condenser 5, the high-temperature heat load is provided by the high-temperature heat medium through the high-temperature heat exchanger 6, the low-temperature heat load is provided by the low-temperature heat medium through the evaporator 7, the low-temperature cold load is taken away by the cooling medium through the low-temperature condenser 8, and work output by the expansion machine 3 and the second expansion machine 4 is provided for the compressor 1 as power, so that a third type of heat-driven compression heat pump is formed.
The third type of thermally driven compression heat pump shown in fig. 15 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with an evaporator 7 through a water turbine 9, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the expander 3 is also provided with a circulating working medium channel communicated with the evaporator 7, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the evaporator 7 through a second booster pump 11, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the evaporator 7 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided with a heated medium channel, the evaporator 7 is also communicated with the outside through a low-temperature heat medium channel, the low-temperature condenser 8 is also communicated with the outside through a cooling medium channel, and the expander 3, the second expander 4 and the water turbine 9 are connected with the compressor 1 and transmit power.
(2) In the process, liquid circulating working media discharged by the water turbine 9 and the second booster pump 11 enter the evaporator 7 to absorb heat and vaporize, and then enter the compressor 1 to boost pressure and raise temperature and enter the second expander 4 to reduce pressure and do work respectively; the circulating working medium discharged by the compressor 1 enters a high-temperature condenser 5 to release heat to a heated medium and is condensed, and then is divided into two paths, namely the first path flows through a booster pump 2 to be boosted and then enters a high-temperature heat exchanger 6 to absorb heat and be vaporized, and the second path flows through a water turbine 9 to be decompressed and work and then enters an evaporator 7 to absorb heat and be vaporized; circulating working medium discharged by the high-temperature heat exchanger 6 flows through the expander 3 to be decompressed and work, and then enters the evaporator 7; the circulating working medium discharged by the second expander 4 enters the low-temperature condenser 8, releases heat to the cooling medium and is condensed, and then is supplied to the second booster pump 11; the medium temperature heat load is obtained by a heated medium through a high-temperature condenser 5, the high-temperature heat load is provided by a high-temperature heat medium through a high-temperature heat exchanger 6, the low-temperature heat load is provided by a low-temperature heat medium through an evaporator 7, the low-temperature cold load is taken away by a cooling medium through a low-temperature condenser 8, and work output by the expansion machine 3, the second expansion machine 4 and the water turbine 9 is provided for the compressor 1 as power to form a third type of thermally driven compression heat pump.
The third type of thermally driven compression heat pump shown in fig. 16 is realized by:
(1) structurally, the system mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor 1 is provided with a circulating working medium channel communicated with a high-temperature condenser 5, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger 6 through a booster pump 2, the high-temperature condenser 5 is also provided with a circulating working medium channel communicated with an evaporator 7 through a throttle valve 10, the high-temperature heat exchanger 6 is also provided with a circulating working medium channel communicated with an expander 3, the expander 3 is also provided with a circulating working medium channel communicated with a low-temperature condenser 8, the low-temperature condenser 8 is also provided with a circulating working medium channel communicated with the evaporator 7 through a second booster pump 11, the evaporator 7 is also provided with a circulating working medium channel communicated with a second expander 4, the second expander 4 is also provided with a circulating working medium channel communicated with the low-temperature condenser 8, the evaporator 7 is also provided with a circulating working medium channel communicated with the compressor 1, the high-temperature condenser 5 is also provided with a heated, the evaporator 7 is also communicated with the outside through a low-temperature heat medium channel, the low-temperature condenser 8 is also communicated with the outside through a cooling medium channel, and the expander 3 and the second expander 4 are connected with the compressor 1 and transmit power.
(2) In the process, the circulating working medium flowing through the throttle valve 10 and the second booster pump 11 enters the evaporator 7 to absorb heat and vaporize, and then respectively enters the compressor 1 to increase the pressure and the temperature and enters the second expander 4 to reduce the pressure and do work; the circulating working medium discharged by the compressor 1 enters the high-temperature condenser 5 to release heat to a heated medium and is condensed, and then is divided into two paths, namely the first path flows through the booster pump 2 to be boosted and then enters the high-temperature heat exchanger 6 to absorb heat and be vaporized, and the second path flows through the throttle valve 10 to be throttled and reduced in pressure and enters the evaporator 7 to absorb heat and be vaporized; circulating working medium discharged by the high-temperature heat exchanger 6 flows through the expander 3 to be decompressed and work, and then enters the evaporator 7; the circulating working medium discharged by the second expander 4 enters the low-temperature condenser 8, releases heat to the cooling medium and is condensed, and then is supplied to the second booster pump 11; the medium to be heated obtains medium temperature heat load through the high-temperature condenser 5, the high-temperature heat load is provided by the high-temperature heat medium through the high-temperature heat exchanger 6, the low-temperature heat load is provided by the low-temperature heat medium through the evaporator 7, the low-temperature cold load is taken away by the cooling medium through the low-temperature condenser 8, and work output by the expansion machine 3 and the second expansion machine 4 is provided for the compressor 1 as power, so that a third type of heat-driven compression heat pump is formed.
The third type of thermally driven compression heat pump shown in fig. 17 is realized by:
(1) structurally, in the third type of thermally driven compression heat pump shown in fig. 2, a heat regenerator is added, a circulating working medium channel of the high-temperature condenser 5 is communicated and adjusted with the evaporator 7 through a water turbine 9, the circulating working medium channel of the high-temperature condenser 5 is communicated and adjusted with the evaporator 7 through the heat regenerator 12 and the water turbine 9, a circulating working medium channel of the evaporator 7 is communicated and adjusted with the second expander 4, and the circulating working medium channel of the evaporator 7 is communicated and adjusted with the second expander 4 through the heat regenerator 12.
(2) In the process, compared with the third type of thermal driving compression heat pump working process shown in fig. 2, the increased or changed process is carried out in such a way that a part of liquid circulating working medium of the high-temperature condenser 5 flows through the heat regenerator 12 and releases heat, and then the liquid circulating working medium is reduced in pressure by the water turbine 9 to work and enter the evaporator 7; the circulating working medium discharged by the evaporator 7 flows through the heat regenerator 12 and absorbs heat, and then enters the second expansion machine 4 to reduce the pressure and do work, so as to form a third type of heat-driven compression heat pump.
The third type of thermally driven compression heat pump shown in fig. 18 is realized by:
(1) structurally, in the third type of thermally driven compression heat pump shown in fig. 9, a heat regenerator is added, the communication between the compressor 1 and the high-temperature condenser 5 with a circulating medium channel is adjusted to be that the compressor 1 has a circulating medium channel communicated with the high-temperature condenser 5 through the heat regenerator 12, the communication between the high-temperature condenser 5 with a circulating medium channel and the high-temperature heat exchanger 6 through the booster pump 2 is adjusted to be that the high-temperature condenser 5 has a circulating medium channel communicated with the high-temperature heat exchanger 6 through the booster pump 2 and the heat regenerator 12.
(2) In the process, compared with the third type of thermal driving compression heat pump working process shown in fig. 9, the increased or changed process is performed in such a way that the circulating working medium discharged by the compressor 1 flows through the heat regenerator 12 and releases heat, and then enters the high-temperature condenser 5; the circulating working medium discharged by the high-temperature condenser 5 flows through the heat regenerator 12 and absorbs heat, and then enters the high-temperature heat exchanger 7 to form a third type of heat-driven compression heat pump.
The third type of thermally driven compression heat pump shown in fig. 19 is realized by:
(1) structurally, in the third type of thermally driven compression heat pump shown in fig. 8, a second compressor is added, the low-temperature condenser 8 is adjusted to be communicated with the compressor 1 through a circulating working medium channel, the low-temperature condenser 8 is adjusted to be communicated with the second compressor 13 through a circulating working medium channel, the second compressor 13 is communicated with the compressor 1 through a high-temperature condenser 5, and the expander 3 is connected with the second compressor 13 and transmits power.
(2) In the process, compared with the third type of thermal driving compression heat pump working process shown in fig. 8, the increased or changed process is performed in such a way that the gaseous circulating working medium discharged by the low-temperature condenser 8 sequentially flows through the second compressor 13 to increase the pressure and raise the temperature, flows through the high-temperature condenser 5 to release heat and lower the temperature, and then enters the compressor 1 to increase the pressure and raise the temperature, so as to form the third type of thermal driving compression heat pump.
The effect that the technology of the invention can realize-the third type 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 the temperature difference.
(2) The heat energy (temperature difference) is driven to realize the temperature increase of the heat energy, or the heat energy and the temperature can be selected to provide power for the outside at the same time.
(3) The flow is reasonable, and the full and efficient utilization of the two types of temperature difference can be realized.
(4) When necessary, or realize heat energy temperature with the help of external power, the mode is nimble, and the adaptability is good.
(5) The compressor, the expander, the booster pump and the heat exchanger are used as main components of the compression heat pump, and the structure is simple.
(6) The working medium has wide application range, can well adapt to heat supply requirements, and is flexibly matched with working parameters.
(7) Can deal with and adapt to low-temperature heat load, and improve the effective utilization rate of the low-temperature heat load.
(8) Can deal with and adapt to high-temperature heat load, and improve the effective utilization rate of the high-temperature heat load.
(9) 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.
(10) 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 (39)

1. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator and a low-temperature condenser; the compressor (1) is provided with a circulating working medium channel communicated with a high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an expander (3), the expander (3) is also provided with a circulating working medium channel communicated with an evaporator (7), the evaporator (7) is also provided with a circulating working medium channel communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with a low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the compressor (1), the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, and the, the low-temperature condenser (8) is also provided with a cooling medium channel which is communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; wherein, or the expander (3) and the second expander (4) are connected with the compressor (1) and the booster pump (2) and transmit power.
2. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a water turbine; the compressor (1) is provided with a circulating working medium channel communicated with a high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger (6) through a booster pump (2), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with an evaporator (7) through a water turbine (9), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the evaporator (7), the evaporator (7) is also provided with a circulating working medium channel communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with a low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the compressor (1), the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, and the high-, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and transmit power to form a third type of heat-driven compression heat pump; wherein, or the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and the booster pump (2) and transmit power.
3. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a throttle valve; the compressor (1) is provided with a circulating working medium channel communicated with a high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger (6) through a booster pump (2), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with an evaporator (7) through a throttle valve (10), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the evaporator (7), the evaporator (7) is also provided with a circulating working medium channel communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with a low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the compressor (1), the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, and the high-temperature, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; wherein, or the expander (3) and the second expander (4) are connected with the compressor (1) and the booster pump (2) and transmit power.
4. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a water turbine; the compressor (1) is provided with a circulating working medium channel communicated with a high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an expander (3), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an evaporator (7) through a water turbine (9), the expander (3) is also provided with a circulating working medium channel communicated with the evaporator (7), the evaporator (7) is also provided with a circulating working medium channel communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with a low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the compressor (1), the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, and the high, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and transmit power to form a third type of heat-driven compression heat pump; wherein, or the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and the booster pump (2) and transmit power.
5. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a throttle valve; the compressor (1) is provided with a circulating working medium channel communicated with a high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an expander (3), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an evaporator (7) through a throttle valve (10), the expander (3) is also provided with a circulating working medium channel communicated with the evaporator (7), the evaporator (7) is also provided with a circulating working medium channel communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with a low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the compressor (1), the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, and the high-, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; wherein, or the expander (3) and the second expander (4) are connected with the compressor (1) and the booster pump (2) and transmit power.
6. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with a high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an expander (3), the expander (3) is also provided with a circulating working medium channel communicated with an evaporator (7), the low-temperature condenser (8) is provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with a low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the compressor (1), the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; the expander (3) and the second expander (4) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
7. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the evaporator (7) through a water turbine (9), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the evaporator (7), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and transmit power to form a third type of thermally-driven compression heat pump; the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
8. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the evaporator (7) through a throttle valve (10), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the evaporator (7), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; the expander (3) and the second expander (4) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
9. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the evaporator (7) through a water turbine (9), the expander (3) is also provided with a circulating working medium channel communicated with the evaporator (7), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and transmit power to form a third type of thermally-driven compression heat pump; the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
10. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the evaporator (7) through a throttle valve (10), the expander (3) is also provided with a circulating working medium channel communicated with the evaporator (7), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; the expander (3) and the second expander (4) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
11. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a water turbine; the compressor (1) is provided with a circulating working medium channel communicated with a high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger (6) through a booster pump (2), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with an evaporator (7) through a water turbine (9), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an expander (3), the expander (3) is also provided with a circulating working medium channel communicated with a low-temperature condenser (8), the evaporator (7) is also provided with a circulating working medium channel communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the compressor (1), the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, and, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and transmit power to form a third type of heat-driven compression heat pump; wherein, or the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and the booster pump (2) and transmit power.
12. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a throttle valve; the compressor (1) is provided with a circulating working medium channel communicated with a high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger (6) through a booster pump (2), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with an evaporator (7) through a throttle valve (10), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an expander (3), the expander (3) is also provided with a circulating working medium channel communicated with a low-temperature condenser (8), the evaporator (7) is also provided with a circulating working medium channel communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the compressor (1), the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, and the, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; wherein, or the expander (3) and the second expander (4) are connected with the compressor (1) and the booster pump (2) and transmit power.
13. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a water turbine; the compressor (1) is provided with a circulating working medium channel communicated with a high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an expander (3), the expander (3) is also provided with a circulating working medium channel communicated with a low-temperature condenser (8), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an evaporator (7) through a water turbine (9), the evaporator (7) is also provided with a circulating working medium channel communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the compressor (1), the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and transmit power to form a third type of heat-driven compression heat pump; wherein, or the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and the booster pump (2) and transmit power.
14. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a throttle valve; the compressor (1) is provided with a circulating working medium channel communicated with a high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an expander (3), the expander (3) is also provided with a circulating working medium channel communicated with a low-temperature condenser (8), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an evaporator (7) through a throttle valve (10), the evaporator (7) is also provided with a circulating working medium channel communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the compressor (1), the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, and, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; wherein, or the expander (3) and the second expander (4) are connected with the compressor (1) and the booster pump (2) and transmit power.
15. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with a high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an expander (3), the expander (3) is also provided with a circulating working medium channel communicated with a low-temperature condenser (8), the low-temperature condenser (8) is provided with a circulating working medium channel communicated with an evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the compressor (1), the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; the expander (3) and the second expander (4) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
16. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the evaporator (7) through a water turbine (9), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and transmit power to form a third type of thermally-driven compression heat pump; the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
17. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the evaporator (7) through a throttle valve (10), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; the expander (3) and the second expander (4) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
18. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the evaporator (7) through a water turbine (9), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and transmit power to form a third type of thermally-driven compression heat pump; the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
19. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the evaporator (7) through a throttle valve (10), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; the expander (3) and the second expander (4) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
20. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a second booster pump; the compressor (1) is provided with a circulating working medium channel which is communicated with a high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel which is communicated with a high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel which is communicated with an expander (3), the expander (3) is also provided with a circulating working medium channel which is communicated with an evaporator (7), the low-temperature condenser (8) is provided with a circulating working medium channel which is communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel which is communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel which is communicated with a low-temperature condenser (8), the evaporator (7) is also provided with a circulating working medium channel which is communicated with the compressor (1), the high-temperature condenser (5) is also provided with a heated, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; the expander (3) and the second expander (4) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
21. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the evaporator (7) through a water turbine (9), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the evaporator (7), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the evaporator (7) is also provided with a circulating working medium, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and transmit power to form a third type of thermally-driven compression heat pump; the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
22. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the evaporator (7) through a throttle valve (10), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the evaporator (7), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the evaporator (7) is also provided with a circulating working medium channel, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; the expander (3) and the second expander (4) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
23. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an evaporator (7) through a water turbine (9), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the evaporator (7), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the evaporator (7) is also provided with a circulating working, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and transmit power to form a third type of thermally-driven compression heat pump; the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
24. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the evaporator (7) through a throttle valve (10), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the evaporator (7), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the evaporator (7) is also provided with a circulating working medium, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; the expander (3) and the second expander (4) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
25. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with a high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with a high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with an expander (3), the expander (3) is also provided with a circulating working medium channel communicated with a low-temperature condenser (8), the low-temperature condenser (8) is provided with a circulating working medium channel communicated with an evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with a second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the evaporator (7) is also provided with a circulating working medium channel communicated with the compressor (1), the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; the expander (3) and the second expander (4) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
26. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the evaporator (7) through a water turbine (9), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the evaporator (7) is also provided with a, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and transmit power to form a third type of thermally-driven compression heat pump; the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
27. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the evaporator (7) through a throttle valve (10), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the evaporator (7) is also provided with a circulating, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; the expander (3) and the second expander (4) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
28. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a water turbine and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the evaporator (7) through a water turbine (9), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the evaporator (7) is also provided with, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1) and transmit power to form a third type of thermally-driven compression heat pump; the expander (3), the second expander (4) and the water turbine (9) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
29. The third kind of thermally driven compression heat pump mainly comprises a compressor, a booster pump, an expander, a second expander, a high-temperature condenser, a high-temperature heat exchanger, an evaporator, a low-temperature condenser, a throttle valve and a second booster pump; the compressor (1) is provided with a circulating working medium channel communicated with the high-temperature condenser (5), the high-temperature condenser (5) is also provided with a circulating working medium channel communicated with the high-temperature heat exchanger (6) through a booster pump (2), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the evaporator (7) through a throttle valve (10), the high-temperature heat exchanger (6) is also provided with a circulating working medium channel communicated with the expander (3), the expander (3) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the low-temperature condenser (8) is also provided with a circulating working medium channel communicated with the evaporator (7) through a second booster pump (11), the evaporator (7) is also provided with a circulating working medium channel communicated with the second expander (4), the second expander (4) is also provided with a circulating working medium channel communicated with the low-temperature condenser (8), the evaporator (7) is also provided with a, the high-temperature condenser (5) is also provided with a heated medium channel communicated with the outside, the high-temperature heat exchanger (6) is also provided with a high-temperature heat medium channel communicated with the outside, the evaporator (7) is also provided with a low-temperature heat medium channel communicated with the outside, the low-temperature condenser (8) is also provided with a cooling medium channel communicated with the outside, and the expander (3) and the second expander (4) are connected with the compressor (1) and transmit power to form a third type of thermally driven compression heat pump; the expander (3) and the second expander (4) are connected with the compressor (1), the booster pump (2) and the second booster pump (11) and transmit power.
30. A third kind of heat-driven compression heat pump is characterized in that in any one of the third kind of heat-driven compression heat pump of claims 2, 7, 11, 16, 21 and 26, a heat regenerator is added, a circulating working medium channel of the high-temperature condenser (5) is communicated with the evaporator (7) through a water turbine (9) and adjusted to be communicated with the evaporator (7) through a heat regenerator (12) and the water turbine (9), a circulating working medium channel of the evaporator (7) is communicated with the second expander (4) and adjusted to be communicated with the second expander (4) through a circulating working medium channel of the evaporator (7) through the heat regenerator (12), thereby forming the third kind of heat-driven compression heat pump.
31. A third kind of heat-driven compression heat pump is added in any one of the third kind of heat-driven compression heat pump of claims 3, 8, 12, 17, 22, 27, a heat regenerator is added, a circulating working medium channel of the high-temperature condenser (5) is communicated with the evaporator (7) through a throttle valve (10) and adjusted to be communicated with the evaporator (7) through the heat regenerator (12) and the throttle valve (10), a circulating working medium channel of the evaporator (7) is communicated with the second expander (4) and adjusted to be communicated with the second expander (4) through the heat regenerator (12) and the circulating working medium channel of the evaporator (7) is communicated with the second expander (4) to form the third kind of heat-driven compression heat pump.
32. A third kind of heat-driven compression heat pump is added in any one of the third kind of heat-driven compression heat pumps in claims 4, 9, 13, 18, 23 and 28, a heat regenerator is added, a circulating working medium channel of the high-temperature heat exchanger (6) is communicated with the evaporator (7) through a water turbine (9) and adjusted to be communicated with the evaporator (7) through a heat regenerator (12) and the water turbine (9), a circulating working medium channel of the evaporator (7) is communicated with the second expander (4) and adjusted to be communicated with the second expander (4) through a circulating working medium channel of the evaporator (7) through the heat regenerator (12), and the third kind of heat-driven compression heat pump is formed.
33. A third kind of heat-driven compression heat pump is added in any one of the third kind of heat-driven compression heat pumps in claims 5, 10, 14, 19, 24 and 29, a heat regenerator is added, a circulating working medium channel of the high-temperature heat exchanger (6) is communicated with the evaporator (7) through a throttle valve (10) and adjusted to be communicated with the evaporator (7) through a heat regenerator (12) and the throttle valve (10), a circulating working medium channel of the evaporator (7) is communicated with the second expander (4) and adjusted to be communicated with the evaporator (7) through a circulating working medium channel of the evaporator (7) and the second expander (4) through the heat regenerator (12), and the third kind of heat-driven compression heat pump is formed.
34. A third kind of heat-driven compression heat pump is characterized in that in any one of the third kind of heat-driven compression heat pump of claims 6-10 and 15-29, a heat regenerator is added, a circulating working medium channel of a compressor (1) is communicated with a high-temperature condenser (5) and adjusted to be communicated with the high-temperature condenser (5) through the heat regenerator (12), a circulating working medium channel of the high-temperature condenser (5) is communicated with the high-temperature heat exchanger (6) through a booster pump (2) and adjusted to be communicated with the high-temperature heat exchanger (6) through the booster pump (2) and the heat regenerator (12), and thus the third kind of heat-driven compression heat pump is formed.
35. A third kind of thermally driven compression heat pump, which is the third kind of thermally driven compression heat pump according to any one of claims 1 to 29, wherein a heat regenerator is added, the compressor (1) is communicated with the high temperature condenser (5) and adjusted to have a circulating medium channel, the compressor (1) is communicated with the high temperature condenser (5) through the heat regenerator (12), the high temperature condenser (5) is communicated with the high temperature heat exchanger (6) through the booster pump (2) and adjusted to have a circulating medium channel, the high temperature condenser (5) is communicated with the high temperature heat exchanger (6) through the booster pump (2) and the heat regenerator (12), and thus the third kind of thermally driven compression heat pump is formed.
36. A third kind of heat-driven compression heat pump is characterized in that in any one of the third kind of heat-driven compression heat pump of claims 6-10 and 15-19, a second compressor is added, a low-temperature condenser (8) is communicated with a compressor (1) through a circulating working medium channel, the low-temperature condenser (8) is communicated with the second compressor (13) through a circulating working medium channel, the second compressor (13) is communicated with the compressor (1) through a high-temperature condenser (5), and an expander (3) is connected with the second compressor (13) and transmits power to form the third kind of heat-driven compression heat pump.
37. A third kind of heat-driven compression heat pump, which is characterized in that in any one of the third kind of heat-driven compression heat pump claimed in claims 20-29, a second compressor is added, the evaporator (7) is communicated with the compressor (1) through a circulation working medium channel, the evaporator (7) is communicated with the second compressor (13) through a circulation working medium channel, the second compressor (13) is communicated with the compressor (1) through a high-temperature condenser (5) through a circulation working medium channel, and the expander (3) is connected with the second compressor (13) and transmits power, so as to form the third kind of heat-driven compression heat pump.
38. A third type of thermally driven compression heat pump, which is the third type of thermally driven compression heat pump according to any one of claims 1 to 37, wherein a power machine is added, the power machine is connected with the compressor (1) and provides power for the compressor (1), and the third type of thermally driven compression heat pump driven by additional external power is formed.
39. A third type of thermally driven compression heat pump, which is the third type of thermally driven compression heat pump according to any one of claims 1 to 37, wherein a working machine is added, and the expansion machine (3) is connected with the working machine and provides power for the working machine to form the third type of thermally driven compression heat pump additionally providing power load to the outside.
CN201610814958.3A 2016-03-14 2016-08-30 Third-class thermally-driven compression heat pump Active CN106568233B (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN201610160472 2016-03-14
CN2016101604722 2016-03-14

Publications (2)

Publication Number Publication Date
CN106568233A CN106568233A (en) 2017-04-19
CN106568233B true CN106568233B (en) 2020-04-21

Family

ID=58531688

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201610814958.3A Active CN106568233B (en) 2016-03-14 2016-08-30 Third-class thermally-driven compression heat pump

Country Status (1)

Country Link
CN (1) CN106568233B (en)

Families Citing this family (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019113721A1 (en) * 2017-12-11 2019-06-20 李华玉 Combined cycle power device
CN109059350B (en) * 2018-06-19 2021-02-05 李华玉 Third-class thermally-driven compression heat pump
WO2020220726A1 (en) * 2019-05-02 2020-11-05 李华玉 Combined cycle power equipment
CN113465213A (en) * 2020-05-21 2021-10-01 李华玉 Phase-change type fourth-class thermally-driven compression heat pump
CN113465215A (en) * 2020-05-25 2021-10-01 李华玉 Phase-change type fourth-class thermally-driven compression heat pump
CN113465202A (en) * 2020-05-26 2021-10-01 李华玉 Phase-change type fourth-class thermally-driven compression heat pump
CN113465204A (en) * 2020-05-27 2021-10-01 李华玉 Phase-change type fourth-class thermally-driven compression heat pump

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101027468A (en) * 2002-11-13 2007-08-29 开利公司 Combined rankine and vapor compression cycles
CN103557645A (en) * 2013-10-28 2014-02-05 刘辉 Energy-saving heater having back-heating function
CN104548630A (en) * 2014-12-29 2015-04-29 高峰 Energy-saving environment-friendly mist spray drying technology
CN104879177A (en) * 2015-04-21 2015-09-02 同济大学 Organic Rankin cycle and heat pump cycle coupling system
CN104963732A (en) * 2014-05-28 2015-10-07 李华玉 Combined circulating energy supplying system

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102010042792A1 (en) * 2010-10-22 2012-04-26 Man Diesel & Turbo Se System for generating mechanical and / or electrical energy

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101027468A (en) * 2002-11-13 2007-08-29 开利公司 Combined rankine and vapor compression cycles
CN103557645A (en) * 2013-10-28 2014-02-05 刘辉 Energy-saving heater having back-heating function
CN104963732A (en) * 2014-05-28 2015-10-07 李华玉 Combined circulating energy supplying system
CN104548630A (en) * 2014-12-29 2015-04-29 高峰 Energy-saving environment-friendly mist spray drying technology
CN104879177A (en) * 2015-04-21 2015-09-02 同济大学 Organic Rankin cycle and heat pump cycle coupling system

Also Published As

Publication number Publication date
CN106568233A (en) 2017-04-19

Similar Documents

Publication Publication Date Title
CN106440510B (en) Second-class thermally-driven compression heat pump
CN106568233B (en) Third-class thermally-driven compression heat pump
CN108679880B (en) Double-working medium combined cycle compression heat pump
CN106225316B (en) Third-class thermally-driven compression heat pump
CN106352601B (en) Third-class thermally-driven compression heat pump
CN106403372B (en) Second-class thermally-driven compression heat pump
CN106225321B (en) Second-class thermally-driven compression heat pump
CN106440503B (en) class thermally driven compression heat pump
CN106440493B (en) Fourth type thermal driving compression-absorption heat pump
CN106225284B (en) First-class thermally-driven compression heat pump
CN105841401B (en) First-class thermally driven compression-absorption heat pump
CN106403371B (en) First-class thermally-driven compression heat pump
CN106225317B (en) Third-class thermally-driven compression heat pump
CN106369870B (en) Fourth type thermal driving compression-absorption heat pump
CN108106323B (en) First-class thermally-driven compression heat pump
CN106468490B (en) Third-class thermally-driven compression heat pump
CN106225322B (en) Third-class thermally-driven compression heat pump
CN106247653B (en) First-class thermally-driven compression heat pump
CN106440509B (en) Third-class thermally-driven compression heat pump
CN106440494B (en) Fourth type thermal driving compression-absorption heat pump
CN106440498B (en) Fourth type thermal driving compression-absorption heat pump
CN106196710B (en) First-class thermally driven compression-absorption heat pump
CN106440495B (en) Fourth type thermal driving compression-absorption heat pump
CN106468491B (en) First-class thermally-driven compression heat pump
CN106123394B (en) Fourth type thermal driving compression-absorption heat pump

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
GR01 Patent grant
GR01 Patent grant