CN106440511A - First-kind thermally-driven compression type heat pump - Google Patents
First-kind thermally-driven compression type heat pump Download PDFInfo
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- CN106440511A CN106440511A CN201610815421.9A CN201610815421A CN106440511A CN 106440511 A CN106440511 A CN 106440511A CN 201610815421 A CN201610815421 A CN 201610815421A CN 106440511 A CN106440511 A CN 106440511A
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- Prior art keywords
- decompressor
- compressor
- temperature heat
- heat exchanger
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B30/00—Heat pumps
- F25B30/02—Heat pumps of the compression type
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B1/00—Compression machines, plants or systems with non-reversible cycle
- F25B1/10—Compression machines, plants or systems with non-reversible cycle with multi-stage compression
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B29/00—Combined heating and refrigeration systems, e.g. operating alternately or simultaneously
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Mechanical Engineering (AREA)
- Thermal Sciences (AREA)
- General Engineering & Computer Science (AREA)
- Fuel Cell (AREA)
- Engine Equipment That Uses Special Cycles (AREA)
Abstract
The invention provides a first-kind thermally-driven compression type heat pump, and belongs to the technical field of power, refrigeration and heat pumps. An air channel on the outer part communicates with a combustion chamber through a compressor; the combustion chamber is further equipped with a fuel channel so as to communicate with the outer part; the combustion chamber is further equipped with a funnel channel so as to communicate with a combustion gas turbine; the combustion gas turbine is further equipped with a fuel gas channel so as to communicate with the outer part through a high-temperature heat exchanger; the outer part is equipped with a heated medium channel so as to communicate with a second expander; the second expander is further equipped with a heated medium channel so as to communicate with a second compressor through a low-temperature heat exchanger; the second compressor is further equipped with a heated medium channel so as to communicate with an expander through a high-temperature heat exchanger; the expander is further equipped with a heated medium channel so as to communicate with the outer part; the low-temperature heat exchanger is further equipped with a low-temperature thermal medium channel so as to communicate with the outer part; and the combustion gas turbine, the expander and the second expander are connected with the compressor and the second compressor to transmit power, so that the first-kind thermally-driven compression type heat pump is formed.
Description
Technical field:
The invention belongs to power, refrigeration and technical field of heat pumps.
Background technology:
Cold demand, heat demand and power demand, central with production common by human lives;In reality, people often need
To realize refrigeration, heat supply using high temperature heat or be converted into power it is also desirable to being freezed using power or being utilized power
And carry out heat supply with reference to low temperature heat energy.During stating purpose in realization, many considerations will be faced or condition will limit, bag
Include type, grade and the quantity of the energy, the type of user's request, grade and quantity, ambient temperature, the type of working media, if
Standby flow process, structure Manufacturing cost etc..
Heat energy (temperature difference) with absorption heat pump technology as representative utilizes technology, is driven using high warm load and realizes heat supply
Or refrigeration;But because the property by working media (solution and refrigerant medium) is affected, its application and range of application are subject to relatively
Big restriction.Using the compression heat pump technology of the grade difference between mechanical energy and heat energy, there is certain motility, but it is a lot
In the case of be difficult to the efficient utilization to heat energy.Meanwhile, two kinds of technology also have common weak point cannot heat
Or refrigeration realize heat energy to mechanical transformation of energy simultaneously.
For this reason, the present invention is directed to the drive energy utilizing fuel as heat supply or cooling, takes into account power drive or externally carry
For power demand, propose heated medium and directly serve as working media and there is the first kind thermal drivers compression type heat of simple structure
Pump.
Content of the invention:
Present invention is primarily intended to first kind thermal drivers compression heat pump will be provided, concrete content of the invention subitem illustrates such as
Under:
1. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, expansion
Machine, the second decompressor, high-temperature heat exchanger and low temperature heat exchanger are formed;Outside has air duct to connect with compressor, pressure
Contracting machine also has compressed air channel and combustion chamber, and combustor also has fuel channel and ft connection, and combustor also has combustion gas
Passage is connected with gas turbine, and gas turbine also has blast tube through high-temperature heat exchanger and ft connection, and outside has heated
Medium channel is connected with the second decompressor, and the second decompressor also has heated medium passage through low temperature heat exchanger and the second compression
Machine connects, and the second compressor also has heated medium passage to connect with decompressor through high-temperature heat exchanger, and decompressor is also added
Hot media channel and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine, decompressor
Connect compressor and the second compressor with the second decompressor and transmit power, form first kind thermal drivers compression heat pump.
2. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, expansion
Machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd compressor and the second high-temperature heat exchanger are formed;Outward
Portion has air duct to connect with compressor, and compressor also has compressed air channel and combustion chamber, and combustor also has fuel to lead to
Road and ft connection, combustor also has blast tube to connect with gas turbine, and gas turbine also has blast tube successively through second
High-temperature heat exchanger and high-temperature heat exchanger and ft connection, outside has heated medium passage to connect with the second decompressor, the
Two decompressors also have heated medium passage to connect with the second compressor through low temperature heat exchanger, and the second compressor also has heated
Medium channel is connected with the 3rd compressor through high-temperature heat exchanger, and the 3rd compressor also has heated medium passage through the second high temperature
Heat exchanger is connected with decompressor, and decompressor also has heated medium passage and ft connection, and low temperature heat exchanger also has low temperature
Hot media channel and ft connection, gas turbine, decompressor and the second decompressor connect compressor, the second compressor and the 3rd pressure
Contracting machine simultaneously transmits power, forms first kind thermal drivers compression heat pump.
3. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, expansion
Machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the second high-temperature heat exchanger and the 3rd decompressor are formed;Outward
Portion has air duct to connect with compressor, and compressor also has compressed air channel and combustion chamber, and combustor also has fuel to lead to
Road and ft connection, combustor also has blast tube to connect with gas turbine, and gas turbine also has blast tube successively through second
High-temperature heat exchanger and high-temperature heat exchanger and ft connection, outside has heated medium passage to connect with the 3rd decompressor, the
Three decompressors also have heated medium passage to connect with the second compressor through low temperature heat exchanger, and the second compressor also has heated
Medium channel is connected with decompressor through high-temperature heat exchanger, and decompressor also has heated medium passage through the second high-temperature heat exchanger
Connect with the second decompressor, the second decompressor also has heated medium passage and ft connection, low temperature heat exchanger also has low temperature
Hot media channel and ft connection, gas turbine, decompressor, the second decompressor and the 3rd decompressor connect compressor and the second pressure
Contracting machine simultaneously transmits power, forms first kind thermal drivers compression heat pump.
4. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, expansion
Machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd decompressor and heater are formed;Outside has air to lead to
Road is connected with compressor, and compressor also has compressed air channel and combustion chamber, and combustor also has fuel channel to connect with outside
Logical, combustor also has blast tube to connect with gas turbine, and gas turbine also has blast tube through high-temperature heat exchanger and outside
Connection, outside has heated medium passage to connect with the 3rd decompressor, and the 3rd decompressor also has heated medium passage through low temperature
Heat exchanger is connected with the second compressor, and the second compressor also has heated medium passage through high-temperature heat exchanger with decompressor even
Logical, decompressor also has heated medium passage to connect with the second decompressor through heater, and the second decompressor also has heated medium
Through heater and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine, expansion to passage
Machine, the second decompressor and the 3rd decompressor connect compressor and the second compressor and transmit power, form first kind thermal drivers pressure
Contracting formula heat pump.
5. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, expansion
Machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd compressor and heater are formed;Outside has air to lead to
Road is connected with compressor, and compressor also has compressed air channel and combustion chamber, and combustor also has fuel channel to connect with outside
Logical, combustor also has blast tube to connect with gas turbine, and gas turbine also has blast tube through high-temperature heat exchanger and outside
Connection, outside has heated medium passage to connect with the second decompressor, and the second decompressor also has heated medium passage through low temperature
Heat exchanger is connected with the second compressor, and the second compressor also has heated medium passage through high-temperature heat exchanger with decompressor even
Logical, decompressor also has heated medium passage to connect with the 3rd compressor through heater, and the 3rd compressor also has heated medium
Through heater and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine, expansion to passage
Machine and the second decompressor connect compressor, the second compressor and the 3rd compressor and transmit power, form first kind thermal drivers pressure
Contracting formula heat pump.
6. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, expansion
Machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd decompressor and the second low temperature heat exchanger are formed;Outward
Portion has air duct to connect with compressor, and compressor also has compressed air channel and combustion chamber, and combustor also has fuel to lead to
Road and ft connection, combustor also has blast tube to connect with gas turbine, and gas turbine also has blast tube to hand over through high warm
Parallel operation and ft connection, outside has heated medium passage to connect with the second decompressor, and the second decompressor also has heated medium
Passage is connected with the 3rd decompressor through low temperature heat exchanger, and the 3rd decompressor also has heated medium passage to hand over through the second Low Temperature Thermal
Parallel operation is connected with the second compressor, and the second compressor also has heated medium passage to connect with decompressor through high-temperature heat exchanger,
Decompressor also has heated medium passage and ft connection, low temperature heat exchanger and the second low temperature heat exchanger also to have low temperature respectively
Hot media channel and ft connection, gas turbine, decompressor, the second decompressor and the 3rd decompressor connect compressor and the second pressure
Contracting machine simultaneously transmits power, forms first kind thermal drivers compression heat pump.
7. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, expansion
Machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger and regenerator are formed;There are air duct and compressor in outside
Connection, compressor also has compressed air channel and combustion chamber, and combustor also has fuel channel and ft connection, and combustor is also
Blast tube is had to connect with gas turbine, gas turbine also has blast tube through high-temperature heat exchanger and ft connection, and outside has
Heated medium passage is connected with the second decompressor, and the second decompressor also has heated medium passage through low temperature heat exchanger and
Two compressor connections, the second compressor also has heated medium passage to connect with decompressor through regenerator and high-temperature heat exchanger successively
Logical, decompressor also has heated medium passage through regenerator and ft connection, and low temperature heat exchanger also has low-temperature heat medium passage
With ft connection, gas turbine, decompressor and the second decompressor connect compressor and the second compressor and transmit power, forms the
One class thermal drivers compression heat pump.
8. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, expansion
Machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger and regenerator are formed;There are air duct and compressor in outside
Connection, compressor also has compressed air channel and combustion chamber, and combustor also has fuel channel and ft connection, and combustor is also
Blast tube is had to connect with gas turbine, gas turbine also has blast tube through high-temperature heat exchanger and ft connection, and outside has
Heated medium passage is connected with the second decompressor through regenerator, and the second decompressor also has heated medium passage successively through low temperature
Heat exchanger is connected with the second compressor with regenerator, the second compressor also have heated medium passage through high-temperature heat exchanger with
Decompressor connects, and decompressor also has heated medium passage and ft connection, and low temperature heat exchanger also has low-temperature heat medium passage
With ft connection, gas turbine, decompressor and the second decompressor connect compressor and the second compressor and transmit power, forms the
One class thermal drivers compression heat pump.
9. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, expansion
Machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger and heater are formed;There are air duct and compressor in outside
Connection, compressor also has compressed air channel and combustion chamber, and combustor also has fuel channel and ft connection, and combustor is also
Blast tube is had to connect with gas turbine, gas turbine also has blast tube successively through high-temperature heat exchanger and heater and outside
Connection, outside has heated medium passage to connect with the second decompressor, and the second decompressor also has heated medium passage through low temperature
Heat exchanger is connected with the second compressor, and the second compressor also has heated medium passage through high-temperature heat exchanger with decompressor even
Logical, decompressor also has heated medium passage and ft connection, and low temperature heat exchanger also has low-temperature heat medium passage and outside to connect
Logical, heater also has heated medium passage and ft connection, gas turbine, decompressor and the second decompressor connect compressor and
Second compressor simultaneously transmits power, forms first kind thermal drivers compression heat pump.
10. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, swollen
Swollen machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, heater and the second low temperature heat exchanger are formed;Outside
Air duct is had to connect with compressor, compressor also has compressed air channel and combustion chamber, combustor also has fuel channel
With ft connection, combustor also has blast tube to connect with gas turbine, and gas turbine also has blast tube successively through high warm
Exchanger, heater and the second low temperature heat exchanger and ft connection, there are heated medium passage and the second decompressor in outside even
Logical, the second decompressor also has heated medium passage to connect with the second compressor through low temperature heat exchanger, and the second compressor also has
Heated medium passage is connected with decompressor through high-temperature heat exchanger, and decompressor also has heated medium passage and ft connection,
Outside also have low-temperature heat medium passage successively through the second low temperature heat exchanger and low temperature heat exchanger and ft connection, and heater is also
There are heated medium passage and ft connection, gas turbine, decompressor and the second decompressor connect compressor and the second compressor
And transmit power, form first kind thermal drivers compression heat pump.
11. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, swollen
Swollen machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger and high temperature regenerator are formed;Outside have air duct with
Compressor connects, and compressor also has compressed air channel through high temperature regenerator and combustion chamber, and combustor also has fuel channel
With ft connection, combustor also has blast tube to connect with gas turbine, and gas turbine also has blast tube to return through high temperature successively
Hot device and high-temperature heat exchanger and ft connection, outside has heated medium passage to connect with the second decompressor, the second decompressor
Heated medium passage is also had to connect with the second compressor through low temperature heat exchanger, the second compressor also has heated medium passage
Connect with decompressor through high-temperature heat exchanger, decompressor also has heated medium passage and ft connection, low temperature heat exchanger is also
There are low-temperature heat medium passage and ft connection, gas turbine, decompressor and the second decompressor connect compressor and the second compressor
And transmit power, form first kind thermal drivers compression heat pump.
12. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, swollen
Swollen machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd compressor, the second high-temperature heat exchanger and high temperature return
Hot device is formed;Outside has air duct to connect with compressor, and compressor also has compressed air channel through high temperature regenerator and combustion
Burn room connection, combustor also has fuel channel and ft connection, and combustor also has blast tube to connect with gas turbine, combustion gas wheel
Machine also has blast tube successively through high temperature regenerator, the second high-temperature heat exchanger and high-temperature heat exchanger and ft connection, outside
Have heated medium passage to connect with the second decompressor, the second decompressor also have heated medium passage through low temperature heat exchanger with
Second compressor connection, the second compressor also has heated medium passage to connect with the 3rd compressor through high-temperature heat exchanger, the
Three compressors also have heated medium passage to connect with decompressor through the second high-temperature heat exchanger, and decompressor also has heated medium
Passage and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine, decompressor and second
Decompressor connects compressor, the second compressor and the 3rd compressor and transmits power, forms first kind thermal drivers compression heat pump.
13. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, swollen
Swollen machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the second high-temperature heat exchanger, the 3rd decompressor and high temperature return
Hot device is formed;Outside has air duct to connect with compressor, and compressor also has compressed air channel through high temperature regenerator and combustion
Burn room connection, combustor also has fuel channel and ft connection, and combustor also has blast tube to connect with gas turbine, combustion gas wheel
Machine also has blast tube successively through high temperature regenerator, the second high-temperature heat exchanger and high-temperature heat exchanger and ft connection, outside
Have heated medium passage to connect with the 3rd decompressor, the 3rd decompressor also have heated medium passage through low temperature heat exchanger with
Second compressor connection, the second compressor also has heated medium passage to connect with decompressor through high-temperature heat exchanger, decompressor
Heated medium passage is also had to connect with the second decompressor through the second high-temperature heat exchanger, the second decompressor also has heated medium
Passage and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine, decompressor, second
Decompressor and the 3rd decompressor connect compressor and the second compressor and transmit power, form first kind thermal drivers compression type heat
Pump.
14. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, swollen
Swollen machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd decompressor, heater and high temperature regenerator institute group
Become;Outside has air duct to connect with compressor, and compressor also has compressed air channel through high temperature regenerator and combustion chamber,
Combustor also has fuel channel and ft connection, and combustor also has blast tube to connect with gas turbine, and gas turbine also has combustion
Successively through high temperature regenerator and high-temperature heat exchanger and ft connection, there are heated medium passage and the 3rd expansion in outside to gas passage
Machine connects, and the 3rd decompressor also has heated medium passage to connect with the second compressor through low temperature heat exchanger, the second compressor
Heated medium passage is also had to connect with decompressor through high-temperature heat exchanger, decompressor also has heated medium passage through heater
Connect with the second decompressor, the second decompressor also has heated medium passage through heater and ft connection, low temperature heat exchanger
Also have low-temperature heat medium passage and ft connection, gas turbine, decompressor, the second decompressor and the 3rd decompressor connect compressor
With the second compressor and transmit power, form first kind thermal drivers compression heat pump.
15. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, swollen
Swollen machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd compressor, heater and high temperature regenerator institute group
Become;Outside has air duct to connect with compressor, and compressor also has compressed air channel through high temperature regenerator and combustion chamber,
Combustor also has fuel channel and ft connection, and combustor also has blast tube to connect with gas turbine, and gas turbine also has combustion
Successively through high temperature regenerator and high-temperature heat exchanger and ft connection, there are heated medium passage and the second expansion in outside to gas passage
Machine connects, and the second decompressor also has heated medium passage to connect with the second compressor through low temperature heat exchanger, the second compressor
Heated medium passage is also had to connect with decompressor through high-temperature heat exchanger, decompressor also has heated medium passage through heater
Connect with the 3rd compressor, the 3rd compressor also has heated medium passage through heater and ft connection, low temperature heat exchanger
Also have low-temperature heat medium passage and ft connection, gas turbine, decompressor and the second decompressor connect compressor, the second compressor
With the 3rd compressor and transmit power, form first kind thermal drivers compression heat pump.
16. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, swollen
Swollen machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd decompressor, the second low temperature heat exchanger and high temperature return
Hot device is formed;Outside has air duct to connect with compressor, and compressor also has compressed air channel through high temperature regenerator and combustion
Burn room connection, combustor also has fuel channel and ft connection, and combustor also has blast tube to connect with gas turbine, combustion gas wheel
Machine also has blast tube successively through high temperature regenerator and high-temperature heat exchanger and ft connection, outside have heated medium passage with
Second decompressor connection, the second decompressor also has heated medium passage to connect with the 3rd decompressor through low temperature heat exchanger, the
Three decompressors also have heated medium passage to connect with the second compressor through the second low temperature heat exchanger, and the second compressor also has quilt
Heating medium passage is connected with decompressor through high-temperature heat exchanger, and decompressor also has heated medium passage and ft connection, low
Temperature heat exchanger and the second low temperature heat exchanger also have low-temperature heat medium passage and ft connection respectively, gas turbine, decompressor,
Second decompressor and the 3rd decompressor connect compressor and the second compressor and transmit power, form first kind thermal drivers compression
Heat pump.
17. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, swollen
Swollen machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, regenerator and high temperature regenerator are formed;There is air outside
Passage is connected with compressor, and compressor also has compressed air channel through high temperature regenerator and combustion chamber, and combustor also has combustion
Material passage and ft connection, combustor also has blast tube to connect with gas turbine, and gas turbine also has blast tube warp successively
High temperature regenerator and high-temperature heat exchanger and ft connection, outside has heated medium passage to connect with the second decompressor, and second
Decompressor also has heated medium passage to connect with the second compressor through low temperature heat exchanger, and the second compressor also has heated Jie
Matter passage is connected with decompressor with high-temperature heat exchanger through regenerator successively, and decompressor also has heated medium passage through regenerator
With ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine, decompressor and the second expansion
Machine connects compressor and the second compressor and transmits power, forms first kind thermal drivers compression heat pump.
18. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, swollen
Swollen machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, regenerator and high temperature regenerator are formed;There is air outside
Passage is connected with compressor, and compressor also has compressed air channel through high temperature regenerator and combustion chamber, and combustor also has combustion
Material passage and ft connection, combustor also has blast tube to connect with gas turbine, and gas turbine also has blast tube warp successively
High temperature regenerator and high-temperature heat exchanger and ft connection, outside has heated medium passage to connect through regenerator and the second decompressor
Logical, the second decompressor also has heated medium passage to connect with the second compressor with regenerator through low temperature heat exchanger successively, the
Two compressors also have heated medium passage to connect with decompressor through high-temperature heat exchanger, and decompressor also has heated medium passage
With ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine, decompressor and the second expansion
Machine connects compressor and the second compressor and transmits power, forms first kind thermal drivers compression heat pump.
19. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, swollen
Swollen machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, heater and high temperature regenerator are formed;There is air outside
Passage is connected with compressor, and compressor also has compressed air channel through high temperature regenerator and combustion chamber, and combustor also has combustion
Material passage and ft connection, combustor also has blast tube to connect with gas turbine, and gas turbine also has blast tube warp successively
High temperature regenerator, high-temperature heat exchanger and heater and ft connection, there are heated medium passage and the second decompressor in outside even
Logical, the second decompressor also has heated medium passage to connect with the second compressor through low temperature heat exchanger, and the second compressor also has
Heated medium passage is connected with decompressor through high-temperature heat exchanger, and decompressor also has heated medium passage and ft connection,
Low temperature heat exchanger also has low-temperature heat medium passage and ft connection, and heater also has heated medium passage and ft connection,
Gas turbine, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form first kind thermal drivers
Compression heat pump.
20. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, swollen
Swollen machine, the second decompressor, high-temperature heat exchanger, low temperature heat exchanger, heater, the second low temperature heat exchanger and high temperature regenerator
Formed;Outside has air duct to connect with compressor, and compressor also has compressed air channel through high temperature regenerator and combustor
Connection, combustor also has fuel channel and ft connection, and combustor also has blast tube to connect with gas turbine, and gas turbine is also
There is blast tube successively through high temperature regenerator, high-temperature heat exchanger, heater and the second low temperature heat exchanger and ft connection, outward
Portion has heated medium passage to connect with the second decompressor, and the second decompressor also has heated medium passage through low temperature heat exchanger
Connect with the second compressor, the second compressor also has heated medium passage to connect with decompressor through high-temperature heat exchanger, expand
Machine also has heated medium passage and ft connection, outside also have low-temperature heat medium passage successively through the second low temperature heat exchanger and
Low temperature heat exchanger and ft connection, heater also has heated medium passage and ft connection, gas turbine, decompressor and
Two decompressors connect compressor and the second compressor and transmit power, form first kind thermal drivers compression heat pump.
21. first kind thermal drivers compression heat pumps, are the arbitrary first kind thermal drivers compression type heats described in 1-20 item
In pump, cancel the outside fuel channel with combustion chamber, increase new compressor, outside has fuel gas passage to be pressurized with new
Contracting machine connects, and new compressor also has compressed gaseous fuel channel and combustion chamber, and gas turbine connects new compressor simultaneously
Transmission power, forms first kind thermal drivers compressing-absorbing type heat pump.
22. first kind thermal drivers compression heat pumps, are the arbitrary first kind thermal drivers compression type heats described in 1-21 item
In pump, increase engine, engine connects the second compressor and provides power to the second compressor, forms additional external power and drives
Dynamic first kind thermal drivers compression heat pump.
23. first kind thermal drivers compression heat pumps, are the arbitrary first kind thermal drivers compression type heats described in 1-21 item
In pump, increase working machine, gas turbine connects working machine and provides power to working machine, being formed to add externally provides living load
First kind thermal drivers compression heat pump.
Brief description:
Fig. 1 is according to the 1st kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.
Fig. 2 is according to the 2nd kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.
Fig. 3 is according to the 3rd kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.
Fig. 4 is according to the 4th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.
Fig. 5 is according to the 5th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.
Fig. 6 is according to the 6th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.
Fig. 7 is according to the 7th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.
Fig. 8 is according to the 8th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.
Fig. 9 is according to the 9th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.
Figure 10 is according to the 10th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.
Figure 11 is according to the 11st kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.
Figure 12 is according to the 12nd kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.
In figure, 1- compressor, 2- combustor, 3- gas turbine, 4- second compressor, 5- decompressor, 6- second decompressor,
7- high-temperature heat exchanger, 8- low temperature heat exchanger, 9- the 3rd compressor, 10- second high-temperature heat exchanger, 11- the 3rd decompressor,
12- heater, 13- second low temperature heat exchanger, 14- regenerator, 15- high temperature regenerator, 16- new compressor.
Specific embodiment:
First it is noted that in the statement of structure and flow process, inessential in the case of do not repeat;To apparent
Flow process do not state.To describe the present invention with example in detail below in conjunction with the accompanying drawings.
The compression heat pump of first kind thermal drivers shown in Fig. 1 is realized in:
(1), in structure, it is mainly by compressor, combustor, gas turbine, the second compressor, decompressor, the second expansion
Machine, high-temperature heat exchanger and low temperature heat exchanger are formed;Outside has air duct to connect with compressor 1, and compressor 1 also has presses
Contracting air duct is connected with combustor 2, and combustor 2 also has fuel channel and ft connection, and combustor 2 also has blast tube and combustion
Gas-turbine 3 connects, and gas turbine 3 also has blast tube through high-temperature heat exchanger 7 and ft connection, and outside has heated medium to lead to
Road is connected with the second decompressor 6, and the second decompressor 6 also has heated medium passage through low temperature heat exchanger 8 and the second compressor 4
Connection, the second compressor 4 also has heated medium passage to connect with decompressor 5 through high-temperature heat exchanger 7, and decompressor 5 also has quilt
Heating medium passage and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, gas turbine 3, swollen
Swollen machine 5 and the second decompressor 6 connect compressor 1 and the second compressor 4 and transmit power.
(2), in flow process, air stream is boosted through compressor 1 and is entered combustor 2 after heating up, external fuel entrance combustor 2,
Mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 3 blood pressure lowering work done, gas turbine 3 discharge
Combustion gas flows through high-temperature heat exchanger 7 heat release, externally discharges afterwards;Heated medium enters the second decompressor 6 blood pressure lowering work done, the
The heated medium of two decompressor 6 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters the second compressor 4 boosting afterwards and heats up;
The heated medium of the second compressor 4 discharge flows through high-temperature heat exchanger 7 and absorbs heat, and enters decompressor 5 blood pressure lowering work done simultaneously afterwards
Externally discharge;The work(of gas turbine 3, decompressor 5 and the second decompressor 6 output is supplied to compressor 1 and the second compressor 4 start
Power, fuel passes through burning provides high warm load, and heated medium passes through to pass in and out warm load during flow process obtains, low-temperature heat medium
There is provided low temperature thermic load by low temperature heat exchanger 8, form first kind thermal drivers compression heat pump.
The compression heat pump of first kind thermal drivers shown in Fig. 2 is realized in:
(1), in structure, it is mainly by compressor, combustor, gas turbine, the second compressor, decompressor, the second expansion
Machine, high-temperature heat exchanger, low temperature heat exchanger, the 3rd compressor and the second high-temperature heat exchanger are formed;Outside has air to lead to
Road is connected with compressor 1, and compressor 1 also has compressed air channel to connect with combustor 2, and combustor 2 also has fuel channel with outward
Portion connects, and combustor 2 also has blast tube to connect with gas turbine 3, and gas turbine 3 also has blast tube successively through the second high temperature
Heat exchanger 10 and high-temperature heat exchanger 7 and ft connection, outside has heated medium passage to connect with the second decompressor 6, the
Two decompressors 6 also have heated medium passage to connect with the second compressor 4 through low temperature heat exchanger 8, and the second compressor 4 also has quilt
Heating medium passage is connected with the 3rd compressor 9 through high-temperature heat exchanger 7, and the 3rd compressor 9 also has heated medium passage warp
Second high-temperature heat exchanger 10 is connected with decompressor 5, and decompressor 5 also has heated medium passage and ft connection, and Low Temperature Thermal is handed over
Parallel operation 8 also low-temperature heat medium passage and ft connection, gas turbine 3, decompressor 5 and the second decompressor 6 connection compressor 1,
Second compressor 4 and the 3rd compressor 9 simultaneously transmit power.
(2), in flow process, air stream is boosted through compressor 1 and is entered combustor 2 after heating up, external fuel entrance combustor 2,
Mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 3 blood pressure lowering work done, gas turbine 3 discharge
Combustion gas flows through the second high-temperature heat exchanger 10 and high-temperature heat exchanger 7 progressively heat release successively, externally discharges afterwards;Heated Jie
Matter enters the second decompressor 6 blood pressure lowering work done, and the heated medium of the second decompressor 6 discharge flows through low temperature heat exchanger 8 and absorbs heat,
Enter the second compressor 4 boosting afterwards to heat up;The heated medium of the second compressor 4 discharge flows through high-temperature heat exchanger 7 and inhales
Heat, enters the 3rd compressor 9 boosting afterwards and heats up;The heated medium of the 3rd compressor 9 discharge flows through the second high temperature heat exchange
Device 10 simultaneously absorbs heat, and enters decompressor 5 blood pressure lowering work done afterwards and externally discharges;Gas turbine 3, decompressor 5 and the second decompressor 6 are defeated
The work(going out is supplied to compressor 1, the second compressor 4 and the 3rd compressor 9 and is used as power, and fuel passes through burning provides high warm negative
Lotus, heated medium passes through to pass in and out warm load during flow process obtains, and low-temperature heat medium provides Low Temperature Thermal by low temperature heat exchanger 8
Load, forms first kind thermal drivers compression heat pump.
The compression heat pump of first kind thermal drivers shown in Fig. 3 is realized in:
(1), in structure, it is mainly by compressor, combustor, gas turbine, the second compressor, decompressor, the second expansion
Machine, high-temperature heat exchanger, low temperature heat exchanger, the second high-temperature heat exchanger and the 3rd decompressor are formed;Outside has air to lead to
Road is connected with compressor 1, and compressor 1 also has compressed air channel to connect with combustor 2, and combustor 2 also has fuel channel with outward
Portion connects, and combustor 2 also has blast tube to connect with gas turbine 3, and gas turbine 3 also has blast tube successively through the second high temperature
Heat exchanger 10 and high-temperature heat exchanger 7 and ft connection, outside has heated medium passage to connect with the 3rd decompressor 11, the
Three decompressors 11 also have heated medium passage to connect with the second compressor 4 through low temperature heat exchanger 8, and the second compressor 4 also has
Heated medium passage is connected with decompressor 5 through high-temperature heat exchanger 7, and decompressor 5 also has heated medium passage high through second
Temperature heat exchanger 10 is connected with the second decompressor 6, and the second decompressor 6 also has heated medium passage and ft connection, Low Temperature Thermal
Exchanger 8 also has low-temperature heat medium passage and ft connection, gas turbine 3, decompressor 5, the second decompressor 6 and the 3rd decompressor
11 connect compressors 1 and the second compressor 4 and transmit power.
(2), in flow process, air stream is boosted through compressor 1 and is entered combustor 2 after heating up, external fuel entrance combustor 2,
Mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 3 blood pressure lowering work done, gas turbine 3 discharge
Combustion gas flows through the second high-temperature heat exchanger 10 and high-temperature heat exchanger 7 progressively heat release successively, externally discharges afterwards;Heated Jie
Matter enters the 3rd decompressor 11 blood pressure lowering work done, and the heated medium of the 3rd decompressor 11 discharge flows through low temperature heat exchanger 8 and inhales
Heat, enters the second compressor 4 boosting afterwards and heats up;The heated medium of the second compressor 4 discharge flows through high-temperature heat exchanger 7 simultaneously
Heat absorption, enters decompressor 5 blood pressure lowering work done afterwards;The heated medium of decompressor 5 discharge flows through the second high-temperature heat exchanger 10 simultaneously
Heat absorption, enters the second decompressor 6 blood pressure lowering work done afterwards and externally discharges;Gas turbine 3, decompressor 5, the second decompressor 6 and
The work(of three decompressor 11 output is supplied to compressor 1 and the second compressor 4 is used as power, and fuel passes through burning provides high warm negative
Lotus, heated medium passes through to pass in and out warm load during flow process obtains, and low-temperature heat medium provides Low Temperature Thermal by low temperature heat exchanger 8
Load, forms first kind thermal drivers compression heat pump.
The compression heat pump of first kind thermal drivers shown in Fig. 4 is realized in:
(1), in structure, it is mainly by compressor, combustor, gas turbine, the second compressor, decompressor, the second expansion
Machine, high-temperature heat exchanger, low temperature heat exchanger, the 3rd decompressor and heater are formed;There are air duct and compressor 1 in outside
Connection, compressor 1 also has compressed air channel to connect with combustor 2, and combustor 2 also has fuel channel and ft connection, burning
Room 2 also has blast tube to connect with gas turbine 3, and gas turbine 3 also has blast tube to connect through high-temperature heat exchanger 7 and outside
Logical, outside has heated medium passage to connect with the 3rd decompressor 11, and the 3rd decompressor 11 also has heated medium passage through low
Temperature heat exchanger 8 is connected with the second compressor 4, the second compressor 4 also have heated medium passage through high-temperature heat exchanger 7 with swollen
Swollen machine 5 connects, and decompressor 5 also has heated medium passage to connect with the second decompressor 6 through heater 12, and the second decompressor 6 is also
There is heated medium passage through heater 12 and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage to connect with outside
Logical, gas turbine 3, decompressor 5, the second decompressor 6 and the 3rd decompressor 11 connect compressor 1 and the second compressor 4 and transmit
Power.
(2), in flow process, air stream is boosted through compressor 1 and is entered combustor 2 after heating up, external fuel entrance combustor 2,
Mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 3 blood pressure lowering work done, gas turbine 3 discharge
Combustion gas flows through high-temperature heat exchanger 7 heat release, externally discharges afterwards;Heated medium enters the 3rd decompressor 11 blood pressure lowering work done,
The heated medium of the 3rd decompressor 11 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters the second compressor 4 boosting afterwards and rises
Temperature;The heated medium of the second compressor 4 discharge flows through high-temperature heat exchanger 7 and absorbs heat, and enters decompressor 5 blood pressure lowering afterwards and makees
Work(;The heated medium of decompressor 5 discharge flows through heater 12 heat release, enters the second decompressor 6 blood pressure lowering work done afterwards;Second
The heated medium of decompressor 6 discharge flows through heater 12 and absorbs heat, and externally discharges afterwards;Gas turbine 3, decompressor 5, second
The work(of decompressor 6 and the 3rd decompressor 11 output is supplied to compressor 1 and the second compressor 4 is used as power, and fuel is carried by burning
For high warm load, heated medium passes through to pass in and out warm load during flow process obtains, and low-temperature heat medium passes through low temperature heat exchanger 8
Low temperature thermic load is provided, forms first kind thermal drivers compression heat pump.
The compression heat pump of first kind thermal drivers shown in Fig. 5 is realized in:
(1), in structure, it is mainly by compressor, combustor, gas turbine, the second compressor, decompressor, the second expansion
Machine, high-temperature heat exchanger, low temperature heat exchanger, the 3rd compressor and heater are formed;There are air duct and compressor 1 in outside
Connection, compressor 1 also has compressed air channel to connect with combustor 2, and combustor 2 also has fuel channel and ft connection, burning
Room 2 also has blast tube to connect with gas turbine 3, and gas turbine 3 also has blast tube to connect through high-temperature heat exchanger 7 and outside
Logical, outside has heated medium passage to connect with the second decompressor 6, and the second decompressor 6 also has heated medium passage through low temperature
Heat exchanger 8 is connected with the second compressor 4, and the second compressor 4 also has heated medium passage through high-temperature heat exchanger 7 and expansion
Machine 5 connects, and decompressor 5 also has heated medium passage to connect with the 3rd compressor 9 through heater 12, and the 3rd compressor 9 also has
Heated medium passage also has low-temperature heat medium passage and ft connection through heater 12 and ft connection, low temperature heat exchanger 8,
Gas turbine 3, decompressor 5 and the second decompressor 6 connect compressor 1, the second compressor 4 and the 3rd compressor 9 and transmit power.
(2), in flow process, air stream is boosted through compressor 1 and is entered combustor 2 after heating up, external fuel entrance combustor 2,
Mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 3 blood pressure lowering work done, gas turbine 3 discharge
Combustion gas flows through high-temperature heat exchanger 7 heat release, externally discharges afterwards;Heated medium enters the second decompressor 6 blood pressure lowering work done, the
The heated medium of two decompressor 6 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters the second compressor 4 boosting afterwards and heats up;
The heated medium of the second compressor 4 discharge flows through high-temperature heat exchanger 7 and absorbs heat, and enters decompressor 5 blood pressure lowering work done afterwards;Swollen
The heated medium of swollen machine 5 discharge flows through heater 12 heat release, enters the 3rd compressor 9 boosting afterwards and heats up;3rd compression
The heated medium of machine 9 discharge flows through heater 12 and absorbs heat, and externally discharges afterwards;Gas turbine 3, decompressor 5 and second are swollen
The work(of swollen machine 6 output is supplied to compressor 1, the second compressor 4 and the 3rd compressor 9 and is used as power, and fuel passes through burning provides height
Warm load, heated medium passes through to pass in and out warm load during flow process obtains, and low-temperature heat medium is provided by low temperature heat exchanger 8
Low temperature thermic load, forms first kind thermal drivers compression heat pump.
The compression heat pump of first kind thermal drivers shown in Fig. 6 is realized in:
(1), in structure, it is mainly by compressor, combustor, gas turbine, the second compressor, decompressor, the second expansion
Machine, high-temperature heat exchanger, low temperature heat exchanger, the 3rd decompressor and the second low temperature heat exchanger are formed;Outside has air to lead to
Road is connected with compressor 1, and compressor 1 also has compressed air channel to connect with combustor 2, and combustor 2 also has fuel channel with outward
Portion connects, and combustor 2 also has blast tube to connect with gas turbine 3, and gas turbine 3 also has blast tube through high-temperature heat exchanger
7 and ft connection, outside has heated medium passage to connect with the second decompressor 6, and the second decompressor 6 also has heated medium to lead to
Road is connected with the 3rd decompressor 11 through low temperature heat exchanger 8, and the 3rd decompressor 11 also has heated medium passage through the second low temperature
Heat exchanger 13 is connected with the second compressor 4, the second compressor 4 also have heated medium passage through high-temperature heat exchanger 7 with swollen
Swollen machine 5 connects, and decompressor 5 also has heated medium passage and ft connection, low temperature heat exchanger 8 and the second low temperature heat exchanger
13 also have low-temperature heat medium passage and ft connection, gas turbine 3, decompressor 5, the second decompressor 6 and the 3rd decompressor respectively
11 connect compressors 1 and the second compressor 4 and transmit power.
(2), in flow process, air stream is boosted through compressor 1 and is entered combustor 2 after heating up, external fuel entrance combustor 2,
Mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 3 blood pressure lowering work done, gas turbine 3 discharge
Combustion gas flows through high-temperature heat exchanger 7 heat release, externally discharges afterwards;Heated medium enters the second decompressor 6 blood pressure lowering work done, the
The heated medium of two decompressor 6 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters the 3rd decompressor 11 blood pressure lowering afterwards and makees
Work(;The heated medium of the 3rd decompressor 11 discharge flows through the second low temperature heat exchanger 13 and absorbs heat, and enters the second compression afterwards
Machine 4 boosting heats up;The heated medium of the second compressor 4 discharge flows through high-temperature heat exchanger 7 and absorbs heat, and enters decompressor afterwards
5 blood pressure lowering works done are simultaneously externally discharged;Gas turbine 3, the work(of decompressor 5, the second decompressor 6 and the 3rd decompressor 11 output are supplied to
Compressor 1 and the second compressor 4 are used as power, and fuel passes through burning provides high warm load, and heated medium passes through to pass in and out flow process
Warm load in acquisition, low-temperature heat medium passes through low temperature heat exchanger 8 respectively and the second low temperature heat exchanger 13 provides Low Temperature Thermal
Load, forms first kind thermal drivers compression heat pump.
The compression heat pump of first kind thermal drivers shown in Fig. 7 is realized in:
(1), in structure, it is mainly by compressor, combustor, gas turbine, the second compressor, decompressor, the second expansion
Machine, high-temperature heat exchanger, low temperature heat exchanger and regenerator are formed;Outside has air duct to connect with compressor 1, compressor
1 also has compressed air channel to connect with combustor 2, and combustor 2 also has fuel channel and ft connection, and combustor 2 also has combustion gas
Passage is connected with gas turbine 3, and gas turbine 3 also has blast tube through high-temperature heat exchanger 7 and ft connection, and outside has and added
Hot media channel is connected with the second decompressor 6, and the second decompressor 6 also has heated medium passage through low temperature heat exchanger 8 and the
Two compressors 4 connect, the second compressor 4 also have heated medium passage successively through regenerator 14 and high-temperature heat exchanger 7 with swollen
Swollen machine 5 connects, and decompressor 5 also has heated medium passage through regenerator 14 and ft connection, and low temperature heat exchanger 8 also has low temperature
Hot media channel and ft connection, gas turbine 3, decompressor 5 and the second decompressor 6 connection compressor 1 and the second compressor 4 are simultaneously
Transmission power.
(2), in flow process, air stream is boosted through compressor 1 and is entered combustor 2 after heating up, external fuel entrance combustor 2,
Mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 3 blood pressure lowering work done, gas turbine 3 discharge
Combustion gas flows through high-temperature heat exchanger 7 heat release, externally discharges afterwards;Heated medium enters the second decompressor 6 blood pressure lowering work done, the
The heated medium of two decompressor 6 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters the second compressor 4 boosting afterwards and heats up;
The heated medium of the second compressor 4 discharge flows through regenerator 14 and high-temperature heat exchanger 7 successively and progressively absorbs heat, and enters afterwards
Decompressor 5 blood pressure lowering work done;The heated medium of decompressor 5 discharge flows through regenerator 14 heat release, externally discharges afterwards;Combustion gas wheel
The work(of machine 3, decompressor 5 and the second decompressor 6 output is supplied to compressor 1 and the second compressor 4 is used as power, and fuel passes through burning
There is provided high warm load, heated medium passes through to pass in and out warm load during flow process obtains, and low-temperature heat medium passes through low temperature heat exchange
Device 8 provides low temperature thermic load, forms first kind thermal drivers compression heat pump.
The compression heat pump of first kind thermal drivers shown in Fig. 8 is realized in:
(1), in structure, it is mainly by compressor, combustor, gas turbine, the second compressor, decompressor, the second expansion
Machine, high-temperature heat exchanger, low temperature heat exchanger and regenerator are formed;Outside has air duct to connect with compressor 1, compressor
1 also has compressed air channel to connect with combustor 2, and combustor 2 also has fuel channel and ft connection, and combustor 2 also has combustion gas
Passage is connected with gas turbine 3, and gas turbine 3 also has blast tube through high-temperature heat exchanger 7 and ft connection, and outside has and added
Hot media channel is connected with the second decompressor 6 through regenerator 14, and the second decompressor 6 also has heated medium passage successively through low temperature
Heat exchanger 8 is connected with the second compressor 4 with regenerator 14, and the second compressor 4 also has heated medium passage to hand over through high warm
Parallel operation 7 is connected with decompressor 5, and decompressor 5 also has heated medium passage and ft connection, and low temperature heat exchanger 8 also has low temperature
Hot media channel and ft connection, gas turbine 3, decompressor 5 and the second decompressor 6 connection compressor 1 and the second compressor 4 are simultaneously
Transmission power.
(2), in flow process, air stream is boosted through compressor 1 and is entered combustor 2 after heating up, external fuel entrance combustor 2,
Mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 3 blood pressure lowering work done, gas turbine 3 discharge
Combustion gas flows through high-temperature heat exchanger 7 heat release, externally discharges afterwards;Heated medium flows through regenerator 14 heat release, laggard
Enter the second decompressor 6 blood pressure lowering work done;The heated medium of the second decompressor 6 discharge flows through low temperature heat exchanger 8 and backheat successively
Device 14 simultaneously progressively absorbs heat, and enters the second compressor 4 boosting afterwards and heats up;The heated medium of the second compressor 4 discharge flows through height
Temperature heat exchanger 7 simultaneously absorbs heat, and enters decompressor 5 blood pressure lowering work done afterwards and externally discharges;Gas turbine 3, decompressor 5 and second are swollen
The work(of swollen machine 6 output is supplied to compressor 1 and the second compressor 4 is used as power, and fuel passes through burning provides high warm load, is added
Thermal medium passes through to pass in and out warm load during flow process obtains, and low-temperature heat medium provides low temperature thermic load, shape by low temperature heat exchanger 8
Become first kind thermal drivers compression heat pump.
The compression heat pump of first kind thermal drivers shown in Fig. 9 is realized in:
(1), in structure, it is mainly by compressor, combustor, gas turbine, the second compressor, decompressor, the second expansion
Machine, high-temperature heat exchanger, low temperature heat exchanger and heater are formed;Outside has air duct to connect with compressor 1, compressor
1 also has compressed air channel to connect with combustor 2, and combustor 2 also has fuel channel and ft connection, and combustor 2 also has combustion gas
Passage is connected with gas turbine 3, and gas turbine 3 also has blast tube successively through high-temperature heat exchanger 7 and heater 12 and outside
Connection, outside has heated medium passage to connect with the second decompressor 6, and the second decompressor 6 also has heated medium passage through low
Temperature heat exchanger 8 is connected with the second compressor 4, the second compressor 4 also have heated medium passage through high-temperature heat exchanger 7 with swollen
Swollen machine 5 connects, and decompressor 5 also has heated medium passage and ft connection, and low temperature heat exchanger 8 also has low-temperature heat medium passage
With ft connection, heater 12 also heated medium passage and ft connection, gas turbine 3, decompressor 5 and the second decompressor
6 connect compressors 1 and the second compressor 4 and transmit power.
(2), in flow process, air stream is boosted through compressor 1 and is entered combustor 2 after heating up, external fuel entrance combustor 2,
Mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 3 blood pressure lowering work done, gas turbine 3 discharge
Combustion gas flows through high-temperature heat exchanger 7 and heater 12 progressively heat release successively, externally discharges afterwards;Heated medium enters second
Decompressor 6 blood pressure lowering work done, the heated medium of the second decompressor 6 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters the afterwards
Two compressor 4 boosting heats up;The heated medium of the second compressor 4 discharge flows through high-temperature heat exchanger 7 and absorbs heat, and enters afterwards
Decompressor 5 blood pressure lowering work done is simultaneously externally discharged;The work(of gas turbine 3, decompressor 5 and the second decompressor 6 output is supplied to compressor 1
It is used as power with the second compressor 4, fuel passes through burning provides high warm load and middle warm load, heated medium passes through respectively
Warm load in turnover flow process and heater 12 acquisition, low-temperature heat medium provides low temperature thermic load, shape by low temperature heat exchanger 8
Become first kind thermal drivers compression heat pump.
The compression heat pump of first kind thermal drivers shown in Figure 10 is realized in:
(1), in structure, it is mainly by compressor, combustor, gas turbine, the second compressor, decompressor, the second expansion
Machine, high-temperature heat exchanger, low temperature heat exchanger, heater and the second low temperature heat exchanger are formed;Outside have air duct with
Compressor 1 connects, and compressor 1 also has compressed air channel to connect with combustor 2, and combustor 2 also has fuel channel to connect with outside
Logical, combustor 2 also has blast tube to connect with gas turbine 3, and gas turbine 3 also has blast tube successively through high-temperature heat exchanger
7th, heater 12 and the second low temperature heat exchanger 13 and ft connection, there are heated medium passage and the second decompressor 6 in outside even
Logical, the second decompressor 6 also has heated medium passage to connect with the second compressor 4 through low temperature heat exchanger 8, the second compressor 4
Heated medium passage is also had to connect with decompressor 5 through high-temperature heat exchanger 7, decompressor 5 also has heated medium passage with outward
Portion connects, and outside also have low-temperature heat medium passage to connect with outside through the second low temperature heat exchanger 13 and low temperature heat exchanger 8 successively
Logical, heater 12 also has heated medium passage and ft connection, and gas turbine 3, decompressor 5 and the second decompressor 6 connect pressure
Contracting machine 1 and the second compressor 4 simultaneously transmit power.
(2), in flow process, air stream is boosted through compressor 1 and is entered combustor 2 after heating up, external fuel entrance combustor 2,
Mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 3 blood pressure lowering work done, gas turbine 3 discharge
Combustion gas flows through high-temperature heat exchanger 7, heater 12 and the second low temperature heat exchanger 13 progressively heat release successively, externally arranges afterwards
Put;Heated medium enters the second decompressor 6 blood pressure lowering work done, and the heated medium of the second decompressor 6 discharge flows through Low Temperature Thermal and hands over
Parallel operation 8 simultaneously absorbs heat, and enters the second compressor 4 boosting afterwards and heats up;The heated medium of the second compressor 4 discharge flows through high warm
Exchanger 7 simultaneously absorbs heat, and enters decompressor 5 blood pressure lowering work done afterwards and externally discharges;Low-temperature heat medium flows through the second low temperature heat exchange
Device 13 simultaneously absorbs heat, and flows through low temperature heat exchanger 8 afterwards and absorbs heat;The work(of gas turbine 3, decompressor 5 and the second decompressor 6 output
It is supplied to compressor 1 and the second compressor 4 is used as power, fuel passes through burning provides high warm load, middle warm load and low temperature
Thermic load, heated medium passes through to pass in and out warm load during flow process obtains, and low-temperature heat medium is provided low by low temperature heat exchanger 8
Warm load, forms first kind thermal drivers compression heat pump.
The compression heat pump of first kind thermal drivers shown in Figure 11 is realized in:
(1), in structure, it is mainly by compressor, combustor, gas turbine, the second compressor, decompressor, the second expansion
Machine, high-temperature heat exchanger, low temperature heat exchanger and high temperature regenerator are formed;Outside has air duct to connect with compressor 1, pressure
Contracting machine 1 also has compressed air channel to connect with combustor 2 through high temperature regenerator 15, and combustor 2 also has fuel channel to connect with outside
Logical, combustor 2 also has blast tube to connect with gas turbine 3, gas turbine 3 also have blast tube successively through high temperature regenerator with
High-temperature heat exchanger 7 and ft connection, outside has heated medium passage to connect with the second decompressor 6, and the second decompressor 6 also has
Heated medium passage is connected with the second compressor 4 through low temperature heat exchanger 8, and the second compressor 4 also has heated medium passage
Connect with decompressor 5 through high-temperature heat exchanger 7, decompressor 5 also has heated medium passage and ft connection, low temperature heat exchanger
8 also have low-temperature heat medium passage and ft connection, and gas turbine 3, decompressor 5 and the second decompressor 6 connect compressor 1 and second
Compressor 4 simultaneously transmits power.
(2), in flow process, air stream flows through high temperature regenerator 15 after heating up through compressor 1 boosting and absorbs heat, and enters afterwards
Combustor 2;External fuel is entered combustor 2 and is mixed and burn into high-temperature fuel gas with compressed air, and high-temperature fuel gas enter combustion gas wheel
Machine 3 blood pressure lowering work done, the combustion gas of gas turbine 3 discharge flows through high temperature regenerator 15 and high-temperature heat exchanger 7 progressively heat release successively,
Externally discharge afterwards;Heated medium enters the second decompressor 6 blood pressure lowering work done, the heated medium stream of the second decompressor 6 discharge
Through low temperature heat exchanger 8 and absorb heat, enter the second compressor 4 boosting afterwards and heat up;The heated medium of the second compressor 4 discharge
Flow through high-temperature heat exchanger 7 and absorb heat, enter decompressor 5 blood pressure lowering work done afterwards and externally discharge;Gas turbine 3, decompressor 5 and
The work(of the second decompressor 6 output is supplied to compressor 1 and the second compressor 4 is used as power, and fuel passes through burning provides high warm negative
Lotus, heated medium passes through to pass in and out warm load during flow process obtains, and low-temperature heat medium provides Low Temperature Thermal by low temperature heat exchanger 8
Load, forms first kind thermal drivers compression heat pump.
The compression heat pump of first kind thermal drivers shown in Figure 12 is realized in:
(1) in structure, in the compression heat pump of first kind thermal drivers shown in Fig. 1, cancel the outside combustion connecting with combustor 2
Material passage, increases new compressor, and outside has fuel gas passage to connect with new compressor 16, and new compressor 16 also has presses
Contracting fuel gas passage is connected with combustor 2, and gas turbine 3 connects new compressor 16 and transmits power.
(2), in flow process, air enters after compressor 1 boosting heats up and enters combustor 2, and fuel gas flows through newly-increased compression
Machine 16 boosting is entered combustor 2 after heating up and is mixed and burn into high-temperature fuel gas with compressed air, and high-temperature fuel gas enter combustion gas wheel
Machine 3 blood pressure lowering work done, the combustion gas of gas turbine 3 discharge flows through high-temperature heat exchanger 7 heat release, externally discharges afterwards;Heated Jie
Matter enters the second decompressor 6 blood pressure lowering work done, and the heated medium of the second decompressor 6 discharge flows through low temperature heat exchanger 8 and absorbs heat,
Enter the second compressor 4 boosting afterwards to heat up;The heated medium of the second compressor 4 discharge flows through high-temperature heat exchanger 7 and inhales
Heat, enters decompressor 5 blood pressure lowering work done afterwards and externally discharges;The work(of gas turbine 3, decompressor 5 and the second decompressor 6 output carries
Supply compressor 1, the second compressor 4 and new compressor 16 are used as power, and fuel passes through burning provides high warm load, are heated
Medium passes through to pass in and out warm load during flow process obtains, and low-temperature heat medium provides low temperature thermic load by low temperature heat exchanger 8, is formed
First kind thermal drivers compression heat pump.
Effect that the technology of the present invention can be realized first kind thermal drivers compression heat pump proposed by the invention, has
Following effect and advantage:
(1) propose and directly make, using fuel, new approaches and the new technique that the temperature difference in the case of drive energy utilizes.
(2) heat energy (temperature difference) drives, and realizes heat supply/refrigeration, or may be selected externally to provide power simultaneously.
(3) flow process rationally, is capable of the abundant of heat energy (temperature difference) and efficient utilization.
(4) if necessary, realize heat supply/refrigeration by external impetus, flexibly, adaptability is good for mode.
(5) with compressor, decompressor and heat exchanger for compression heat pump building block, structure is simple.
(6) realize the temperature difference by gas-turbine installation and high-temperature heat exchanger respectively to utilize, improve temperature difference producing level.
(7) heated medium is directly used as working medium, and the performance index heating or freezing is higher.
(8) provide multiple concrete technical schemes, cope with numerous different actual states, have the wider scope of application.
(9) extend heat pump techniques, enrich the type of compression heat pump, be conducive to being better achieved the efficient profit of heat energy
With.
Claims (23)
1. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger and low temperature heat exchanger are formed;Outside has air duct to connect with compressor (1), pressure
Contracting machine (1) also has compressed air channel to connect with combustor (2), and combustor (2) also has fuel channel and ft connection, combustor
(2) blast tube is also had to connect with gas turbine (3), gas turbine (3) also has blast tube through high-temperature heat exchanger (7) with outward
Portion connects, and outside has heated medium passage to connect with the second decompressor (6), and the second decompressor (6) also has heated medium to lead to
Road is connected with the second compressor (4) through low temperature heat exchanger (8), and the second compressor (4) also has heated medium passage through high temperature
Heat exchanger (7) is connected with decompressor (5), and decompressor (5) also has heated medium passage and ft connection, low temperature heat exchanger
(8) also have low-temperature heat medium passage and ft connection, gas turbine (3), decompressor (5) and the second decompressor (6) connect compression
Machine (1) and the second compressor (4) simultaneously transmit power, form first kind thermal drivers compression heat pump.
2. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd compressor and the second high-temperature heat exchanger are formed;Outside
Air duct is had to connect with compressor (1), compressor (1) also has compressed air channel to connect with combustor (2), combustor (2)
Also have fuel channel and ft connection, combustor (2) also has blast tube to connect with gas turbine (3), and gas turbine (3) also has
Successively through the second high-temperature heat exchanger (10) and high-temperature heat exchanger (7) and ft connection, there is heated Jie outside to blast tube
Matter passage is connected with the second decompressor (6), the second decompressor (6) also have heated medium passage through low temperature heat exchanger (8) with
Second compressor (4) connects, and the second compressor (4) also has heated medium passage through high-temperature heat exchanger (7) and the 3rd compression
Machine (9) connects, and the 3rd compressor (9) also has heated medium passage through the second high-temperature heat exchanger (10) with decompressor (5) even
Logical, decompressor (5) also has heated medium passage and ft connection, low temperature heat exchanger (8) also have low-temperature heat medium passage with
Ft connection, gas turbine (3), decompressor (5) and the second decompressor (6) connect compressor (1), the second compressor (4) and the
Three compressors (9) simultaneously transmit power, form first kind thermal drivers compression heat pump.
3. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the second high-temperature heat exchanger and the 3rd decompressor are formed;Outside
Air duct is had to connect with compressor (1), compressor (1) also has compressed air channel to connect with combustor (2), combustor (2)
Also have fuel channel and ft connection, combustor (2) also has blast tube to connect with gas turbine (3), and gas turbine (3) also has
Successively through the second high-temperature heat exchanger (10) and high-temperature heat exchanger (7) and ft connection, there is heated Jie outside to blast tube
Matter passage is connected with the 3rd decompressor (11), and the 3rd decompressor (11) also has heated medium passage through low temperature heat exchanger (8)
Connect with the second compressor (4), the second compressor (4) also has heated medium passage through high-temperature heat exchanger (7) and decompressor
(5) connect, decompressor (5) also has heated medium passage to connect with the second decompressor (6) through the second high-temperature heat exchanger (10),
Second decompressor (6) also have heated medium passage and ft connection, low temperature heat exchanger (8) also have low-temperature heat medium passage with
Ft connection, gas turbine (3), decompressor (5), the second decompressor (6) and the 3rd decompressor (11) connect compressor (1) and the
Two compressors (4) simultaneously transmit power, form first kind thermal drivers compression heat pump.
4. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd decompressor and heater are formed;There is air duct outside
Connect with compressor (1), compressor (1) also has compressed air channel to connect with combustor (2), combustor (2) also has fuel to lead to
Road and ft connection, combustor (2) also has blast tube to connect with gas turbine (3), and gas turbine (3) also has blast tube warp
High-temperature heat exchanger (7) and ft connection, outside has heated medium passage to connect with the 3rd decompressor (11), the 3rd decompressor
(11) heated medium passage is also had to connect with the second compressor (4) through low temperature heat exchanger (8), the second compressor (4) also has
Heated medium passage is connected with decompressor (5) through high-temperature heat exchanger (7), and decompressor (5) also has heated medium passage warp
Heater (12) is connected with the second decompressor (6), and the second decompressor (6) also has heated medium passage through heater (12) with outward
Portion connect, low temperature heat exchanger (8) also have low-temperature heat medium passage and ft connection, gas turbine (3), decompressor (5), second
Decompressor (6) and the 3rd decompressor (11) connect compressor (1) and the second compressor (4) and transmit power, form first kind heat
Drive compression heat pump.
5. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd compressor and heater are formed;There is air duct outside
Connect with compressor (1), compressor (1) also has compressed air channel to connect with combustor (2), combustor (2) also has fuel to lead to
Road and ft connection, combustor (2) also has blast tube to connect with gas turbine (3), and gas turbine (3) also has blast tube warp
High-temperature heat exchanger (7) and ft connection, outside has heated medium passage to connect with the second decompressor (6), the second decompressor
(6) heated medium passage is also had to connect with the second compressor (4) through low temperature heat exchanger (8), the second compressor (4) also has quilt
Heating medium passage is connected with decompressor (5) through high-temperature heat exchanger (7), and decompressor (5) also has heated medium passage through supplying
Hot device (12) is connected with the 3rd compressor (9), and the 3rd compressor (9) also has heated medium passage through heater (12) and outside
Connection, low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection, gas turbine (3), decompressor (5) and second
Decompressor (6) connects compressor (1), the second compressor (4) and the 3rd compressor (9) and transmits power, forms first kind heat and drives
Dynamic compression heat pump.
6. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd decompressor and the second low temperature heat exchanger are formed;Outside
Air duct is had to connect with compressor (1), compressor (1) also has compressed air channel to connect with combustor (2), combustor (2)
Also have fuel channel and ft connection, combustor (2) also has blast tube to connect with gas turbine (3), and gas turbine (3) also has
Through high-temperature heat exchanger (7) and ft connection, outside has heated medium passage to connect with the second decompressor (6) to blast tube,
Second decompressor (6) also has heated medium passage to connect with the 3rd decompressor (11) through low temperature heat exchanger (8), the 3rd expansion
Machine (11) also has heated medium passage to connect with the second compressor (4) through the second low temperature heat exchanger (13), the second compressor
(4) heated medium passage is also had to connect with decompressor (5) through high-temperature heat exchanger (7), decompressor (5) also has heated medium
Passage and ft connection, low temperature heat exchanger (8) and the second low temperature heat exchanger (13) also have respectively low-temperature heat medium passage with
Ft connection, gas turbine (3), decompressor (5), the second decompressor (6) and the 3rd decompressor (11) connect compressor (1) and the
Two compressors (4) simultaneously transmit power, form first kind thermal drivers compression heat pump.
7. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger and regenerator are formed;There are air duct and compressor (1) in outside
Connection, compressor (1) also has compressed air channel to connect with combustor (2), and combustor (2) also has fuel channel to connect with outside
Logical, combustor (2) also has blast tube to connect with gas turbine (3), and gas turbine (3) also has blast tube through high temperature heat exchange
Device (7) and ft connection, outside has heated medium passage to connect with the second decompressor (6), and the second decompressor (6) is also added
Hot media channel is connected with the second compressor (4) through low temperature heat exchanger (8), and the second compressor (4) also has heated medium to lead to
Road is connected with decompressor (5) with high-temperature heat exchanger (7) through regenerator (14) successively, and decompressor (5) also has heated medium to lead to
Road also has low-temperature heat medium passage and ft connection, gas turbine through regenerator (14) and ft connection, low temperature heat exchanger (8)
(3), decompressor (5) and the second decompressor (6) connect compressor (1) and the second compressor (4) and transmit power, form the first kind
Thermal drivers compression heat pump.
8. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger and regenerator are formed;There are air duct and compressor (1) in outside
Connection, compressor (1) also has compressed air channel to connect with combustor (2), and combustor (2) also has fuel channel to connect with outside
Logical, combustor (2) also has blast tube to connect with gas turbine (3), and gas turbine (3) also has blast tube through high temperature heat exchange
Device (7) and ft connection, outside has heated medium passage to connect with the second decompressor (6) through regenerator (14), the second expansion
Machine (6) also has heated medium passage to connect with the second compressor (4) with regenerator (14) through low temperature heat exchanger (8) successively,
Second compressor (4) also has heated medium passage to connect with decompressor (5) through high-temperature heat exchanger (7), and decompressor (5) also has
Heated medium passage and ft connection, low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection, gas turbine
(3), decompressor (5) and the second decompressor (6) connect compressor (1) and the second compressor (4) and transmit power, form the first kind
Thermal drivers compression heat pump.
9. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger and heater are formed;There are air duct and compressor (1) in outside
Connection, compressor (1) also has compressed air channel to connect with combustor (2), and combustor (2) also has fuel channel to connect with outside
Logical, combustor (2) also has blast tube to connect with gas turbine (3), and gas turbine (3) also has blast tube successively through high warm
Exchanger (7) and heater (12) and ft connection, outside has heated medium passage to connect with the second decompressor (6), and second
Decompressor (6) also has heated medium passage to connect with the second compressor (4) through low temperature heat exchanger (8), the second compressor (4)
Heated medium passage is also had to connect with decompressor (5) through high-temperature heat exchanger (7), decompressor (5) also has heated medium to lead to
Road and ft connection, low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection, and heater (12) also has heated
Medium channel and ft connection, gas turbine (3), decompressor (5) and the second decompressor (6) connect compressor (1) and the second pressure
Contracting machine (4) simultaneously transmits power, forms first kind thermal drivers compression heat pump.
10. first kind thermal drivers compression heat pump, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, heater and the second low temperature heat exchanger are formed;Outside free
Gas passage is connected with compressor (1), and compressor (1) also has compressed air channel to connect with combustor (2), and combustor (2) also has
Fuel channel and ft connection, combustor (2) also has blast tube to connect with gas turbine (3), and gas turbine (3) also has combustion gas
Passage successively through high-temperature heat exchanger (7), heater (12) and the second low temperature heat exchanger (13) and ft connection, outside have by
Heating medium passage is connected with the second decompressor (6), and the second decompressor (6) also has heated medium passage through low temperature heat exchanger
(8) connect with the second compressor (4), the second compressor (4) also has heated medium passage through high-temperature heat exchanger (7) and expansion
Machine (5) connects, and decompressor (5) also has heated medium passage and ft connection, and outside also have low-temperature heat medium passage warp successively
Second low temperature heat exchanger (13) and low temperature heat exchanger (8) and ft connection, heater (12) also has heated medium passage
With ft connection, gas turbine (3), decompressor (5) and the second decompressor (6) connect compressor (1) and the second compressor (4) and
Transmission power, forms first kind thermal drivers compression heat pump.
11. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger and high temperature regenerator are formed;There are air duct and compressor in outside
(1) connect, compressor (1) also has compressed air channel to connect with combustor (2) through high temperature regenerator (15), combustor (2) is also
There are fuel channel and ft connection, combustor (2) also has blast tube to connect with gas turbine (3), and gas turbine (3) also has combustion
Gas passage successively with high temperature regenerator and high-temperature heat exchanger (7) and ft connection, there are heated medium passage and second in outside
Decompressor (6) connects, and the second decompressor (6) also has heated medium passage through low temperature heat exchanger (8) and the second compressor (4)
Connection, the second compressor (4) also has heated medium passage to connect with decompressor (5) through high-temperature heat exchanger (7), decompressor
(5) also have heated medium passage and ft connection, low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection,
Gas turbine (3), decompressor (5) and the second decompressor (6) connect compressor (1) and the second compressor (4) and transmit power, shape
Become first kind thermal drivers compression heat pump.
12. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd compressor, the second high-temperature heat exchanger and high temperature regenerator
Formed;Outside has air duct to connect with compressor (1), and compressor (1) also has compressed air channel through high temperature regenerator
(15) connect with combustor (2), combustor (2) also has fuel channel and ft connection, combustor (2) also has blast tube and combustion
Gas-turbine (3) connects, and gas turbine (3) also has blast tube successively through high temperature regenerator (15), the second high-temperature heat exchanger
(10) and high-temperature heat exchanger (7) and ft connection, outside has heated medium passage to connect with the second decompressor (6), and second
Decompressor (6) also has heated medium passage to connect with the second compressor (4) through low temperature heat exchanger (8), the second compressor (4)
Heated medium passage is also had to connect with the 3rd compressor (9) through high-temperature heat exchanger (7), the 3rd compressor (9) is also added
Hot media channel is connected with decompressor (5) through the second high-temperature heat exchanger (10), decompressor (5) also have heated medium passage with
Ft connection, low temperature heat exchanger (8) also have low-temperature heat medium passage and ft connection, gas turbine (3), decompressor (5) and
Second decompressor (6) connects compressor (1), the second compressor (4) and the 3rd compressor (9) and transmits power, forms the first kind
Thermal drivers compression heat pump.
13. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the second high-temperature heat exchanger, the 3rd decompressor and high temperature regenerator
Formed;Outside has air duct to connect with compressor (1), and compressor (1) also has compressed air channel through high temperature regenerator
(15) connect with combustor (2), combustor (2) also has fuel channel and ft connection, combustor (2) also has blast tube and combustion
Gas-turbine (3) connects, and gas turbine (3) also has blast tube successively through high temperature regenerator (15), the second high-temperature heat exchanger
(10) and high-temperature heat exchanger (7) and ft connection, outside has heated medium passage to connect with the 3rd decompressor (11), and the 3rd
Decompressor (11) also has heated medium passage to connect with the second compressor (4) through low temperature heat exchanger (8), the second compressor
(4) heated medium passage is also had to connect with decompressor (5) through high-temperature heat exchanger (7), decompressor (5) also has heated medium
Passage is connected with the second decompressor (6) through the second high-temperature heat exchanger (10), and the second decompressor (6) also has heated medium passage
With ft connection, low temperature heat exchanger (8) also have low-temperature heat medium passage and ft connection, gas turbine (3), decompressor (5),
Second decompressor (6) and the 3rd decompressor (11) connect compressor (1) and the second compressor (4) and transmit power, form first
Class thermal drivers compression heat pump.
14. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd decompressor, heater and high temperature regenerator are formed;Outside
Air duct is had to connect with compressor (1), compressor (1) also has compressed air channel through high temperature regenerator (15) and combustor
(2) connect, combustor (2) also has fuel channel and ft connection, combustor (2) also has blast tube with gas turbine (3) even
Logical, gas turbine (3) also has blast tube successively through high temperature regenerator (15) and high-temperature heat exchanger (7) and ft connection, outward
Portion has heated medium passage to connect with the 3rd decompressor (11), and the 3rd decompressor (11) also has heated medium passage through low temperature
Heat exchanger (8) is connected with the second compressor (4), and the second compressor (4) also has heated medium passage through high-temperature heat exchanger
(7) connect with decompressor (5), decompressor (5) also has heated medium passage through heater (12) with the second decompressor (6) even
Logical, the second decompressor (6) also has heated medium passage through heater (12) and ft connection, and low temperature heat exchanger (8) also has
Low-temperature heat medium passage and ft connection, gas turbine (3), decompressor (5), the second decompressor (6) and the 3rd decompressor (11)
Connect compressor (1) and the second compressor (4) and transmit power, form first kind thermal drivers compression heat pump.
15. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd compressor, heater and high temperature regenerator are formed;Outside
Air duct is had to connect with compressor (1), compressor (1) also has compressed air channel through high temperature regenerator (15) and combustor
(2) connect, combustor (2) also has fuel channel and ft connection, combustor (2) also has blast tube with gas turbine (3) even
Logical, gas turbine (3) also has blast tube successively through high temperature regenerator (15) and high-temperature heat exchanger (7) and ft connection, outward
Portion has heated medium passage to connect with the second decompressor (6), and the second decompressor (6) also has heated medium passage through Low Temperature Thermal
Exchanger (8) is connected with the second compressor (4), and the second compressor (4) also has heated medium passage through high-temperature heat exchanger (7)
Connect with decompressor (5), decompressor (5) also has heated medium passage to connect with the 3rd compressor (9) through heater (12), the
Three compressors (9) also have heated medium passage through heater (12) and ft connection, and low temperature heat exchanger (8) also has Low Temperature Thermal
Medium channel and ft connection, gas turbine (3), decompressor (5) and the second decompressor (6) connect compressor (1), the second compression
Machine (4) and the 3rd compressor (9) simultaneously transmit power, form first kind thermal drivers compression heat pump.
16. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, the 3rd decompressor, the second low temperature heat exchanger and high temperature regenerator
Formed;Outside has air duct to connect with compressor (1), and compressor (1) also has compressed air channel through high temperature regenerator
(15) connect with combustor (2), combustor (2) also has fuel channel and ft connection, combustor (2) also has blast tube and combustion
Gas-turbine (3) connects, gas turbine (3) also have blast tube successively through high temperature regenerator (15) and high-temperature heat exchanger (7) and
Ft connection, outside has heated medium passage to connect with the second decompressor (6), and the second decompressor (6) also has heated medium
Passage is connected with the 3rd decompressor (11) through low temperature heat exchanger (8), and the 3rd decompressor (11) also has heated medium passage warp
Second low temperature heat exchanger (13) is connected with the second compressor (4), and the second compressor (4) also has heated medium passage through high temperature
Heat exchanger (7) is connected with decompressor (5), and decompressor (5) also has heated medium passage and ft connection, low temperature heat exchanger
(8) and the second low temperature heat exchanger (13) also has low-temperature heat medium passage and ft connection, gas turbine (3), decompressor respectively
(5), the second decompressor (6) and the 3rd decompressor (11) connect compressor (1) and the second compressor (4) and transmit power, are formed
First kind thermal drivers compression heat pump.
17. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, regenerator and high temperature regenerator are formed;There is air duct outside
Connect with compressor (1), compressor (1) also has compressed air channel to connect with combustor (2) through high temperature regenerator (15), burning
Room (2) also has fuel channel and ft connection, and combustor (2) also has blast tube to connect with gas turbine (3), gas turbine
(3) also has blast tube successively through high temperature regenerator (15) and high-temperature heat exchanger (7) and ft connection, there is heated Jie outside
Matter passage is connected with the second decompressor (6), the second decompressor (6) also have heated medium passage through low temperature heat exchanger (8) with
Second compressor (4) connects, and the second compressor (4) also has heated medium passage successively through regenerator (14) and high temperature heat exchange
Device (7) is connected with decompressor (5), and decompressor (5) also has heated medium passage through regenerator (14) and ft connection, Low Temperature Thermal
Exchanger (8) also has low-temperature heat medium passage and ft connection, and gas turbine (3), decompressor (5) and the second decompressor (6) are even
Connect compressor (1) and the second compressor (4) and transmit power, form first kind thermal drivers compression heat pump.
18. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, regenerator and high temperature regenerator are formed;There is air duct outside
Connect with compressor (1), compressor (1) also has compressed air channel to connect with combustor (2) through high temperature regenerator (15), burning
Room (2) also has fuel channel and ft connection, and combustor (2) also has blast tube to connect with gas turbine (3), gas turbine
(3) also has blast tube successively through high temperature regenerator (15) and high-temperature heat exchanger (7) and ft connection, there is heated Jie outside
Matter passage is connected with the second decompressor (6) through regenerator (14), and the second decompressor (6) also has heated medium passage successively through low
Temperature heat exchanger (8) is connected with the second compressor (4) with regenerator (14), and the second compressor (4) also has heated medium passage
Connect with decompressor (5) through high-temperature heat exchanger (7), decompressor (5) also has heated medium passage and ft connection, Low Temperature Thermal
Exchanger (8) also has low-temperature heat medium passage and ft connection, and gas turbine (3), decompressor (5) and the second decompressor (6) are even
Connect compressor (1) and the second compressor (4) and transmit power, form first kind thermal drivers compression heat pump.
19. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, heater and high temperature regenerator are formed;There is air duct outside
Connect with compressor (1), compressor (1) also has compressed air channel to connect with combustor (2) through high temperature regenerator (15), burning
Room (2) also has fuel channel and ft connection, and combustor (2) also has blast tube to connect with gas turbine (3), gas turbine
(3) also has blast tube successively through high temperature regenerator (15), high-temperature heat exchanger (7) and heater (12) and ft connection, outward
Portion has heated medium passage to connect with the second decompressor (6), and the second decompressor (6) also has heated medium passage through Low Temperature Thermal
Exchanger (8) is connected with the second compressor (4), and the second compressor (4) also has heated medium passage through high-temperature heat exchanger (7)
Connect with decompressor (5), decompressor (5) also has heated medium passage and ft connection, low temperature heat exchanger (8) also has low temperature
Hot media channel and ft connection, heater (12) also has heated medium passage and ft connection, gas turbine (3), expansion
Machine (5) and the second decompressor (6) connect compressor (1) and the second compressor (4) and transmit power, form first kind thermal drivers pressure
Contracting formula heat pump.
20. first kind thermal drivers compression heat pumps, mainly by compressor, combustor, gas turbine, the second compressor, decompressor,
Second decompressor, high-temperature heat exchanger, low temperature heat exchanger, heater, the second low temperature heat exchanger and high temperature regenerator institute group
Become;Outside has air duct to connect with compressor (1), compressor (1) also have compressed air channel through high temperature regenerator (15) with
Combustor (2) connects, and combustor (2) also has fuel channel and ft connection, and combustor (2) also has blast tube and gas turbine
(3) connect, gas turbine (3) also has blast tube successively through high temperature regenerator (15), high-temperature heat exchanger (7), heater
(12) and the second low temperature heat exchanger (13) and ft connection, outside has heated medium passage to connect with the second decompressor (6),
Second decompressor (6) also has heated medium passage to connect with the second compressor (4) through low temperature heat exchanger (8), the second compression
Machine (4) also has heated medium passage to connect with decompressor (5) through high-temperature heat exchanger (7), and decompressor (5) also has heated Jie
Matter passage and ft connection, outside also have low-temperature heat medium passage successively through the second low temperature heat exchanger (13) and low temperature heat exchange
Device (8) and ft connection, heater (12) also has heated medium passage and ft connection, gas turbine (3), decompressor (5)
Connect compressor (1) and the second compressor (4) with the second decompressor (6) and transmit power, form first kind thermal drivers compression
Heat pump.
21. first kind thermal drivers compression heat pumps, are the arbitrary first kind thermal drivers compression type heats described in claim 1-20
In pump, cancel the outside fuel channel connecting with combustor (2), increase new compressor, there is fuel gas passage outside with newly
Increase compressor (16) connection, new compressor (16) also has compressed gaseous fuel channel to connect with combustor (2), gas turbine
(3) connect new compressor (16) and transmit power, form first kind thermal drivers compressing-absorbing type heat pump.
22. first kind thermal drivers compression heat pumps, are the arbitrary first kind thermal drivers compression type heats described in claim 1-21
In pump, increase engine, engine connects the second compressor (4) and provides power to the second compressor (4), forms additional external
Power-actuated first kind thermal drivers compression heat pump.
23. first kind thermal drivers compression heat pumps, are the arbitrary first kind thermal drivers compression type heats described in claim 1-21
In pump, increase working machine, gas turbine (3) connects working machine and provides power to working machine, being formed to add externally provides power
The first kind thermal drivers compression heat pump of load.
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CN109059349A (en) * | 2018-06-19 | 2018-12-21 | 李华玉 | First kind thermal drivers compression heat pump |
CN110345664A (en) * | 2018-06-29 | 2019-10-18 | 李华玉 | Combined cycle heat pump assembly |
CN110440479A (en) * | 2018-07-01 | 2019-11-12 | 李华玉 | Combined cycle heat pump assembly |
CN110440482A (en) * | 2018-07-01 | 2019-11-12 | 李华玉 | Combined cycle heat pump assembly |
CN110542242A (en) * | 2018-05-20 | 2019-12-06 | 李华玉 | combined cycle heat pump device |
CN111141065A (en) * | 2018-08-20 | 2020-05-12 | 李华玉 | Combined cycle heat pump device |
CN111189260A (en) * | 2018-08-20 | 2020-05-22 | 李华玉 | Combined cycle heat pump device |
CN111238081A (en) * | 2018-08-20 | 2020-06-05 | 李华玉 | Combined cycle heat pump device |
CN111721027A (en) * | 2019-01-07 | 2020-09-29 | 李华玉 | First-class thermally-driven compression heat pump |
CN115265001A (en) * | 2019-10-25 | 2022-11-01 | 李华玉 | First-class thermally driven compression heat pump |
Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN86104890A (en) * | 1986-07-31 | 1988-02-10 | 通用电气公司 | The thermodynamic conversion system of air circulation |
CN1137094A (en) * | 1995-05-26 | 1996-12-04 | 王一况 | Open cycle air-compressive or expansive refrigerator |
US5833446A (en) * | 1996-01-31 | 1998-11-10 | Carrier Corporation | Deriving mechanical power by expanding a liquid to its vapour |
CN2365605Y (en) * | 1998-01-07 | 2000-02-23 | 周劲松 | Energy-saving device for refrigerator |
CN1952529A (en) * | 2005-10-19 | 2007-04-25 | 周凌云 | Refrigeration apparatus and its operation method |
CN101158486A (en) * | 2007-03-28 | 2008-04-09 | 宋学让 | High-energy effect heating machine |
CN101504205A (en) * | 2009-02-26 | 2009-08-12 | 李华玉 | Segmented compression-segmented heat supply-segmented expansion gas compression type units |
CN101871683A (en) * | 2010-07-06 | 2010-10-27 | 张金铭 | Compressed air air-conditioner |
-
2016
- 2016-08-30 CN CN201610815421.9A patent/CN106440511B/en active Active
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN86104890A (en) * | 1986-07-31 | 1988-02-10 | 通用电气公司 | The thermodynamic conversion system of air circulation |
CN1137094A (en) * | 1995-05-26 | 1996-12-04 | 王一况 | Open cycle air-compressive or expansive refrigerator |
US5833446A (en) * | 1996-01-31 | 1998-11-10 | Carrier Corporation | Deriving mechanical power by expanding a liquid to its vapour |
CN2365605Y (en) * | 1998-01-07 | 2000-02-23 | 周劲松 | Energy-saving device for refrigerator |
CN1952529A (en) * | 2005-10-19 | 2007-04-25 | 周凌云 | Refrigeration apparatus and its operation method |
CN101158486A (en) * | 2007-03-28 | 2008-04-09 | 宋学让 | High-energy effect heating machine |
CN101504205A (en) * | 2009-02-26 | 2009-08-12 | 李华玉 | Segmented compression-segmented heat supply-segmented expansion gas compression type units |
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