CN104963732B - Combined cycle energy supplying system - Google Patents
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- CN104963732B CN104963732B CN201510297514.2A CN201510297514A CN104963732B CN 104963732 B CN104963732 B CN 104963732B CN 201510297514 A CN201510297514 A CN 201510297514A CN 104963732 B CN104963732 B CN 104963732B
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Abstract
The present invention provides combined cycle energy supplying system, belongs to heat energy utilization and technical field of heat pumps.Compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compressor, the second condenser, evaporator, cryogenic throttle valve, the second cryogenic throttle valve and low temperature heat exchanger constitute compression reverse circulation system, and absorber, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system;Air-steam forward circulation provides power to compression reverse circulation, provides driving thermic load to absorption reverse circulation, compression reverse circulation obtains low temperature thermic load and passes through the external heat supply of the second condenser respectively and pass through evaporator to absorption reverse circulation heat supply, absorption reverse circulation forms combined cycle energy supplying system by absorber and the external heat supply of condenser.
Description
Technical field:
The invention belongs to power, refrigeration and technical field of heat pumps.
Background technique:
Exist in the system that fuel carries out heat supply by burning, between the combustion gas and heated medium of formation of burning very big
The temperature difference;In the system directly freezed using fuel by burning, the combustion gas for formation of burning and refrigerating plant work are situated between
The very big temperature difference is equally existed between matter;In the distributed energy resource system for providing heat source using fuel combustion, power provides real
It is a restricted additional conditions on border, and many times remains the situation that the temperature difference cannot make full use of.Summarize difficulty
To realize situation that thermal energy efficiently utilizes, can mainly be summarized as six aspects: 1. without living load in the case of, combustion gas and quilt
There are the unserviceable big temperature difference between heat medium, it cannot achieve thermal energy and efficiently utilize;2. configure absorption heat pump, by
The limitation in absorption heat pump working media operating temperature section drives between combustion gas and absorption heat pump working media and exists greatly
The temperature difference, the temperature difference utilize unreasonable;3. configuring waste heat boiler, combustion gas provides sensible heat to waste heat boiler, exists in steam generation link
The larger temperature difference;When using steam drive absorption heat pump, this will lead to the temperature difference using unreasonable;4. Low Temperature Thermal resource shortage,
The thermal energy in environment is difficult to be utilized;5. the heat of suitable absorption heat pump unit can not be found when low temperature thermal resource temperature is very low
Power performance and all satisfactory working media of security performance;6. when inferior fuel, gas-turbine installation cannot be directlyed adopt
Realize the reasonable utilization of high temperature heat.
In view of the above problems, inventor proposes combined cycle energy supplying system, by air-steam combined cycle power plant
Mechanical energy is converted by the high temperature heat of combustion gas, mechanical energy drives compression reverse circulation or externally provides power simultaneously, empty
Gas-Steam Combined Cycle device waste heat load drives absorption reverse circulation, by compression reverse circulation and absorption reverse
Circulation obtains and is promoted the temperature of low-grade heat load, reduces the limiting factor that thermal energy efficiently utilizes, and realize inferior fuel feelings
Efficient heating and highly effective refrigeration under condition.
Summary of the invention:
Present invention is primarily intended to combined cycle energy supplying system to be provided, specific summary of the invention subitem is described below:
1. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulation
Pump, heat exchanger, compressor, cryogenic throttle valve, low temperature heat exchanger, evaporator, absorber, generator, condenser, throttling
Valve, solution pump and solution heat exchanger are formed;Compressor has air duct to be connected to outside, and there are also compressed airs for compressor
Boiler has compressed air channel to be connected to air turbine again after channel is connected to boiler, and there are also fuel and air channels for boiler
Be connected to outside, there are also blast tubes to be connected to waste heat boiler for boiler, and there are also air ducts and waste heat boiler company for air turbine
Logical, generator has mixed-gas channel to be connected to outside again after waste heat boiler is connected to there are also mixed-gas channel with generator,
Steam turbine has low-pressure steam channel to be connected to heat exchanger, heat exchanger there are also condensate liquid pipelines be connected to circulating pump after follow
Ring pump has condensate liquid pipeline be connected to waste heat boiler again, and there are also high steam channels to be connected to steam turbine for waste heat boiler, hot friendship
Parallel operation there are also heated medium pipeline with outside be connected to;The finisher that compressor has refrigerant steam channel to be connected to evaporator is again
There is cryogen liquid pipeline to be connected to through cryogenic throttle valve with low temperature heat exchanger, there are also refrigerant steam channels and compression for low temperature heat exchanger
Machine connection, there are also cryogenic media pipelines to be connected to external for low temperature heat exchanger;There are also refrigerant steam channels and absorber for evaporator
Connection, there are also weak solution pipelines to be connected to through solution pump and solution heat exchanger with generator for absorber, and there are also concentrated solutions for generator
Pipeline is connected to through solution heat exchanger with absorber, and there are also refrigerant steam channels to be connected to condenser for generator, and condenser is also
Cryogen liquid pipeline is connected to through throttle valve with evaporator, and absorber and condenser also have heated medium pipeline to connect with outside respectively
It is logical;It is positive that compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam
The circulatory system, compressor, evaporator, cryogenic throttle valve and low temperature heat exchanger constitute compression reverse circulation system, absorb
Device, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system;It is empty
Gas-steam forward circulation to compression reverse circulation provide power or simultaneously externally provide power, air-steam forward circulation to
Absorption reverse circulation provides driving thermic load, and compression reverse circulation obtains low temperature thermic load and by evaporator to absorption
Reverse circulation heat supply, absorption reverse circulation form combined cycle energy supplying system by absorber and the external heat supply of condenser.
It is to increase by the second compressor in the combined cycle energy supplying system described in the 1st 2. combined cycle energy supplying system,
There is cryogen liquid pipeline through cryogenic throttle valve and low temperature again the finisher that compressor has refrigerant steam channel to be connected to evaporator
The finisher that heat exchanger connection is adjusted to compressor and has refrigerant steam channel to be connected to evaporator has refrigerant steam channel again
It is connected to the second compressor, there are also the finishers that refrigerant steam channel is connected to evaporator cryogen liquid again for the second compressor
Pipeline is connected to through cryogenic throttle valve with low temperature heat exchanger, forms combined cycle energy supplying system.
3. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulation
Pump, heat exchanger, compressor, the second condenser, cryogenic throttle valve, low temperature heat exchanger, evaporator, absorber, generator,
Condenser, throttle valve, solution pump and solution heat exchanger are formed;Compressor has air duct to be connected to outside, and compressor is also
Boiler has compressed air channel to be connected to air turbine again after having compressed air channel to be connected to boiler, and there are also fuel for boiler
Be connected to air duct with outside, there are also blast tubes to be connected to waste heat boiler for boiler, air turbine there are also air duct with it is remaining
Heat boiler connection, after waste heat boiler is connected to there are also mixed-gas channel with generator generator have again mixed-gas channel and
Outside connection, steam turbine have low-pressure steam channel to be connected to heat exchanger, and there are also condensate liquid pipeline and circulating pumps for heat exchanger
Circulating pump has condensate liquid pipeline to be connected to waste heat boiler again after connection, and there are also high steam channel and vapor wheels for waste heat boiler
Machine connection, there are also heated medium pipelines to be connected to external for heat exchanger;Compressor has refrigerant steam channel and the second condenser
The second condenser has cryogen liquid pipeline to be connected to through cryogenic throttle valve with low temperature heat exchanger again after connection, low temperature heat exchanger
There are also refrigerant steam channels to be communicated with compressor, low temperature heat exchanger there are also cryogenic media pipeline with outside be connected to, second condense
Device there are also heated medium pipeline with outside be connected to;Evaporator has refrigerant steam channel to be connected to absorber, and there are also dilute for absorber
Solution line is connected to through solution pump and solution heat exchanger with generator, and there are also concentrated solution pipelines through solution heat exchanger for generator
It is connected to absorber, there are also refrigerant steam channels to be connected to condenser for generator, and there are also cryogen liquid pipelines through throttle valve for condenser
Be connected to evaporator, evaporator there are also cryogenic media pipeline with outside be connected to, absorber and condenser are also heated Jie respectively
Matter pipeline is connected to outside;Compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger are constituted
Air-steam forward circulation system, it is inverse that compressor, the second condenser, cryogenic throttle valve and low temperature heat exchanger constitute compression
To the circulatory system, absorber, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchanger constitute absorption
Reverse circulation system;Air-steam forward circulation provides power to compression reverse circulation or externally provides power simultaneously, empty
Gas-steam forward circulation provides driving thermic load to absorption reverse circulation, and compression reverse circulation obtains low temperature thermic load simultaneously
By the external heat supply of the second condenser, absorption reverse circulation acquisition low temperature thermic load is simultaneously external by absorber and condenser
Heat supply forms combined cycle energy supplying system.
It is to increase by the second compressor in the combined cycle energy supplying system described in the 3rd 4. combined cycle energy supplying system,
The second condenser has cryogen liquid pipeline to throttle through low temperature again after having refrigerant steam channel to be connected to the second condenser on compressor
Valve is connected to low temperature heat exchanger be adjusted to compressor and there is refrigerant steam channel to be connected to the second condenser after the second condenser
There is refrigerant steam channel to be connected to the second compressor again, there are also refrigerant steam channels to be connected to the second condenser for the second compressor
The second condenser has cryogen liquid pipeline to be connected to through cryogenic throttle valve with low temperature heat exchanger again later, forms combined cycle energy supply
System.
5. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulation
Pump, heat exchanger, compressor, cooler, cryogenic throttle valve, low temperature heat exchanger, evaporator, absorber, generator, condensation
Device, throttle valve, solution pump and solution heat exchanger are formed;Compressor has air duct to be connected to outside, and there are also press for compressor
Boiler has compressed air channel to be connected to air turbine again after contracting air duct is connected to boiler, and there are also fuel and sky for boiler
Gas channel is connected to outside, and there are also blast tubes to be connected to waste heat boiler for boiler, and there are also air ducts and waste heat pot for air turbine
Furnace connection, generator has mixed-gas channel and outside again after waste heat boiler is connected to there are also mixed-gas channel with generator
Connection, steam turbine has low-pressure steam channel to be connected to heat exchanger, and there are also condensate liquid pipelines to be connected to circulating pump for heat exchanger
Circulating pump has condensate liquid pipeline to be connected to waste heat boiler again later, and there are also high steam channels and steam turbine to connect for waste heat boiler
Logical, there are also heated medium pipelines to be connected to external for heat exchanger;After compressor has refrigerant steam channel to be connected to cooler
Cooler has refrigerant steam channel to be connected to evaporator again, and there are also cryogen liquid pipelines through cryogenic throttle valve and Low Temperature Thermal friendship for evaporator
Parallel operation connection, there are also refrigerant steam channels to be communicated with compressor for low temperature heat exchanger, and there are also cryogenic media pipes for low temperature heat exchanger
Road be connected to outside, and there are also heated medium pipelines to be connected to external for cooler;Evaporator is there are also refrigerant steam channel and absorbs
Device connection, there are also weak solution pipelines to be connected to through solution pump and solution heat exchanger with generator for absorber, and there are also dense molten for generator
Liquid pipeline is connected to through solution heat exchanger with absorber, and there are also refrigerant steam channels to be connected to condenser for generator, and condenser is also
There is cryogen liquid pipeline to be connected to through throttle valve with evaporator, absorber and condenser also have heated medium pipeline to connect with outside respectively
It is logical;It is positive that compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam
The circulatory system, compressor, cooler, evaporator, cryogenic throttle valve and low temperature heat exchanger constitute compression reverse circulation system
System, absorber, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation
System;Air-steam forward circulation provides power to compression reverse circulation or externally provides power simultaneously, and air-steam is just
Driving thermic load is provided to circulation to absorption reverse circulation, compression reverse circulation obtains low temperature thermic load and passes through respectively
The external heat supply of cooler and by evaporator to absorption reverse circulation heat supply, absorption reverse circulation passes through absorber and cold
The external heat supply of condenser forms combined cycle energy supplying system.
It is to increase by the second compressor in the combined cycle energy supplying system described in the 5th 6. combined cycle energy supplying system,
There is refrigerant steam channel to be connected to adjustment with evaporator again the aftercooler that compressor has refrigerant steam channel to be connected to cooler
There are refrigerant steam channel and the second compressor to connect again for the aftercooler that compressor has refrigerant steam channel to be connected to cooler
Logical, there are also the aftercoolers that refrigerant steam channel is connected to cooler refrigerant steam channel and evaporator again for the second compressor
Connection forms combined cycle energy supplying system.
7. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulation
Pump, heat exchanger, compressor, the second compressor, the second condenser, cryogenic throttle valve, the second cryogenic throttle valve, Low Temperature Thermal are handed over
Parallel operation, evaporator, absorber, generator, condenser, throttle valve, solution pump and solution heat exchanger are formed;Compressor has
Air duct is connected to outside, and boiler has compressed air channel again after compressor is connected to there are also compressed air channel with boiler
Be connected to air turbine, boiler there are also fuel and air channel with outside be connected to, boiler there are also blast tube and waste heat boiler company
Logical, there are also air ducts to be connected to waste heat boiler for air turbine, and there are also mixed-gas channels to be connected to it with generator for waste heat boiler
Generator has mixed-gas channel to be connected to outside again afterwards, and steam turbine has low-pressure steam channel to be connected to heat exchanger, and heat is handed over
Circulating pump has condensate liquid pipeline to be connected to waste heat boiler again after parallel operation is connected to there are also condensate liquid pipeline with circulating pump, waste heat pot
There are also high steam channels to be connected to steam turbine for furnace, and there are also heated medium pipelines to be connected to outside for heat exchanger;Compressor
There is low pressure refrigerant steam channel to be connected to evaporator, there are also low pressure cryogen liquid pipelines through cryogenic throttle valve and Low Temperature Thermal for evaporator
Low temperature heat exchanger has refrigerant steam channel to be communicated with compressor again after exchanger connection, and there are also low pressure refrigerant vapours for compressor
Channel is connected to the second compressor, and there are also high pressure refrigerant steam channels to be connected to the second condenser for the second compressor, the second condensation
Low temperature heat exchange after device is connected to through evaporator and the second cryogenic throttle valve with low temperature heat exchanger there are also high pressure cryogen liquid pipeline
Device has refrigerant steam channel to be communicated with compressor again, low temperature heat exchanger there are also cryogenic media pipeline with outside be connected to, second is cold
Condenser there are also heated medium pipeline with outside be connected to;There are also refrigerant steam channels to be connected to absorber for evaporator, and absorber is also
There is weak solution pipeline to be connected to through solution pump and solution heat exchanger with generator, there are also concentrated solution pipelines through solution heat for generator
Exchanger is connected to absorber, and there are also refrigerant steam channels to be connected to condenser for generator, and there are also cryogen liquid pipeline warps for condenser
Throttle valve is connected to evaporator, and absorber and condenser also have heated medium pipeline to be connected to outside respectively;Compressor, pot
Furnace, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compression
Machine, the second compressor, the second condenser, evaporator, cryogenic throttle valve, the second cryogenic throttle valve and low temperature heat exchanger are constituted
Compression reverse circulation system;Absorber, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchanger
Constitute absorption reverse circulation system;Air-steam forward circulation provides power to compression reverse circulation or externally mentions simultaneously
For power, air-steam forward circulation provides driving thermic load to absorption reverse circulation, and compression reverse circulation obtains low
Warm load simultaneously passes through the external heat supply of the second condenser and by evaporator to absorption reverse circulation heat supply respectively, absorption
Reverse circulation forms combined cycle energy supplying system by absorber and the external heat supply of condenser.
8. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulation
Pump, heat exchanger, compressor, the second condenser, cryogenic throttle valve, the second cryogenic throttle valve, low temperature heat exchanger, evaporator,
Absorber, generator, condenser, throttle valve, solution pump and solution heat exchanger are formed;Compressor has air duct and outer
Portion's connection, boiler has compressed air channel and air turbine to connect again after compressor is connected to there are also compressed air channel with boiler
Logical, there are also fuel and air channels to be connected to external for boiler, and there are also blast tubes to be connected to waste heat boiler for boiler, air turbine
There are also air ducts to be connected to waste heat boiler, and generator is again after waste heat boiler is connected to there are also mixed-gas channel with generator
There is mixed-gas channel to be connected to outside, steam turbine has low-pressure steam channel to be connected to heat exchanger, and there are also cold for heat exchanger
Circulating pump has condensate liquid pipeline to be connected to waste heat boiler again after lime set pipeline is connected to circulating pump, and there are also high pressures for waste heat boiler
Steam channel is connected to steam turbine, heat exchanger there are also heated medium pipeline with outside be connected to;Compressor has low pressure cryogen
Steam channel is connected to evaporator, and there are also low pressure cryogen liquid pipelines to be connected to through cryogenic throttle valve with low temperature heat exchanger for evaporator
Low temperature heat exchanger has refrigerant steam channel to be communicated with compressor again later, and there are also high pressure refrigerant steam channels and second for compressor
Condenser connection, there are also high pressure cryogen liquid pipelines through evaporator and the second cryogenic throttle valve and low temperature heat exchanger for the second condenser
Low temperature heat exchanger has refrigerant steam channel to be communicated with compressor again after connection, and there are also cryogenic media pipelines for low temperature heat exchanger
Be connected to outside, there are also heated medium pipelines to be connected to external for the second condenser;Evaporator is there are also refrigerant steam channel and inhales
Device connection is received, there are also weak solution pipelines to be connected to through solution pump and solution heat exchanger with generator for absorber, and there are also dense for generator
Solution line is connected to through solution heat exchanger with absorber, and there are also refrigerant steam channels to be connected to condenser for generator, condenser
There are also cryogen liquid pipelines to be connected to through throttle valve with evaporator, and absorber and condenser also have heated medium pipeline and outside respectively
Connection;Compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger are constituting air-steam just
To the circulatory system, compressor, the second condenser, evaporator, cryogenic throttle valve, the second cryogenic throttle valve and low temperature heat exchanger
Constitute compression reverse circulation system, absorber, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchange
Device constitutes absorption reverse circulation system;Air-steam forward circulation to compression reverse circulation provide power or simultaneously externally
Power is provided, air-steam forward circulation provides driving thermic load to absorption reverse circulation, and compression reverse circulation obtains
Low temperature thermic load simultaneously by the external heat supply of the second condenser and passes through evaporator to absorption reverse circulation heat supply respectively, absorbs
Formula reverse circulation forms combined cycle energy supplying system by absorber and the external heat supply of condenser.
9. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulation
It is pump, heat exchanger, compressor, expanding machine, low temperature heat exchanger, evaporator, absorber, generator, condenser, throttle valve, molten
Liquid pump and solution heat exchanger are formed;Compressor has air duct be connected to outside, compressor there are also compressed air channel and
Boiler has compressed air channel to be connected to air turbine again after boiler connection, and there are also fuel and air channels and outside for boiler
Connection, there are also blast tubes to be connected to waste heat boiler for boiler, and there are also air ducts to be connected to waste heat boiler for air turbine, waste heat
Generator has mixed-gas channel to be connected to outside again after boiler is connected to there are also mixed-gas channel with generator, vapor wheel
Machine has low-pressure steam channel to be connected to heat exchanger, circulating pump after heat exchanger is connected to there are also condensate liquid pipeline with circulating pump
There is condensate liquid pipeline to be connected to waste heat boiler again, there are also high steam channels to be connected to steam turbine for waste heat boiler, heat exchanger
There are also heated medium pipelines to be connected to outside;The finisher that compressor has refrigerant gas channel to be connected to evaporator has cold again
Agent gas passage is connected to expanding machine, and there are also refrigerant gas channels to be communicated with compressor through low temperature heat exchanger for expanding machine, low temperature
Heat exchanger there are also cryogenic media pipeline with outside be connected to;There are also refrigerant steam channels to be connected to absorber for evaporator, absorber
There are also weak solution pipelines to be connected to through solution pump and solution heat exchanger with generator, and there are also concentrated solution pipelines through solution heat for generator
Exchanger is connected to absorber, and there are also refrigerant steam channels to be connected to condenser for generator, and there are also cryogen liquid pipeline warps for condenser
Throttle valve is connected to evaporator, and absorber and condenser also have heated medium pipeline to be connected to outside respectively;Compressor, pot
Furnace, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compression
Machine, evaporator, expanding machine and low temperature heat exchanger constitute compression reverse circulation system, evaporator, absorber, generator, cold
Condenser, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system;Air-steam forward circulation is to pressure
Contracting formula reverse circulation provides power or externally provides power simultaneously, and air-steam forward circulation is provided to absorption reverse circulation
Thermic load is driven, compression reverse circulation obtains low temperature thermic load and by evaporator to absorption reverse circulation heat supply, absorbs
Formula reverse circulation forms combined cycle energy supplying system by absorber and the external heat supply of condenser.
It is to increase by the second compressor in the combined cycle energy supplying system described in the 9th 10. combined cycle energy supplying system,
There is refrigerant gas channel to be connected to adjustment with expanding machine again the finisher that compressor has refrigerant gas channel to be connected to evaporator
There are refrigerant gas channel and the second compressor to connect again for the finisher that compressor has refrigerant gas channel to be connected to evaporator
Logical, there are also the finishers that refrigerant gas channel is connected to evaporator refrigerant gas channel and expanding machine again for the second compressor
Connection forms combined cycle energy supplying system.
11. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, follow
Ring pump, heat exchanger, compressor, expanding machine, low temperature heat exchanger, regenerator, evaporator, absorber, generator, condenser,
Throttle valve, solution pump and solution heat exchanger are formed;Compressor has air duct to be connected to outside, and there are also compress for compressor
Boiler has compressed air channel to be connected to air turbine again after air duct is connected to boiler, and there are also fuel and air for boiler
Channel is connected to outside, and there are also blast tubes to be connected to waste heat boiler for boiler, and there are also air ducts and waste heat boiler for air turbine
Connection, generator has mixed-gas channel to connect with outside again after waste heat boiler is connected to there are also mixed-gas channel with generator
Logical, steam turbine has low-pressure steam channel to be connected to heat exchanger, and there are also condensate liquid pipelines to be connected to it with circulating pump for heat exchanger
Circulating pump has condensate liquid pipeline to be connected to waste heat boiler again afterwards, and there are also high steam channels to be connected to steam turbine for waste heat boiler,
Heat exchanger there are also heated medium pipeline with outside be connected to;Compressor steams after having refrigerant gas channel to be connected to evaporator
Hair device has refrigerant gas channel to be connected to through regenerator with expanding machine again, and there are also refrigerant gas channels through low temperature heat exchange for expanding machine
Device and regenerator are communicated with compressor, low temperature heat exchanger there are also cryogenic media pipeline with outside be connected to;There are also cryogens for evaporator
Steam channel is connected to absorber, and there are also weak solution pipelines to be connected to through solution pump and solution heat exchanger with generator for absorber,
There are also concentrated solution pipelines to be connected to through solution heat exchanger with absorber for generator, and there are also refrigerant steam channels and condenser for generator
Connection, there are also cryogen liquid pipelines to be connected to through throttle valve with evaporator for condenser, and absorber and condenser are also heated Jie respectively
Matter pipeline is connected to outside;Compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger are constituted
Air-steam forward circulation system;It is inverse that compressor, evaporator, expanding machine, low temperature heat exchanger and regenerator constitute compression
To the circulatory system, evaporator, absorber, generator, condenser, throttle valve, solution pump and solution heat exchanger constitute absorption
Reverse circulation system;Air-steam forward circulation provides power to compression reverse circulation or externally provides power simultaneously, empty
Gas-steam forward circulation provides driving thermic load to absorption reverse circulation, and compression reverse circulation obtains low temperature thermic load simultaneously
By evaporator to absorption reverse circulation heat supply, absorption reverse circulation is formed by absorber and the external heat supply of condenser
Combined cycle energy supplying system.
It is to increase by the second compression in the combined cycle energy supplying system described in the 11st 12. combined cycle energy supplying system
Machine, by the finisher that compressor has refrigerant gas channel to be connected to evaporator have again refrigerant gas channel through regenerator with it is swollen
The connection of swollen machine be adjusted to the finisher that compressor has refrigerant gas channel to be connected to logical evaporator have again refrigerant gas channel and
The connection of second compressor, there are also the finishers that refrigerant gas channel is connected to evaporator refrigerant gas again for the second compressor
Channel is connected to through regenerator with expanding machine, forms combined cycle energy supplying system.
13. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, follow
Ring pump, heat exchanger, compressor, expanding machine, cooler, low temperature heat exchanger, evaporator, absorber, generator, condenser,
Throttle valve, solution pump and solution heat exchanger are formed;Compressor has air duct to be connected to outside, and there are also compress for compressor
Boiler has compressed air channel to be connected to air turbine again after air duct is connected to boiler, and there are also fuel and air for boiler
Channel is connected to outside, and there are also blast tubes to be connected to waste heat boiler for boiler, and there are also air ducts and waste heat boiler for air turbine
Connection, generator has mixed-gas channel to connect with outside again after waste heat boiler is connected to there are also mixed-gas channel with generator
Logical, steam turbine has low-pressure steam channel to be connected to heat exchanger, and there are also condensate liquid pipelines to be connected to it with circulating pump for heat exchanger
Circulating pump has condensate liquid pipeline to be connected to waste heat boiler again afterwards, and there are also high steam channels to be connected to steam turbine for waste heat boiler,
Heat exchanger there are also heated medium pipeline with outside be connected to;Compressor has refrigerant gas channel to connect through cooler and expanding machine
Logical, there are also refrigerant gas channels to be communicated with compressor through low temperature heat exchanger for expanding machine, and there are also cryogenic medias for low temperature heat exchanger
Pipeline be connected to outside, and there are also heated medium pipelines to be connected to external for cooler;Evaporator has refrigerant steam channel and absorbs
Device connection, there are also weak solution pipelines to be connected to through solution pump and solution heat exchanger with generator for absorber, and there are also dense molten for generator
Liquid pipeline is connected to through solution heat exchanger with absorber, and there are also refrigerant steam channels to be connected to condenser for generator, and condenser is also
There is cryogen liquid pipeline to be connected to through throttle valve with evaporator, there are also cryogenic media pipelines to be connected to outside for evaporator, absorber and cold
Condenser also has heated medium pipeline to be connected to outside respectively;Compressor, boiler, air turbine, steam turbine, waste heat boiler,
Circulating pump and heat exchanger constitute air-steam forward circulation system, compressor, cooler, expanding machine and low temperature heat exchanger
Constitute compression reverse circulation system, absorber, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchange
Device constitutes absorption reverse circulation system;Air-steam forward circulation to compression reverse circulation provide power or simultaneously externally
Power is provided, air-steam forward circulation provides driving thermic load to absorption reverse circulation, and compression reverse circulation obtains
Simultaneously by the external heat supply of cooler, absorption reverse circulation obtains low temperature thermic load and by absorber and cold low temperature thermic load
The external heat supply of condenser forms combined cycle energy supplying system.
It is to increase by the second compression in the combined cycle energy supplying system described in the 13rd 14. combined cycle energy supplying system
Compressor is had refrigerant gas channel to be connected to expanding machine through cooler and is adjusted to compressor and has refrigerant gas channel through cold by machine
But device is connected to the second compressor, and there are also refrigerant gas channels to be connected to through cooler with expanding machine for the second compressor, forms joint
Recycle energy supplying system.
15. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, follow
Ring pump, heat exchanger, compressor, cooler, expanding machine, low temperature heat exchanger, regenerator, evaporator, absorber, generator,
Condenser, throttle valve, solution pump and solution heat exchanger are formed;Compressor has air duct to be connected to outside, and compressor is also
Boiler has compressed air channel to be connected to air turbine again after having compressed air channel to be connected to boiler, and there are also fuel for boiler
Be connected to air duct with outside, there are also blast tubes to be connected to waste heat boiler for boiler, air turbine there are also air duct with it is remaining
Heat boiler connection, after waste heat boiler is connected to there are also mixed-gas channel with generator generator have again mixed-gas channel and
Outside connection, steam turbine have low-pressure steam channel to be connected to heat exchanger, and there are also condensate liquid pipeline and circulating pumps for heat exchanger
Circulating pump has condensate liquid pipeline to be connected to waste heat boiler again after connection, and there are also high steam channel and vapor wheels for waste heat boiler
Machine connection, there are also heated medium pipelines to be connected to external for heat exchanger;Compressor has refrigerant gas channel through cooler and returns
Hot device is connected to expanding machine, and there are also refrigerant gas channels to be communicated with compressor through low temperature heat exchanger and regenerator for expanding machine, low
There are also cryogenic media pipelines be connected to outside for temperature heat exchanger, and there are also heated medium pipelines to be connected to external for cooler;Evaporation
Device has refrigerant steam channel to be connected to absorber, and there are also weak solution pipelines through solution pump and solution heat exchanger and hair for absorber
Raw device connection, there are also concentrated solution pipelines to be connected to through solution heat exchanger with absorber for generator, and there are also refrigerant vapours to lead to for generator
Road is connected to condenser, and there are also cryogen liquid pipelines to be connected to through throttle valve with evaporator for condenser, and there are also cryogenic media pipes for evaporator
Road is connected to outside, and absorber and condenser also have heated medium pipeline to be connected to outside respectively;Compressor, boiler, air
Turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compressor, cooling
Device, expanding machine, low temperature heat exchanger and regenerator constitute compression reverse circulation system, evaporator, absorber, generator, cold
Condenser, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system;Air-steam forward circulation is to pressure
Contracting formula reverse circulation provides power or externally provides power simultaneously, and air-steam forward circulation is provided to absorption reverse circulation
Thermic load is driven, compression reverse circulation obtains low temperature thermic load and by the external heat supply of cooler, and absorption reverse circulation obtains
Take low temperature thermic load and by absorber and the external heat supply of condenser, formation combined cycle energy supplying system.
It is to increase by the second compression in the combined cycle energy supplying system described in the 15th 16. combined cycle energy supplying system
Compressor is had refrigerant gas channel to be connected to expanding machine through cooler and regenerator and is adjusted to compressor and has refrigerant gas by machine
Channel is connected to through cooler with the second compressor, the second compressor have again refrigerant gas channel through cooler and regenerator with it is swollen
Swollen machine connection, forms combined cycle energy supplying system.
17. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, follow
Ring pump, heat exchanger, compressor, cooler, evaporator, expanding machine, low temperature heat exchanger, absorber, generator, condenser,
Throttle valve, solution pump and solution heat exchanger are formed;Compressor has air duct to be connected to outside, and there are also compress for compressor
Boiler has compressed air channel to be connected to air turbine again after air duct is connected to boiler, and there are also fuel and air for boiler
Channel is connected to outside, and there are also blast tubes to be connected to waste heat boiler for boiler, and there are also air ducts and waste heat boiler for air turbine
Connection, generator has mixed-gas channel to connect with outside again after waste heat boiler is connected to there are also mixed-gas channel with generator
Logical, steam turbine has low-pressure steam channel to be connected to heat exchanger, and there are also condensate liquid pipelines to be connected to it with circulating pump for heat exchanger
Circulating pump has condensate liquid pipeline to be connected to waste heat boiler again afterwards, and there are also high steam channels to be connected to steam turbine for waste heat boiler,
Heat exchanger there are also heated medium pipeline with outside be connected to;Compressor has refrigerant gas channel to connect through cooler and evaporator
Logical finisher has refrigerant gas channel to be connected to expanding machine again, and there are also refrigerant gas channels through low temperature heat exchange for expanding machine
Device is communicated with compressor, low temperature heat exchanger there are also cryogenic media pipeline with outside be connected to, there are also heated medium pipes for cooler
Road is connected to outside;There are also refrigerant steam channels to be connected to absorber for evaporator, and there are also weak solution pipelines through solution pump for absorber
It is connected to solution heat exchanger with generator, there are also concentrated solution pipelines to be connected to through solution heat exchanger with absorber for generator, sends out
There are also refrigerant steam channels to be connected to condenser for raw device, and there are also cryogen liquid pipelines to be connected to through throttle valve with evaporator for condenser, suction
Receive device and condenser also has heated medium pipeline to be connected to outside respectively;Compressor, boiler, air turbine, steam turbine,
Waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compressor, cooler, evaporator, expansion
Machine and low temperature heat exchanger constitute compression reverse circulation system, evaporator, absorber, generator, condenser, throttle valve, molten
Liquid pump and solution heat exchanger constitute absorption reverse circulation system;Air-steam forward circulation is mentioned to compression reverse circulation
Power is externally provided for power or simultaneously, and air-steam forward circulation provides driving thermic load, pressure to absorption reverse circulation
Contracting formula reverse circulation obtains low temperature thermic load and passes through the external heat supply of cooler respectively and inversely followed by evaporator to absorption
Ring heat supply, absorption reverse circulation form combined cycle energy supplying system by absorber and the external heat supply of condenser.
It is to increase by the second compression in the combined cycle energy supplying system described in the 17th 18. combined cycle energy supplying system
Machine, by the finisher that compressor has refrigerant gas channel to be connected to through cooler with evaporator have again refrigerant gas channel with it is swollen
The finisher that swollen machine connection is adjusted to compressor and has refrigerant gas channel to be connected to through cooler with evaporator has refrigerant gas again
Channel is connected to the second compressor, the second compressor there are also refrigerant gas channels be connected to through cooler with evaporator after evaporate
Device has refrigerant gas channel to be connected to expanding machine again, forms combined cycle energy supplying system.
19. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, follow
Ring pump, heat exchanger, compressor, cooler, evaporator, regenerator, expanding machine, low temperature heat exchanger, absorber, generator,
Condenser, throttle valve, solution pump and solution heat exchanger are formed;Compressor has air duct to be connected to outside, and compressor is also
Boiler has compressed air channel to be connected to air turbine again after having compressed air channel to be connected to boiler, and there are also fuel for boiler
Be connected to air duct with outside, there are also blast tubes to be connected to waste heat boiler for boiler, air turbine there are also air duct with it is remaining
Heat boiler connection, after waste heat boiler is connected to there are also mixed-gas channel with generator generator have again mixed-gas channel and
Outside connection, steam turbine have low-pressure steam channel to be connected to heat exchanger, and there are also condensate liquid pipeline and circulating pumps for heat exchanger
Circulating pump has condensate liquid pipeline to be connected to waste heat boiler again after connection, and there are also high steam channel and vapor wheels for waste heat boiler
Machine connection, there are also heated medium pipelines to be connected to external for heat exchanger;Compressor has refrigerant gas channel through cooler and steams
The finisher of hair device connection has refrigerant gas channel to be connected to through regenerator with expanding machine again, and there are also refrigerant gas to lead to for expanding machine
Road is communicated with compressor through low temperature heat exchanger and regenerator, low temperature heat exchanger there are also cryogenic media pipeline with outside be connected to,
Cooler there are also heated medium pipeline with outside be connected to;There are also refrigerant steam channels to be connected to absorber for evaporator, absorber
There are also weak solution pipelines to be connected to through solution pump and solution heat exchanger with generator, and there are also concentrated solution pipelines through solution heat for generator
Exchanger is connected to absorber, and there are also refrigerant steam channels to be connected to condenser for generator, and there are also cryogen liquid pipeline warps for condenser
Throttle valve is connected to evaporator, and absorber and condenser also have heated medium pipeline to be connected to outside respectively;Compressor, pot
Furnace, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compression
Machine, cooler, evaporator, regenerator, expanding machine and low temperature heat exchanger constitute compression reverse circulation system, evaporator, suction
It receives device, generator, condenser, throttle valve, solution pump and solution heat exchanger and constitutes absorption reverse circulation system;Air-steaming
Vapour forward circulation provides power to compression reverse circulation or externally provides power simultaneously, and air-steam forward circulation is to absorption
Formula reverse circulation provides driving thermic load, and compression reverse circulation obtains low temperature thermic load and externally supplied by cooler respectively
Heat and by evaporator to absorption reverse circulation heat supply, absorption reverse circulation by absorber and the external heat supply of condenser,
Form combined cycle energy supplying system.
It is to increase by the second compression in the combined cycle energy supplying system described in the 19th 20. combined cycle energy supplying system
The finisher that compressor has refrigerant gas channel to be connected to through cooler with evaporator is had refrigerant gas channel to pass through back by machine again
Hot device is connected to expanding machine to be adjusted to the finisher that compressor has refrigerant gas channel to be connected to through cooler with evaporator and has again
Refrigerant gas channel is connected to the second compressor, and there are also refrigerant gas channels to be connected to through cooler with evaporator for the second compressor
Finisher there is refrigerant gas channel to be connected to through regenerator with expanding machine again, formed combined cycle energy supplying system.
It is to increase by second in any combined cycle energy supplying system described in 1-20 21. combined cycle energy supplying system
Heat exchanger, second heat exchanger has heated medium pipeline to be connected to outside, and following any technology is taken to arrange
Impose to form combined cycle energy supplying system: 1. by generator have mixed-gas channel with outside be connected to be adjusted to generator have it is mixed
It closes gas passage and is connected to through second heat exchanger with outside;2. thering is mixed-gas channel to be connected to outside in generator to be adjusted to
Generator has mixed-gas channel to be connected to through second heat exchanger and evaporator with outside;3. thering is mixed gas to lead in generator
Road be connected to outside be adjusted to generator have mixed-gas channel through second heat exchanger, evaporator and low temperature heat exchanger and
Outside connection.
It is to increase by second in any combined cycle energy supplying system described in 1-20 22. combined cycle energy supplying system
Generator, second throttle, the second solution pump and the second solution heat exchanger, it is molten through second that absorber adds weak solution pipeline
Liquid pump and the second solution heat exchanger are connected to the second generator, and there are also concentrated solution pipelines through the second solution heat for the second generator
Exchanger is connected to absorber, is had refrigerant steam channel to be connected to condenser in generator and is adjusted to generator and has refrigerant vapour
The second generator has cryogen liquid pipeline to be connected to through second throttle with condenser again after channel is connected to the second generator, the
There are also refrigerant steam channels to be connected to condenser for two generators, forms combined cycle energy supplying system.
It is to increase by second in any combined cycle energy supplying system described in 1-20 23. combined cycle energy supplying system
Absorber is had weak solution pipeline through solution pump and solution heat exchange by generator, second throttle and the second solution heat exchanger
Device is connected to generator to be adjusted to absorber and has weak solution pipeline through solution pump, solution heat exchanger and the second solution heat exchange
Device is connected to generator, is had concentrated solution pipeline to be connected to absorber through solution heat exchanger in generator and is adjusted to generator and has
Concentrated solution pipeline is connected to through the second solution heat exchanger with the second generator, and the second generator has concentrated solution pipeline through solution again
Heat exchanger is connected to absorber, is had refrigerant steam channel to be connected to condenser in generator and is adjusted to generator and has cryogen steaming
The second generator has cryogen liquid pipeline to be connected to through second throttle with condenser again after vapour channel is connected to the second generator,
There are also refrigerant steam channels to be connected to condenser for second generator, forms combined cycle energy supplying system.
It is to increase by second in any combined cycle energy supplying system described in 1-20 24. combined cycle energy supplying system
Absorber is had weak solution pipeline through solution pump by generator, second throttle, the second solution pump and the second solution heat exchanger
It is connected to solution heat exchanger with generator and is adjusted to absorber and has weak solution pipeline through solution pump and solution heat exchanger and
The connection of two generators, the second generator have concentrated solution pipeline through the second solution pump and the second solution heat exchanger and generator again
Generator is had concentrated solution pipeline to be connected to absorber through solution heat exchanger and is adjusted to generator and has concentrated solution pipeline by connection
It is connected to through the second solution heat exchanger and solution heat exchanger with absorber, generator is had into refrigerant steam channel and condenser
The second generator has cryogen liquid pipeline to pass through again after connection is adjusted to generator and has refrigerant steam channel to be connected to the second generator
Second throttle is connected to condenser, and there are also refrigerant steam channels to be connected to condenser for the second generator, is formed combined cycle and is supplied
It can system.
It 25. combined cycle energy supplying system, is to increase by the in any combined cycle energy supplying system described in 22-24
Two heat exchangers, second heat exchanger has heated medium pipeline to be connected to outside, and takes following any technology
Measure is to form combined cycle energy supplying system: 1. having mixed-gas channel to be connected to outside in generator and is adjusted to generator and has
Mixed-gas channel is connected to through second heat exchanger with outside;2. thering is mixed-gas channel to be connected to adjustment with outside in generator
There is mixed-gas channel to be connected to through second heat exchanger and evaporator with outside for generator;3. generator is had mixed gas
Channel is connected to outside and is adjusted to generator and has mixed-gas channel through second heat exchanger, evaporator and low temperature heat exchanger
It is connected to outside.
It is to increase by second in any combined cycle energy supplying system described in 1-20 26. combined cycle energy supplying system
Generator is had mixed-gas channel and outside by generator, second throttle, the second solution pump and the second solution heat exchanger
The second generator has mixed-gas channel again after connection is adjusted to generator and has mixed-gas channel to be connected to the second generator
It is connected to outside, absorber is added weak solution pipeline and connected through the second solution pump and the second solution heat exchanger and the second generator
Logical, there are also concentrated solution pipelines to be connected to through the second solution heat exchanger with absorber for the second generator, and generator is had refrigerant vapour
Channel is connected to condenser be adjusted to generator and there is refrigerant steam channel to be connected to the second generator after the second generator have again
Cryogen liquid pipeline is connected to through second throttle with condenser, and there are also refrigerant steam channels to be connected to condenser for the second generator, shape
At combined cycle energy supplying system.
It is to increase by second in any combined cycle energy supplying system described in 1-20 27. combined cycle energy supplying system
Generator is had mixed-gas channel to be connected to outside and is adjusted to send out by generator, second throttle and the second solution heat exchanger
The second generator has mixed-gas channel to be connected to outside again after raw device has mixed-gas channel to be connected to the second generator,
There is weak solution pipeline to be connected to generator through solution pump and solution heat exchanger absorber to be adjusted to absorber and have weak solution pipe
Road is connected to through solution pump, solution heat exchanger and the second solution heat exchanger with generator, and generator is had concentrated solution pipeline warp
Solution heat exchanger be connected to absorber be adjusted to generator have concentrated solution pipeline through the second solution heat exchanger and second occur
Device connection, the second generator have concentrated solution pipeline to be connected to through solution heat exchanger with absorber again, generator are had refrigerant vapour
Channel is connected to condenser be adjusted to generator and there is refrigerant steam channel to be connected to the second generator after the second generator have again
Cryogen liquid pipeline is connected to through second throttle with condenser, and there are also refrigerant steam channels to be connected to condenser for the second generator, shape
At combined cycle energy supplying system.
It is to increase by second in any combined cycle energy supplying system described in 1-20 28. combined cycle energy supplying system
Generator is had mixed-gas channel and outside by generator, second throttle, the second solution pump and the second solution heat exchanger
The second generator has mixed-gas channel again after connection is adjusted to generator and has mixed-gas channel to be connected to the second generator
It is connected to outside, there is weak solution pipeline to be connected to through solution pump and solution heat exchanger with generator absorber and be adjusted to absorb
Device has weak solution pipeline to be connected to through solution pump and solution heat exchanger with the second generator, and the second generator has concentrated solution pipe again
The second solution pump of road and the second solution heat exchanger are connected to generator, have concentrated solution pipeline to hand over through solution heat in generator
Parallel operation is connected to absorber to be adjusted to generator and has concentrated solution pipeline through the second solution heat exchanger and solution heat exchanger and suction
Device connection is received, has refrigerant steam channel to be connected to condenser in generator and is adjusted to generator and has refrigerant steam channel and second
The second generator has cryogen liquid pipeline to be connected to through second throttle with condenser again after generator connection, and the second generator is also
There is refrigerant steam channel to be connected to condenser, forms combined cycle energy supplying system.
It 29. combined cycle energy supplying system, is to increase by the in any combined cycle energy supplying system described in 26-28
Two heat exchangers, second heat exchanger has heated medium pipeline to be connected to outside, and takes following any technology
Measure is to form combined cycle energy supplying system: 1. having mixed-gas channel to be connected to outside in the second generator and is adjusted to second
Generator has mixed-gas channel to be connected to through second heat exchanger with outside;2. by the second generator have mixed-gas channel with
Outside connection, which is adjusted to the second generator, has mixed-gas channel to be connected to through second heat exchanger and evaporator with outside;3. will
Second generator has mixed-gas channel to be connected to outside to be adjusted to the second generator and have mixed-gas channel through the second heat exchange
Device, evaporator and low temperature heat exchanger are connected to outside.
It is to increase third hair in any combined cycle energy supplying system described in the 22nd 30. combined cycle energy supplying system
Raw device, third throttle valve, third solution pump and third solution heat exchanger, absorber add weak solution pipeline through third solution
Pump and third solution heat exchanger are connected to third generator, and there are also concentrated solution pipelines through the friendship of third solution heat for third generator
Parallel operation is connected to absorber, by the second generator have refrigerant steam channel be connected to condenser be adjusted to the second generator have it is cold
Third generator has cryogen liquid pipeline to connect through third throttle valve and condenser again after agent steam channel is connected to third generator
Logical, there are also refrigerant steam channels to be connected to condenser for third generator, formation combined cycle energy supplying system.
It is to increase third hair in any combined cycle energy supplying system described in the 23rd 31. combined cycle energy supplying system
Raw device, third throttle valve and third solution heat exchanger, have weak solution pipeline through solution pump, solution heat exchanger absorber
Be connected to the second solution heat exchanger with generator be adjusted to absorber have weak solution pipeline through solution pump, solution heat exchanger,
Third solution heat exchanger and the second solution heat exchanger are connected to generator, have concentrated solution pipeline through molten in second generator
Liquid heat exchanger is connected to absorber to be adjusted to the second generator and has concentrated solution pipeline to send out through third solution heat exchanger and third
Raw device connection, third generator have concentrated solution pipeline to be connected to through solution heat exchanger with absorber again, the second generator are had cold
Agent steam channel is connected to condenser be adjusted to the second generator and there is refrigerant steam channel to be connected to third generator after third
Generator has cryogen liquid pipeline to be connected to through third throttle valve with condenser again, third generator there are also refrigerant steam channel with it is cold
Condenser connection, forms combined cycle energy supplying system.
It is to increase third hair in any combined cycle energy supplying system described in the 24th 32. combined cycle energy supplying system
Raw device, third throttle valve, third solution pump and third solution heat exchanger, have weak solution pipeline through solution pump absorber and
Solution heat exchanger be connected to the second generator be adjusted to absorber have weak solution pipeline through solution pump and solution heat exchanger with
The connection of third generator, third generator have concentrated solution pipeline through third solution pump and third solution heat exchanger and second again
Generator connection, has concentrated solution pipeline to be connected to through the second solution heat exchanger and solution heat exchanger with absorber in generator
Be adjusted to generator have concentrated solution pipeline through the second solution heat exchanger, third solution heat exchanger and solution heat exchanger with
Second generator is had refrigerant steam channel to be connected to condenser and is adjusted to the second generator and has refrigerant vapour by absorber connection
Third generator has cryogen liquid pipeline to be connected to through third throttle valve with condenser again after channel is connected to third generator, the
There are also refrigerant steam channels to be connected to condenser for three generators, forms combined cycle energy supplying system.
It 33. combined cycle energy supplying system, is to increase by the in any combined cycle energy supplying system described in 30-32
Two heat exchangers, second heat exchanger has heated medium pipeline to be connected to outside, and takes following any technology
Measure is to form combined cycle energy supplying system: 1. having mixed-gas channel to be connected to outside in generator and is adjusted to generator and has
Mixed-gas channel is connected to through second heat exchanger with outside;2. thering is mixed-gas channel to be connected to adjustment with outside in generator
There is mixed-gas channel to be connected to through second heat exchanger and evaporator with outside for generator;3. generator is had mixed gas
Channel is connected to outside and is adjusted to generator and has mixed-gas channel through second heat exchanger, evaporator and low temperature heat exchanger
It is connected to outside.
It is to increase third hair in any combined cycle energy supplying system described in the 22nd 34. combined cycle energy supplying system
Raw device, third throttle valve, third solution pump and third solution heat exchanger, have mixed-gas channel to connect with outside in generator
It is logical be adjusted to generator and there is mixed-gas channel to be sequentially communicated the second generator and third generator after third generator have again
Mixed-gas channel be connected to outside, absorber add weak solution pipeline through third solution pump and third solution heat exchanger and
The connection of third generator, there are also concentrated solution pipelines to be connected to through third solution heat exchanger with absorber for third generator, by second
Generator has refrigerant steam channel to be connected to condenser to be adjusted to the second generator and have refrigerant steam channel and third generator to connect
Third generator has cryogen liquid pipeline to be connected to through third throttle valve with condenser again after logical, and there are also cryogen steamings for third generator
Vapour channel is connected to condenser, forms combined cycle energy supplying system.
It is to increase third hair in any combined cycle energy supplying system described in the 23rd 35. combined cycle energy supplying system
Generator is had mixed-gas channel to be connected to outside and is adjusted to occur by raw device, third throttle valve and third solution heat exchanger
Third generator has mixed-gas channel again after device has mixed-gas channel to be sequentially communicated the second generator and third generator
It is connected to, absorber is had into weak solution pipeline through solution pump, solution heat exchanger and the second solution heat exchanger and occurs with outside
Device connection, which is adjusted to absorber, has weak solution pipeline molten through solution pump, solution heat exchanger, third solution heat exchanger and second
Liquid heat exchanger is connected to generator, has concentrated solution pipeline to be connected to tune with absorber through solution heat exchanger in the second generator
Whole is that the second generator has concentrated solution pipeline to be connected to through third solution heat exchanger with third generator, and third generator has again
Concentrated solution pipeline is connected to through solution heat exchanger with absorber, has refrigerant steam channel to be connected to condenser in the second generator
Third generator has cryogen liquid pipeline warp again after being adjusted to the second generator and having refrigerant steam channel to be connected to third generator
Third throttle valve is connected to condenser, and there are also refrigerant steam channels to be connected to condenser for third generator, is formed combined cycle and is supplied
It can system.
It is to increase third hair in any combined cycle energy supplying system described in the 24th 36. combined cycle energy supplying system
Raw device, third throttle valve, third solution pump and third solution heat exchanger, have mixed-gas channel to connect with outside in generator
It is logical be adjusted to generator and there is mixed-gas channel to be sequentially communicated the second generator and third generator after third generator have again
Mixed-gas channel is connected to outside, has weak solution pipeline to occur through solution pump and solution heat exchanger and second absorber
Device connection, which is adjusted to absorber, has weak solution pipeline to be connected to through solution pump and solution heat exchanger with third generator, third hair
Raw device has concentrated solution pipeline to be connected to through third solution pump and third solution heat exchanger with the second generator again, and generator is had
Concentrated solution pipeline, which is connected to through the second solution heat exchanger and solution heat exchanger with absorber, to be adjusted to generator and has concentrated solution pipe
The second solution heat exchanger of road, third solution heat exchanger and solution heat exchanger are connected to absorber, by the second generator
There is refrigerant steam channel to be connected to condenser to be adjusted to after the second generator has refrigerant steam channel to be connected to third generator
Third generator has cryogen liquid pipeline to be connected to through third throttle valve with condenser again, and there are also refrigerant steam channels for third generator
It is connected to condenser, forms combined cycle energy supplying system.
It 37. combined cycle energy supplying system, is to increase by the in any combined cycle energy supplying system described in 34-36
Two heat exchangers, second heat exchanger has heated medium pipeline to be connected to outside, and takes following any technology
Measure is to form combined cycle energy supplying system: 1. having mixed-gas channel to be connected to outside in third generator and is adjusted to third
Generator has mixed-gas channel to be connected to through second heat exchanger with outside;2. by third generator have mixed-gas channel with
Outside connection, which is adjusted to third generator, has mixed-gas channel to be connected to through second heat exchanger and evaporator with outside;3. will
Third generator has mixed-gas channel to be connected to outside to be adjusted to third generator and have mixed-gas channel through the second heat exchange
Device, evaporator and low temperature heat exchanger are connected to outside.
It 38. combined cycle energy supplying system, will be occurred in any combined cycle energy supplying system described in 30-37
After device has refrigerant steam channel to be connected to the second generator the second generator have again cryogen liquid pipeline through second throttle with it is cold
The second generator has cryogen liquid pipe again after condenser connection is adjusted to generator and has refrigerant steam channel to be connected to the second generator
Road is connected to through third generator and second throttle with condenser, forms combined cycle energy supplying system.
It is to increase by second in any combined cycle energy supplying system described in 1-20 39. combined cycle energy supplying system
Generator is had mixed-gas channel and outside by generator, the second solution pump, the second solution heat exchanger and the second absorber
The second generator has mixed-gas channel again after connection is adjusted to generator and has mixed-gas channel to be connected to the second generator
Be connected to outside, there is refrigerant steam channel to be connected to absorber evaporator and be adjusted to evaporator and have refrigerant steam channel and the
The connection of two absorbers, there are also weak solution pipelines through the second solution pump and the second solution heat exchanger and the second hair for the second absorber
Raw device connection, there are also concentrated solution pipelines to be connected to through the second solution heat exchanger with the second absorber for the second generator, the second generation
There are also refrigerant steam channels to be connected to absorber for device, and there are also heated medium pipelines be connected to outside for the second absorber, is formed and is joined
Close circulation energy supplying system.
It is to increase by the second heat in any combined cycle energy supplying system described in the 39th 40. combined cycle energy supplying system
Exchanger, second heat exchanger has heated medium pipeline to be connected to outside, and takes following any technical measures
To form combined cycle energy supplying system: 1. thering is mixed-gas channel to be connected to outside in the second generator and be adjusted to the second generation
Device has mixed-gas channel to be connected to through second heat exchanger with outside;2. the second generator is had mixed-gas channel and outside
Connection, which is adjusted to the second generator, has mixed-gas channel to be connected to through second heat exchanger and evaporator with outside;3. by second
Generator have mixed-gas channel with outside be connected to be adjusted to the second generator have mixed-gas channel through second heat exchanger,
Evaporator and low temperature heat exchanger are connected to outside.
It is to increase high temperature in any combined cycle energy supplying system described in 1-20 41. combined cycle energy supplying system
Heat exchanger and second circulation pump, generator has mixing again after having mixed-gas channel to be connected to generator waste heat boiler
Gas passage be connected to outside be adjusted to waste heat boiler and there is mixed-gas channel be connected to high-temperature heat exchanger after height warm friendship
Parallel operation has mixed-gas channel to be connected to outside again, pumps and recycles by second circulation between high-temperature heat exchanger and generator
Heat medium pipeline constitutes closed loop, forms combined cycle energy supplying system.
It is to increase by the second heat in any combined cycle energy supplying system described in the 41st 42. combined cycle energy supplying system
Exchanger, second heat exchanger has heated medium pipeline to be connected to outside, and takes following any technical measures
To form combined cycle energy supplying system: 1. will rely on second circulation pump and circulating thermal medium between high-temperature heat exchanger and generator
Pipeline constitutes closed loop and is adjusted between high-temperature heat exchanger, generator and second heat exchanger to pump by second circulation
Closed loop is constituted with circulating thermal medium pipeline;2. by relying on second circulation to pump between high-temperature heat exchanger and generator
Closed loop, which is constituted, with circulating thermal medium pipeline is adjusted to high-temperature heat exchanger, generator, second heat exchanger and evaporation
Closed loop is constituted by second circulation pump and circulating thermal medium pipeline between device;3. by high-temperature heat exchanger and generation
Closed loop, which is constituted, by second circulation pump and circulating thermal medium pipeline between device is adjusted to high-temperature heat exchanger, generation
Closure is constituted by circulating pump and circulating thermal medium pipeline between device, second heat exchanger, evaporator and low temperature heat exchanger to follow
Loop back path.
It is to increase high temperature in any combined cycle energy supplying system described in 1-20 43. combined cycle energy supplying system
Heat exchanger, second circulation pump, the second generator, the second solution pump, the second solution heat exchanger and the second absorber, will be remaining
Generator has mixed-gas channel to be adjusted to remaining with external be connected to again after heat boiler has mixed-gas channel to be connected to generator
High-temperature heat exchanger has mixed-gas channel and outside again after heat boiler has mixed-gas channel to be connected to high-temperature heat exchanger
Connection is closed between high-temperature heat exchanger, generator and the second generator by second circulation pump and circulating thermal medium pipeline composition
Close circulation loop;There is refrigerant steam channel to be connected to absorber evaporator to be adjusted to evaporator and have refrigerant steam channel and the
The connection of two absorbers, there are also weak solution pipelines through the second solution pump and the second solution heat exchanger and the second hair for the second absorber
Raw device connection, there are also concentrated solution pipelines to be connected to through the second solution heat exchanger with the second absorber for the second generator, the second generation
There are also refrigerant steam channels to be connected to absorber for device, and there are also heated medium pipelines be connected to outside for the second absorber, is formed and is joined
Close circulation energy supplying system.
It is to cancel boiler in any combined cycle energy supplying system described in 1-20 44. combined cycle energy supplying system
There is blast tube to be connected to waste heat boiler, cancelling air turbine has air duct to be connected to waste heat boiler, and cancelling waste heat boiler has
Generator has mixed-gas channel to be connected to outside again after mixed-gas channel is connected to generator, and boiler has blast tube
Generator has blast tube to be connected to outside again after being sequentially communicated waste heat boiler and generator, and air turbine has air duct
Generator has air duct to be connected to outside again after being sequentially communicated waste heat boiler and generator, forms combined cycle energy supply system
System.
It is to increase work in any combined cycle energy supplying system described in 1-44 45. combined cycle energy supplying system
Machine, air-steam forward circulation provide power to working machine respectively, provide power to compression reverse circulation and to absorption
Reverse circulation provides driving thermic load, forms combined cycle energy supplying system.
46. combined cycle energy supplying system, be in any combined cycle energy supplying system described in 1-45, by fuel and
Air duct is changed to high temperature heat source medium channel, and blast tube is changed to low-temperature heat source medium channel, forms combined cycle
Energy supplying system.
Detailed description of the invention:
Fig. 1 be according to the present invention provided by combined cycle the 1st kind of principled thermal system figure of energy supplying system.
Fig. 2 be according to the present invention provided by combined cycle the 2nd kind of principled thermal system figure of energy supplying system.
Fig. 3 be according to the present invention provided by combined cycle the 3rd kind of principled thermal system figure of energy supplying system.
Fig. 4 be according to the present invention provided by combined cycle the 4th kind of principled thermal system figure of energy supplying system.
Fig. 5 be according to the present invention provided by combined cycle the 5th kind of principled thermal system figure of energy supplying system.
Fig. 6 be according to the present invention provided by combined cycle the 6th kind of principled thermal system figure of energy supplying system.
Fig. 7 be according to the present invention provided by combined cycle the 7th kind of principled thermal system figure of energy supplying system.
Fig. 8 be according to the present invention provided by combined cycle the 8th kind of principled thermal system figure of energy supplying system.
Fig. 9 be according to the present invention provided by combined cycle the 9th kind of principled thermal system figure of energy supplying system.
Figure 10 be according to the present invention provided by combined cycle the 10th kind of principled thermal system figure of energy supplying system.
Figure 11 be according to the present invention provided by combined cycle the 11st kind of principled thermal system figure of energy supplying system.
Figure 12 be according to the present invention provided by combined cycle the 12nd kind of principled thermal system figure of energy supplying system.
Figure 13 be according to the present invention provided by combined cycle the 13rd kind of principled thermal system figure of energy supplying system.
Figure 14 be according to the present invention provided by combined cycle the 14th kind of principled thermal system figure of energy supplying system.
Figure 15 be according to the present invention provided by combined cycle the 15th kind of principled thermal system figure of energy supplying system.
Figure 16 be according to the present invention provided by combined cycle the 16th kind of principled thermal system figure of energy supplying system.
Figure 17 be according to the present invention provided by combined cycle the 17th kind of principled thermal system figure of energy supplying system.
Figure 18 be according to the present invention provided by combined cycle the 18th kind of principled thermal system figure of energy supplying system.
Figure 19 be according to the present invention provided by combined cycle the 19th kind of principled thermal system figure of energy supplying system.
Figure 20 be according to the present invention provided by combined cycle the 20th kind of principled thermal system figure of energy supplying system.
Figure 21 be according to the present invention provided by combined cycle the 21st kind of principled thermal system figure of energy supplying system.
Figure 22 be according to the present invention provided by combined cycle the 22nd kind of principled thermal system figure of energy supplying system.
Figure 23 be according to the present invention provided by combined cycle the 23rd kind of principled thermal system figure of energy supplying system.
Figure 24 be according to the present invention provided by combined cycle the 24th kind of principled thermal system figure of energy supplying system.
Figure 25 be according to the present invention provided by combined cycle the 25th kind of principled thermal system figure of energy supplying system.
Figure 26 be according to the present invention provided by combined cycle the 26th kind of principled thermal system figure of energy supplying system.
Figure 27 be according to the present invention provided by combined cycle the 27th kind of principled thermal system figure of energy supplying system.
Figure 28 be according to the present invention provided by combined cycle the 28th kind of principled thermal system figure of energy supplying system.
Figure 29 be according to the present invention provided by combined cycle the 29th kind of principled thermal system figure of energy supplying system.
Figure 30 be according to the present invention provided by combined cycle the 30th kind of principled thermal system figure of energy supplying system.
Figure 31 be according to the present invention provided by combined cycle the 31st kind of principled thermal system figure of energy supplying system.
In figure, A- compressor, B- boiler, C- air turbine, D- steam turbine, E- waste heat boiler, F- circulating pump, G- heat
Exchanger, H- compressor, I- cryogenic throttle valve, J- low temperature heat exchanger, the second compressor of K-, the second condenser of L-, M- are cooling
Device, the second cryogenic throttle valve of N-, O- expanding machine, P- regenerator, Q- high-temperature heat exchanger, R- second circulation pump, S- working machine;
1- absorber, 2- generator, 3- condenser, 4- evaporator, 5- throttle valve, 6- solution pump, 7- solution heat exchanger, 8- heat are handed over
Parallel operation, the second generator of 9-, 10- second throttle, the second solution pump of 11-, the second solution heat exchanger of 12-, 13- third hair
Raw device, 14- third throttle valve, 15- third solution pump, 16- third solution heat exchanger, the second absorber of 17-.
Here following explanation is also provided:
(1) evaporator --- it is named from absorption reverse circulation angle, is evaporator in absorption reverse circulation, is pressing
Make condenser in contracting formula reverse circulation or cooler uses.
(2) cryogenic throttle valve I --- the throttle valve in compression reverse circulation is named as cryogenic throttle valve, it will be absorption
Throttle valve in reverse circulation is respectively designated as throttle valve, second throttle and third throttle valve.
(3) compressor of the compressed air in air turbine device is referred to as to calm the anger by compressor and compressor one by one
The compressor of compression work medium in reverse circulation is referred to as compressor by machine.
(4) working media --- claim the gaseous working medium in compressed steam circulation and Absorption heat-transformer to refrigerant vapour, liquid
Working medium claims cryogen liquid, by compressed gas recycle in working medium claim refrigerant gas;Liquid refrigerant in Steam Power Circulation is claimed cold
Lime set, such as condensate or other liquid mediums.
(5) condenser and cooler --- the heat exchanger based on working medium release latent heat claims condenser, and working medium discharges sensible heat
Based on heat exchanger claim cooler.
(6) boiler --- fuel chemical energy is changed by thermal energy by burning, heating device is carried out to working medium;Here it also wraps
Waste heat boiler is included, high temperature heat source medium flows through boiler and heats to working medium at this time, and the heat source medium after reduction temperature mentions
Supply reverse circulation system makees driving thermal medium.
(7) process and structure of substantive content of the present invention it are not related to, not in express ranges of the present invention.
Specific embodiment:
First it is noted that in the statement of structure and process, do not repeat in inessential situation;To apparent
Process do not state.Carry out the present invention is described in detail with example with reference to the accompanying drawing.
Combined cycle energy supplying system shown in FIG. 1 is achieved in that
(1) in structure, it is mainly handed over by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
Parallel operation, compressor, cryogenic throttle valve, low temperature heat exchanger, evaporator, absorber, generator, condenser, throttle valve, solution
Pump, solution heat exchanger and working machine are formed;Compressor A has air duct to be connected to outside, and compressor A also compresses sky
Boiler B has compressed air channel to be connected to air turbine C again after gas channel is connected to boiler B, and there are also fuel and sky by boiler B
Gas channel is connected to outside, and there are also blast tubes to be connected to waste heat boiler E by boiler B, air turbine C there are also air duct with it is remaining
Heat boiler E connection, generator 2 has mixed gas logical again after waste heat boiler E is connected to there are also mixed-gas channel with generator 2
Road is connected to outside, and steam turbine D has low-pressure steam channel to be connected to heat exchanger G, and there are also condensate liquid pipelines by heat exchanger G
Circulating pump F has condensate liquid pipeline to be connected to waste heat boiler E again after being connected to circulating pump F, and there are also high steams by waste heat boiler E
Channel is connected to steam turbine D, heat exchanger G there are also heated medium pipeline with outside be connected to;Compressor H has refrigerant vapour
The finisher 4 that channel is connected to evaporator 4 has cryogen liquid pipeline to be connected to through cryogenic throttle valve I with low temperature heat exchanger J again,
There are also refrigerant steam channels to be connected to compressor H by low temperature heat exchanger J, and there are also cryogenic media pipelines and outer by low temperature heat exchanger J
Portion's connection;Evaporator 4 is connected to there are also refrigerant steam channel with absorber 1, and there are also weak solution pipelines through 6 He of solution pump for absorber 1
Solution heat exchanger 7 is connected to generator 2, and there are also concentrated solution pipelines through solution heat exchanger 7 and the company of absorber 1 for generator 2
Logical, generator 2 is connected to there are also refrigerant steam channel with condenser 3, and there are also cryogen liquid pipelines through throttle valve 5 and evaporation for condenser 3
Device 4 is connected to, and absorber 1 and condenser 3 also have heated medium pipeline to be connected to outside respectively;Compressor, boiler, Air wheel
Machine, steam turbine, waste heat boiler, circulating pump, heat exchanger and operating mechanism are at air-steam forward circulation system, compression
Machine, evaporator, cryogenic throttle valve and low temperature heat exchanger constitute compression reverse circulation system, absorber, generator, condensation
Device, evaporator, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system.
(2) in process, compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger are carried out
Air-steam forward circulation --- fuel and air enter boiler B and burn, combustion gas in boiler B heat release in compressed air it
Enter waste heat boiler E afterwards, air flows through compressor A boosting heating, enters after compressed air flows through boiler B, heat absorption heats up empty
Gas-turbine C, compressed air flow through air turbine C decompression work done, and the air after work done enters waste heat boiler E, combustion gas and air
Heating condensate liquid is supplied to generator 2 at the mixed gas that high steam, combustion gas and air are formed and drives in waste heat boiler E
Dynamic thermal medium, the high steam that waste heat boiler E is generated enter steam turbine D decompression work done, and the low pressure of steam turbine E discharge is steamed
Vapour enters heat exchanger G, heat release in heated medium into condensate liquid, and condensate liquid is supplied to waste heat pot after circulating pump F pressurization
Furnace E, heat absorption are provided at high steam and to steam turbine D;Compressor, evaporator, cryogenic throttle valve and low temperature heat exchanger into
Row compression reverse circulation --- refrigerant vapour enters compressor H, and evaporator 4 and heat release are flowed through after boosting heating into cryogen
Liquid, cryogen liquid enter low temperature heat exchanger J, heat absorption after cryogenic throttle valve I throttling and mention at refrigerant vapour and to compressor H
For;Absorber, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchanger absorption inversely follow
The weak solution of ring --- absorber 1 enters generator 2, heat absorption release refrigerant vapour simultaneously through solution pump 6 and solution heat exchanger 7
There is provided to condenser 3, the concentrated solution of generator 2 enter absorber 1 through solution heat exchanger 7, absorb refrigerant vapour and heat release in
Heated medium, the refrigerant vapour heat release of condenser 3 is in heated medium at cryogen liquid, and the cryogen liquid of condenser 3 is through throttle valve
5 throttlings enter evaporator 4, heat absorption is provided at refrigerant vapour and to absorber 1;Air-steam forward circulation is respectively to working machine
Power is provided with compression reverse circulation, air-steam forward circulation provides driving thermic load, pressure to absorption reverse circulation
Contracting formula reverse circulation obtains low temperature thermic load and by evaporator to absorption reverse circulation heat supply, and absorption reverse circulation is logical
Absorber and the external heat supply of condenser are crossed, combined cycle energy supplying system is formed.
Combined cycle energy supplying system shown in Fig. 2 is achieved in that
In combined cycle energy supplying system shown in Fig. 1, increase the second compressor, by compressor H have refrigerant steam channel with
The finisher 4 of 4 connection of evaporator has cryogen liquid pipeline to be connected to through cryogenic throttle valve I with low temperature heat exchanger J to be adjusted to press again
The finisher 4 that contracting machine H has refrigerant steam channel to be connected to evaporator 4 has refrigerant steam channel and the second compressor K to connect again
Logical, there are also the finishers 4 that refrigerant steam channel is connected to evaporator 4 to have cryogen liquid pipeline through low temperature section again by the second compressor K
Stream valve I is connected to low temperature heat exchanger J;The refrigerant vapour that compressor H is generated enters the after flowing through 4 heat release of evaporator cooling
Two compressor K, the refrigerant vapour that the second compressor K is generated are provided to evaporator 4, form combined cycle energy supplying system.
Combined cycle energy supplying system shown in Fig. 3 is achieved in that
(1) in structure, it is mainly handed over by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
Parallel operation, compressor, the second condenser, cryogenic throttle valve, low temperature heat exchanger, evaporator, absorber, generator, condenser,
Throttle valve, solution pump and solution heat exchanger are formed;Compressor A has air duct to be connected to outside, and there are also press by compressor A
Boiler B has compressed air channel to be connected to air turbine C again after contracting air duct is connected to boiler B, and there are also fuel by boiler B
It is connected to air duct with outside, there are also blast tubes to be connected to waste heat boiler E by boiler B, and there are also air ducts by air turbine C
It is connected to waste heat boiler E, generator 2 has gaseous mixture again after waste heat boiler E is connected to there are also mixed-gas channel with generator 2
Body channel is connected to outside, and steam turbine D has low-pressure steam channel to be connected to heat exchanger G, and there are also condensate liquids by heat exchanger G
Circulating pump F has condensate liquid pipeline to be connected to waste heat boiler E again after pipeline is connected to circulating pump F, and there are also high pressures by waste heat boiler E
Steam channel is connected to steam turbine D, heat exchanger G there are also heated medium pipeline with outside be connected to;Compressor H has cryogen
The second condenser L has cryogen liquid pipeline through cryogenic throttle valve I and Low Temperature Thermal again after steam channel is connected to the second condenser L
Exchanger J connection, there are also refrigerant steam channels to be connected to compressor H by low temperature heat exchanger J, and there are also low temperature by low temperature heat exchanger J
Medium pipeline be connected to outside, and there are also heated medium pipelines to be connected to external by the second condenser L;Evaporator 4 has refrigerant vapour
Channel is connected to absorber 1, and there are also weak solution pipelines through solution pump 6 and solution heat exchanger 7 and generator 2 company for absorber 1
Logical, generator 2 is connected to through solution heat exchanger 7 with absorber 1 there are also concentrated solution pipeline, and there are also refrigerant steam channels for generator 2
It is connected to condenser 3, condenser 3 is connected to through throttle valve 5 with evaporator 4 there are also cryogen liquid pipeline, and there are also low temperature to be situated between for evaporator 4
Matter pipeline is connected to outside, and absorber 1 and condenser 3 also have heated medium pipeline to be connected to outside respectively;Compressor, pot
Furnace, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compression
Machine, the second condenser, cryogenic throttle valve and low temperature heat exchanger constitute compression reverse circulation system, absorber, generator,
Condenser, evaporator, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system.
(2) in process, compared with the combined cycle energy supplying system shown in Fig. 1, in addition to no working machine, the difference is that:
Compressor, the second condenser, cryogenic throttle valve and low temperature heat exchanger carry out compression reverse circulation --- and refrigerant vapour enters
Compressor H flows through the second condenser L and heat release in heated medium into cryogen liquid after boosting heating, cryogen liquid is through low temperature section
Valve I throttling is flowed to enter low temperature heat exchanger J later, absorb heat into refrigerant vapour and provide to compressor H;Evaporator 4 is directly from low
Warm medium obtains low temperature thermic load.
Combined cycle energy supplying system shown in Fig. 4 is achieved in that
In combined cycle energy supplying system shown in Fig. 3, increase the second compressor, by compressor H have refrigerant steam channel with
The second condenser L has cryogen liquid pipeline to be connected to through cryogenic throttle valve I with low temperature heat exchanger J again after second condenser L connection
The second condenser L has refrigerant steam channel again after being adjusted to compressor H and having refrigerant steam channel to be connected to the second condenser L
It is connected to the second compressor K, the second condenser after the second compressor K is connected to there are also refrigerant steam channel with the second condenser L
L has cryogen liquid pipeline to be connected to through cryogenic throttle valve I with low temperature heat exchanger J again;The refrigerant vapour that compressor H is generated flows through the
Enter the second compressor K after two condenser L heat releases cooling, the refrigerant vapour that the second compressor K is generated is again to the second condenser
L is provided, and forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in fig. 5 is achieved in that
(1) in structure, it is mainly handed over by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
Parallel operation, compressor, cooler, cryogenic throttle valve, low temperature heat exchanger, evaporator, absorber, generator, condenser, throttling
Valve, solution pump, solution heat exchanger and working machine are formed;Compressor A has air duct to be connected to outside, and compressor A is also
Boiler B has compressed air channel to be connected to air turbine C again after compressed air channel is connected to boiler B, and there are also fire by boiler B
Material and air duct are connected to external, and there are also blast tubes to be connected to waste heat boiler E by boiler B, and there are also air to lead to by air turbine C
Road is connected to waste heat boiler E, and generator 2 has mixing again after waste heat boiler E is connected to there are also mixed-gas channel with generator 2
Gas passage is connected to outside, and steam turbine D has low-pressure steam channel to be connected to heat exchanger G, and there are also condense by heat exchanger G
Circulating pump F has condensate liquid pipeline to be connected to waste heat boiler E again after liquid pipeline is connected to circulating pump F, and there are also high by waste heat boiler E
Pressure steam channel is connected to steam turbine D, and there are also heated medium pipelines to be connected to external by heat exchanger G;Compressor H has cold
The aftercooler M that agent steam channel is connected to cooler M has refrigerant steam channel to be connected to evaporator 4 again, and evaporator 4 is also
Cryogen liquid pipeline is connected to through cryogenic throttle valve I with low temperature heat exchanger J, and there are also refrigerant steam channels and pressure by low temperature heat exchanger J
Contracting machine H connection, there are also cryogenic media pipelines to be connected to external by low temperature heat exchanger J, and there are also heated medium pipelines by cooler M
It is connected to outside;Evaporator 4 is connected to there are also refrigerant steam channel with absorber 1, and there are also weak solution pipelines through solution for absorber 1
Pump 6 and solution heat exchanger 7 are connected to generator 2, and there are also concentrated solution pipelines through solution heat exchanger 7 and absorber for generator 2
1 connection, generator 2 be connected tos there are also refrigerant steam channel with condenser 3, the also cryogen liquid pipeline of condenser 3 through throttle valve 5 and
Evaporator 4 is connected to, and absorber 1 and condenser 3 also have heated medium pipeline to be connected to outside respectively;Compressor, boiler, sky
Gas-turbine, steam turbine, waste heat boiler, circulating pump, heat exchanger and operating mechanism are at air-steam forward circulation system, pressure
Contracting machine, cooler, evaporator, cryogenic throttle valve and low temperature heat exchanger constitute compression reverse circulation system, absorber, hair
Raw device, condenser, evaporator, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system.
(2) in process, compared with the combined cycle energy supplying system shown in Fig. 1, the difference is that: compressor, cooler, steaming
Hair device, cryogenic throttle valve and low temperature heat exchanger carry out compression reverse circulation --- and refrigerant vapour enters compressor H, and boosting rises
Cooler M is flowed through after temperature and heat release cooling, the refrigerant vapour after cooling down flow through 4 heat release of evaporator into cryogen liquid, cryogen liquid
Enter low temperature heat exchanger J after cryogenic throttle valve I throttling, heat absorption is provided at refrigerant vapour and to compressor H.
Combined cycle energy supplying system shown in fig. 6 is achieved in that
In combined cycle energy supplying system shown in Fig. 5, increase the second compressor, by compressor H have refrigerant steam channel with
The aftercooler M of cooler M connection has refrigerant steam channel to be connected to evaporator 4 to be adjusted to compressor H and have refrigerant vapour logical again
The aftercooler M that road is connected to cooler M has refrigerant steam channel to be connected to the second compressor K again, and the second compressor K is also
The aftercooler M that refrigerant steam channel is connected to cooler M has refrigerant steam channel to be connected to evaporator 4 again;Compressor H is produced
Raw refrigerant vapour is supplied to the second compressor K after flowing through cooler M heat release cooling, and the cryogen that the second compressor K is generated steams
Steam flow is supplied to evaporator 4 after cooler M heat release cooling, forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in Fig. 7 is achieved in that
(1) in structure, it is mainly handed over by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
Parallel operation, compressor, the second compressor, the second condenser, cryogenic throttle valve, the second cryogenic throttle valve, low temperature heat exchanger, steaming
Hair device, absorber, generator, condenser, throttle valve, solution pump and solution heat exchanger are formed;Compressor A has air logical
Road is connected to outside, and boiler B has compressed air channel and sky again after compressor A is connected to there are also compressed air channel with boiler B
Gas-turbine C connection, there are also fuel and air channels be connected to external by boiler B, and there are also blast tubes and waste heat boiler E company by boiler B
Logical, there are also air ducts be connected to waste heat boiler E by air turbine C, and there are also mixed-gas channels and the company of generator 2 by waste heat boiler E
Generator 2 has mixed-gas channel to be connected to outside again after logical, and steam turbine D has low-pressure steam channel and heat exchanger G to connect
Logical, circulating pump F has condensate liquid pipeline and waste heat boiler E again after heat exchanger G is connected to there are also condensate liquid pipeline with circulating pump F
Connection, there are also high steam channels to be connected to steam turbine D by waste heat boiler E, heat exchanger G there are also heated medium pipeline and
Outside connection;Compressor H has low pressure refrigerant steam channel to be connected to evaporator 4, and there are also low pressure cryogen liquid pipelines to pass through for evaporator 4
Low temperature heat exchanger J has refrigerant steam channel and compressor H to connect again after cryogenic throttle valve I is connected to low temperature heat exchanger J
Logical, there are also low pressure refrigerant steam channels to be connected to the second compressor K by compressor H, and there are also high pressure refrigerant vapours by the second compressor K
Channel is connected to the second condenser L, and there are also high pressure cryogen liquid pipelines through evaporator 4 and the second cryogenic throttle valve by the second condenser L
Low temperature heat exchanger J has refrigerant steam channel to be connected to compressor H again after N is connected to low temperature heat exchanger J, and Low Temperature Thermal is handed over
There are also cryogenic media pipelines be connected to outside by parallel operation J, and there are also heated medium pipelines to be connected to external by the second condenser L;Evaporation
Device 4 is connected to there are also refrigerant steam channel with absorber 1, and there are also weak solution pipelines through solution pump 6 and solution heat exchange for absorber 1
Device 7 is connected to generator 2, and generator 2 is connected to through solution heat exchanger 7 with absorber 1 there are also concentrated solution pipeline, and generator 2 is also
There is refrigerant steam channel to be connected to condenser 3, condenser 3 is connected to through throttle valve 5 with evaporator 4 there are also cryogen liquid pipeline, is absorbed
Device 1 and condenser 3 also have heated medium pipeline to be connected to outside respectively;Compressor, boiler, air turbine, steam turbine,
Waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compressor, the second compressor, second cold
Condenser, evaporator, cryogenic throttle valve, the second cryogenic throttle valve and low temperature heat exchanger constitute compression reverse circulation system;It inhales
It receives device, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchanger and constitutes absorption reverse circulation system.
(2) in process, compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger are carried out
Air-steam forward circulation --- fuel and air enter boiler B and burn, combustion gas in boiler B heat release in compressed air it
Enter waste heat boiler E afterwards, air flows through compressor A boosting heating, enters after compressed air flows through boiler B, heat absorption heats up empty
Gas-turbine C, compressed air flow through air turbine C decompression work done, and the air after work done enters waste heat boiler E, combustion gas and air
Heating condensate liquid is supplied to generator 2 at the mixed gas that high steam, combustion gas and air are formed and drives in waste heat boiler E
Dynamic thermal medium, the high steam that waste heat boiler E is generated enter steam turbine D decompression work done, and the low pressure of steam turbine E discharge is steamed
Vapour enters heat exchanger G, heat release in heated medium into condensate liquid, and condensate liquid is supplied to waste heat pot after circulating pump F pressurization
Furnace E, heat absorption are provided at high steam and to steam turbine D;Compressor, the second compressor, the second condenser, evaporator, low temperature
Compression reverse circulation --- refrigerant vapour enters compressor for throttle valve, the second cryogenic throttle valve and low temperature heat exchanger progress
H, the rear portion through being compressed into low pressure refrigerant vapour are supplied to the second compressor K, and another part flows through evaporator 4 and heat release
At entering low temperature heat exchanger J, heat absorption at refrigerant vapour and to compression through cryogenic throttle valve I throttling again after low pressure cryogen liquid
Machine H is provided, and the high pressure refrigerant vapour that the second compressor K is generated flows through the second condenser L and heat release in heated medium into high pressure
Cryogen liquid, high pressure cryogen liquid stream cool down through evaporator 4 and enter low temperature heat exchanger J through the second cryogenic throttle valve N throttling, inhale
Heat is provided at refrigerant vapour and to compressor H;Absorber, generator, condenser, evaporator, throttle valve, solution pump and solution
Heat exchanger carries out absorption reverse circulation --- and the weak solution of absorber 1 enters hair through solution pump 6 and solution heat exchanger 7
Raw device 2, heat absorption release refrigerant vapour are simultaneously provided to condenser 3, and the concentrated solution of generator 2 enters through solution heat exchanger 7 to be absorbed
Device 1 absorbs refrigerant vapour and heat release in heated medium, and the refrigerant vapour heat release of condenser 3 is in heated medium at cryogen
Liquid, the cryogen liquid of condenser 3 enter evaporator 4, heat absorption after the throttling of throttle valve 5 and mention at refrigerant vapour and to absorber 1
For;Air-steam forward circulation provides power to compression reverse circulation respectively and provides driving heat to absorption reverse circulation
Load, compression reverse circulation obtain low temperature thermic load and respectively by the external heat supply of the second condenser and by evaporator to
Absorption reverse circulation heat supply, absorption reverse circulation form combined cycle energy supply by absorber and the external heat supply of condenser
System.
Combined cycle energy supplying system shown in Fig. 8 is achieved in that
(1) in structure, it is mainly handed over by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
Parallel operation, compressor, the second condenser, cryogenic throttle valve, the second cryogenic throttle valve, low temperature heat exchanger, evaporator, absorber,
Generator, condenser, throttle valve, solution pump and solution heat exchanger are formed;Compressor A has air duct to be connected to outside,
Boiler B has compressed air channel to be connected to air turbine C again after compressor A is connected to there are also compressed air channel with boiler B,
There are also fuel and air channels to be connected to outside by boiler B, and there are also blast tubes to be connected to waste heat boiler E by boiler B, air turbine C
There are also air ducts to be connected to waste heat boiler E, generator after waste heat boiler E is connected to there are also mixed-gas channel with generator 2
2 have mixed-gas channel to be connected to outside again, and steam turbine D has low-pressure steam channel to be connected to heat exchanger G, heat exchanger G
Circulating pump F has condensate liquid pipeline to be connected to waste heat boiler E again after being connected to there are also condensate liquid pipeline with circulating pump F, waste heat boiler
There are also high steam channels to be connected to steam turbine D by E, and there are also heated medium pipelines to be connected to outside by heat exchanger G;Compression
Machine H has low pressure refrigerant steam channel to be connected to evaporator 4, evaporator 4 there are also low pressure cryogen liquid pipeline through cryogenic throttle valve I with
Low temperature heat exchanger J has refrigerant steam channel to be connected to compressor H again after low temperature heat exchanger J connection, and compressor H is also
High pressure refrigerant steam channel is connected to the second condenser L, and there are also high pressure cryogen liquid pipelines through evaporator 4 and by the second condenser L
Low temperature heat exchanger J has refrigerant steam channel and compressor H to connect again after two cryogenic throttle valve N are connected to low temperature heat exchanger J
Logical, there are also cryogenic media pipelines be connected to external by low temperature heat exchanger J, the second condenser L there are also heated medium pipeline with outside
Portion's connection;Evaporator 4 is connected to there are also refrigerant steam channel with absorber 1, and there are also weak solution pipelines through 6 He of solution pump for absorber 1
Solution heat exchanger 7 is connected to generator 2, and there are also concentrated solution pipelines through solution heat exchanger 7 and the company of absorber 1 for generator 2
Logical, generator 2 is connected to there are also refrigerant steam channel with condenser 3, and there are also cryogen liquid pipelines through throttle valve 5 and evaporation for condenser 3
Device 4 is connected to, and absorber 1 and condenser 3 also have heated medium pipeline to be connected to outside respectively;Compressor, boiler, Air wheel
Machine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compressor, second cold
Condenser, evaporator, cryogenic throttle valve, the second cryogenic throttle valve and low temperature heat exchanger constitute compression reverse circulation system, inhale
It receives device, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchanger and constitutes absorption reverse circulation system.
(2) in process, compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger are carried out
Air-steam forward circulation --- fuel and air enter boiler B and burn, combustion gas in boiler B heat release in compressed air it
Enter waste heat boiler E afterwards, air flows through compressor A boosting heating, enters after compressed air flows through boiler B, heat absorption heats up empty
Gas-turbine C, compressed air flow through air turbine C decompression work done, and the air after work done enters waste heat boiler E, combustion gas and air
Heating condensate liquid is supplied to generator 2 at the mixed gas that high steam, combustion gas and air are formed and drives in waste heat boiler E
Dynamic thermal medium, the high steam that waste heat boiler E is generated enter steam turbine D decompression work done, and the low pressure of steam turbine E discharge is steamed
Vapour enters heat exchanger G, heat release in heated medium into condensate liquid, and condensate liquid is supplied to waste heat pot after circulating pump F pressurization
Furnace E, heat absorption are provided at high steam and to steam turbine D;Compressor, the second condenser, evaporator, cryogenic throttle valve, second
Compression reverse circulation --- refrigerant vapour enters compressor H, low through being compressed into for cryogenic throttle valve and low temperature heat exchanger progress
It is divided into two parts after pressure refrigerant vapour, a portion continues to be compressed into high pressure refrigerant vapour, and another part flows through evaporation
Device 4 and heat release at low pressure cryogen liquid, low pressure cryogen liquid again through cryogenic throttle valve I throttling enter low temperature heat exchanger J, heat absorption at
Refrigerant vapour is simultaneously provided to compressor H, and the high pressure refrigerant vapour that compressor H is generated flows through the second condenser L and heat release is in being added
At high pressure cryogen liquid, high pressure cryogen liquid stream cools down through evaporator 4 and enters low temperature through the second cryogenic throttle valve N throttling thermal medium
Heat exchanger J, heat absorption are provided at refrigerant vapour and to compressor H;Absorber, generator, condenser, evaporator, throttle valve,
Solution pump and solution heat exchanger carry out absorption reverse circulation --- and the weak solution of absorber 1 is handed over through solution pump 6 and solution heat
Parallel operation 7 enters generator 2, heat absorption release refrigerant vapour and provides to condenser 3, and the concentrated solution of generator 2 is through solution heat exchange
Device 7 enters absorber 1, absorbs refrigerant vapour and heat release in heated medium, and the refrigerant vapour heat release of condenser 3 is in being heated
Medium at cryogen liquid, the cryogen liquid of condenser 3 enter after the throttling of throttle valve 5 evaporator 4, heat absorption at refrigerant vapour and to
Absorber 1 provides;Air-steam forward circulation provides power to compression reverse circulation respectively and to absorption reverse circulation
Offer driving thermic load, compression reverse circulation obtain low temperature thermic load and pass through the external heat supply of the second condenser respectively and lead to
Pervaporation device forms connection by absorber and the external heat supply of condenser to absorption reverse circulation heat supply, absorption reverse circulation
Close circulation energy supplying system.
Combined cycle energy supplying system shown in Fig. 9 is achieved in that
(1) in structure, it is mainly handed over by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
It is parallel operation, compressor, expanding machine, low temperature heat exchanger, evaporator, absorber, generator, condenser, throttle valve, solution pump, molten
Liquid heat exchanger and working machine are formed;Compressor A has air duct to be connected to outside, and there are also compressed air channels by compressor A
Boiler B has compressed air channel to be connected to air turbine C again after being connected to boiler B, and there are also fuel and air channels by boiler B
It is connected to outside, there are also blast tubes to be connected to waste heat boiler E by boiler B, and there are also air ducts and waste heat boiler E by air turbine C
Connection, generator 2 has mixed-gas channel and outside again after waste heat boiler E is connected to there are also mixed-gas channel with generator 2
Connection, steam turbine D have low-pressure steam channel to be connected to heat exchanger G, and there are also condensate liquid pipelines and circulating pump F by heat exchanger G
Circulating pump F has condensate liquid pipeline to be connected to waste heat boiler E again after connection, and there are also high steam channel and steam by waste heat boiler E
Turbine D connection, there are also heated medium pipelines to be connected to external by heat exchanger G;Compressor H has refrigerant gas channel and evaporation
The finisher 4 of 4 connection of device has refrigerant gas channel to be connected to expanding machine O again, and there are also refrigerant gas channels through low by expanding machine O
Temperature heat exchanger J is connected to compressor H, low temperature heat exchanger J there are also cryogenic media pipeline with outside be connected to;Evaporator 4 is also
Refrigerant steam channel is connected to absorber 1, and there are also weak solution pipelines through solution pump 6 and solution heat exchanger 7 and hair for absorber 1
Raw device 2 is connected to, and generator 2 is connected to through solution heat exchanger 7 with absorber 1 there are also concentrated solution pipeline, and there are also cryogens for generator 2
Steam channel is connected to condenser 3, and condenser 3 is connected to through throttle valve 5 with evaporator 4 there are also cryogen liquid pipeline, 1 He of absorber
Condenser 3 also has heated medium pipeline to be connected to outside respectively;Compressor, boiler, air turbine, steam turbine, waste heat pot
Furnace, circulating pump, heat exchanger and operating mechanism are at air-steam forward circulation, compressor, evaporator, expanding machine and Low Temperature Thermal
Exchanger constitutes compression reverse circulation system, evaporator, absorber, generator, condenser, throttle valve, solution pump and solution
Heat exchanger constitutes absorption reverse circulation system.
(2) in process, compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger are carried out
Air-steam forward circulation --- fuel and air enter boiler B and burn, combustion gas in boiler B heat release in compressed air it
Enter waste heat boiler E afterwards, air flows through compressor A boosting heating, enters after compressed air flows through boiler B, heat absorption heats up empty
Gas-turbine C, compressed air flow through air turbine C decompression work done, and the air after work done enters waste heat boiler E, combustion gas and air
Heating condensate liquid is supplied to generator 2 at the mixed gas that high steam, combustion gas and air are formed and drives in waste heat boiler E
Dynamic thermal medium, the high steam that waste heat boiler E is generated enter steam turbine D decompression work done, and the low pressure of steam turbine E discharge is steamed
Vapour enters heat exchanger G, heat release in heated medium into condensate liquid, and condensate liquid is supplied to waste heat pot after circulating pump F pressurization
Furnace E, heat absorption are provided at high steam and to steam turbine D;Compressor, evaporator, expanding machine and low temperature heat exchanger are pressed
Contracting formula reverse circulation --- refrigerant gas enters compressor H, and evaporator 4 and heat release cooling, cryogen gas are flowed through after boosting heating
Body flows through expanding machine O decompression work done, and the refrigerant gas after being depressured flows through the backward compression of low temperature heat exchanger J, heating of absorbing heat
Machine H is provided;Absorber, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchanger carry out absorption inverse
To circulation --- the weak solution of absorber 1 enters generator 2 through solution pump 6 and solution heat exchanger 7, heat absorption release cryogen steams
Vapour is simultaneously provided to condenser 3, and the concentrated solution of generator 2 enters absorber 1 through solution heat exchanger 7, absorbs refrigerant vapour and put
Heat is in heated medium, and the refrigerant vapour heat release of condenser 3 is in heated medium at cryogen liquid, the cryogen liquid warp knuckle of condenser 3
The throttling of valve 5 is flowed to enter evaporator 4 later, absorb heat into refrigerant vapour and provide to absorber 1;Air-steam forward circulation difference
Power is provided to working machine and compression reverse circulation, air-steam forward circulation provides driving heat to absorption reverse circulation
Load, compression reverse circulation obtains low temperature thermic load and by evaporator to absorption reverse circulation heat supply, absorption reverse
Absorber and the external heat supply of condenser are cycled through, combined cycle energy supplying system is formed.
Combined cycle energy supplying system shown in Fig. 10 is achieved in that
In combined cycle energy supplying system shown in Fig. 9, increase the second compressor, by compressor H have refrigerant gas channel with
The finisher 4 of 4 connection of evaporator has refrigerant gas channel to be connected to expanding machine O to be adjusted to compressor H and have refrigerant gas logical again
The finisher 4 that road is connected to evaporator 4 has refrigerant gas channel to be connected to the second compressor K again, and the second compressor K is also
The finisher 4 that refrigerant gas channel is connected to evaporator 4 has refrigerant gas channel to be connected to expanding machine O again;Compressor H is produced
Raw refrigerant gas is supplied to the second compressor K, the cryogen gas that the second compressor K is generated after flowing through 4 heat release of evaporator cooling
Body is supplied to expanding machine O after flowing through 4 heat release of evaporator cooling, forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 11 is achieved in that
(1) in structure, it is mainly handed over by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
It is parallel operation, compressor, expanding machine, low temperature heat exchanger, regenerator, evaporator, absorber, generator, condenser, throttle valve, molten
Liquid pump, solution heat exchanger and working machine are formed;Compressor A has air duct to be connected to outside, and there are also compress by compressor A
Boiler B has compressed air channel to be connected to air turbine C again after air duct is connected to boiler B, boiler B there are also fuel and
Air duct be connected to outside, and there are also blast tubes to be connected to waste heat boiler E by boiler B, air turbine C there are also air duct and
Waste heat boiler E connection, generator 2 has mixed gas again after waste heat boiler E is connected to there are also mixed-gas channel with generator 2
Channel is connected to outside, and steam turbine D has low-pressure steam channel to be connected to heat exchanger G, and there are also condensate lines by heat exchanger G
Circulating pump F has condensate liquid pipeline to be connected to waste heat boiler E again after road is connected to circulating pump F, and there are also high pressure steamings by waste heat boiler E
Vapour channel is connected to steam turbine D, heat exchanger G there are also heated medium pipeline with outside be connected to;Compressor H has cryogen gas
The finisher 4 that body channel is connected to evaporator 4 has refrigerant gas channel to be connected to through regenerator P with expanding machine O again, expanding machine O
There are also refrigerant gas channels to be connected to through low temperature heat exchanger J and regenerator P with compressor H, and there are also low temperature by low temperature heat exchanger J
Medium pipeline is connected to outside;Evaporator 4 is connected to there are also refrigerant steam channel with absorber 1, and there are also weak solution pipes for absorber 1
Road is connected to through solution pump 6 and solution heat exchanger 7 with generator 2, and there are also concentrated solution pipelines through solution heat exchanger 7 for generator 2
It is connected to absorber 1, generator 2 is connected to there are also refrigerant steam channel with condenser 3, and there are also cryogen liquid pipeline warp knuckles for condenser 3
Stream valve 5 is connected to evaporator 4, and absorber 1 and condenser 3 also have heated medium pipeline to be connected to outside respectively;Compressor,
Boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat exchanger and operating mechanism are at air-steam forward circulation
System;Compressor, evaporator, expanding machine, low temperature heat exchanger and regenerator composition compression reverse circulation system, evaporator,
Absorber, generator, condenser, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system.
(2) in process, compared with the combined cycle energy supplying system shown in Fig. 9, the difference is that: compressor H is generated cold
Agent gas is supplied to regenerator P after flowing through 4 heat release of evaporator cooling, and refrigerant gas mentions after flowing through regenerator P heat release cooling
Supply expanding machine O;Expanding machine O discharge refrigerant gas followed by low temperature heat exchanger J and regenerator P, gradually heat absorption heating
It is supplied to compressor H later.
Combined cycle energy supplying system shown in Figure 12 is achieved in that
In the combined cycle energy supplying system shown in Figure 11, increase the second compressor, by compressor H have refrigerant gas channel with
The finisher 4 of 4 connection of evaporator has refrigerant gas channel to be connected to through regenerator P with expanding machine O to be adjusted to compressor H and have again
The finisher 4 that refrigerant gas channel is connected to logical evaporator 4 has refrigerant gas channel to be connected to the second compressor K again, and second
Compressor K there are also the finisher 4 that refrigerant gas channel is connected to evaporator 4 have again refrigerant gas channel through regenerator P with it is swollen
Swollen machine O connection;The refrigerant gas that compressor H is generated is supplied to the second compressor K after flowing through evaporator 4, heat release cooling, the
The refrigerant gas that two compressor K are generated is supplied to expanding machine O, shape followed by evaporator 4 and regenerator P heat release cooling later
At combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 13 is achieved in that
(1) in structure, it is mainly handed over by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
It is parallel operation, compressor, expanding machine, cooler, low temperature heat exchanger, evaporator, absorber, generator, condenser, throttle valve, molten
Liquid pump and solution heat exchanger are formed;Compressor A has air duct to be connected to outside, and there are also compressed air channels by compressor A
Boiler B has compressed air channel to be connected to air turbine C again after being connected to boiler B, and there are also fuel and air channels by boiler B
It is connected to outside, there are also blast tubes to be connected to waste heat boiler E by boiler B, and there are also air ducts and waste heat boiler E by air turbine C
Connection, generator 2 has mixed-gas channel and outside again after waste heat boiler E is connected to there are also mixed-gas channel with generator 2
Connection, steam turbine D have low-pressure steam channel to be connected to heat exchanger G, and there are also condensate liquid pipelines and circulating pump F by heat exchanger G
Circulating pump F has condensate liquid pipeline to be connected to waste heat boiler E again after connection, and there are also high steam channel and steam by waste heat boiler E
Turbine D connection, there are also heated medium pipelines to be connected to external by heat exchanger G;Compressor H has refrigerant gas channel through cooling
Device M is connected to expanding machine O, and there are also refrigerant gas channels to be connected to through low temperature heat exchanger J with compressor H by expanding machine O, Low Temperature Thermal
There are also cryogenic media pipelines be connected to outside by exchanger J, and there are also heated medium pipelines to be connected to external by cooler M;Evaporator
4 have refrigerant steam channel to be connected to absorber 1, absorber 1 there are also weak solution pipeline through solution pump 6 and solution heat exchanger 7 with
Generator 2 is connected to, and generator 2 is connected to through solution heat exchanger 7 with absorber 1 there are also concentrated solution pipeline, and there are also cold for generator 2
Agent steam channel is connected to condenser 3, and condenser 3 is connected to through throttle valve 5 with evaporator 4 there are also cryogen liquid pipeline, evaporator 4
There are also cryogenic media pipelines to be connected to outside, and absorber 1 and condenser 3 also have heated medium pipeline to be connected to outside respectively;
Compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation
System, compressor, cooler, expanding machine and low temperature heat exchanger constitute compression reverse circulation system, absorber, generator,
Condenser, evaporator, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system.
(2) in process, compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger are carried out
Air-steam forward circulation --- fuel and air enter boiler B and burn, combustion gas in boiler B heat release in compressed air it
Enter waste heat boiler E afterwards, air flows through compressor A boosting heating, enters after compressed air flows through boiler B, heat absorption heats up empty
Gas-turbine C, compressed air flow through air turbine C decompression work done, and the air after work done enters waste heat boiler E, combustion gas and air
Heating condensate liquid is supplied to generator 2 at the mixed gas that high steam, combustion gas and air are formed and drives in waste heat boiler E
Dynamic thermal medium, the high steam that waste heat boiler E is generated enter steam turbine D decompression work done, and the low pressure of steam turbine E discharge is steamed
Vapour enters heat exchanger G, heat release in heated medium into condensate liquid, and condensate liquid is supplied to waste heat pot after circulating pump F pressurization
Furnace E, heat absorption are provided at high steam and to steam turbine D;Compressor, cooler, expanding machine and low temperature heat exchanger are pressed
Contracting formula reverse circulation --- refrigerant gas enters compressor H, and cooler M and heat release cooling, cryogen gas are flowed through after boosting heating
Body flows through expanding machine O decompression work done, is depressured the refrigerant gas after work done and flows through low temperature heat exchanger J, heat absorption heating and to pressure
Contracting machine H is provided;Absorber, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchanger carry out absorption
The weak solution of reverse circulation --- absorber 1 enters generator 2, heat absorption release cryogen through solution pump 6 and solution heat exchanger 7
Steam is simultaneously provided to condenser 3, and the concentrated solution of generator 2 enters absorber 1 through solution heat exchanger 7, absorbs refrigerant vapour simultaneously
Heat release is in heated medium, and in heated medium at cryogen liquid, the cryogen liquid of condenser 3 is passed through for the refrigerant vapour heat release of condenser 3
Enter evaporator 4 after the throttling of throttle valve 5, heat absorption is provided at refrigerant vapour and to absorber 1;Air-steam forward circulation point
Power is not provided to compression reverse circulation and provides driving thermic load to absorption reverse circulation, and compression reverse circulation obtains
Take low temperature thermic load and by the external heat supply of cooler, absorption reverse circulation obtain low temperature thermic load and by absorber and
The external heat supply of condenser forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 14 is achieved in that
In the combined cycle energy supplying system shown in Figure 13, increase by the second compressor, compressor H is had into refrigerant gas channel warp
Cooler M is connected to expanding machine O to be adjusted to compressor H and has refrigerant gas channel to be connected to through cooler M with the second compressor K,
There are also refrigerant gas channels to be connected to through cooler M with expanding machine O by second compressor K;The refrigerant gas that compressor H is generated flows through
The second compressor K is supplied to after cooler M heat release cooling, the refrigerant gas that the second compressor K is generated flows through cooler M and puts
It is supplied to expanding machine O after heat, forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in figure 15 is achieved in that
(1) in structure, it is mainly handed over by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
Parallel operation, compressor, cooler, expanding machine, low temperature heat exchanger, regenerator, evaporator, absorber, generator, condenser, section
Stream valve, solution pump and solution heat exchanger are formed;Compressor A has air duct to be connected to outside, and there are also compress by compressor A
Boiler B has compressed air channel to be connected to air turbine C again after air duct is connected to boiler B, boiler B there are also fuel and
Air duct be connected to outside, and there are also blast tubes to be connected to waste heat boiler E by boiler B, air turbine C there are also air duct and
Waste heat boiler E connection, generator 2 has mixed gas again after waste heat boiler E is connected to there are also mixed-gas channel with generator 2
Channel is connected to outside, and steam turbine D has low-pressure steam channel to be connected to heat exchanger G, and there are also condensate lines by heat exchanger G
Circulating pump F has condensate liquid pipeline to be connected to waste heat boiler E again after road is connected to circulating pump F, and there are also high pressure steamings by waste heat boiler E
Vapour channel is connected to steam turbine D, heat exchanger G there are also heated medium pipeline with outside be connected to;Compressor H has cryogen gas
Body channel is connected to through cooler M and regenerator P with expanding machine O, and there are also refrigerant gas channels through low temperature heat exchanger J by expanding machine O
Be connected to regenerator P with compressor H, low temperature heat exchanger J there are also cryogenic media pipeline with outside be connected to, there are also quilts by cooler M
Heat medium pipeline is connected to outside;Evaporator 4 has refrigerant steam channel to be connected to absorber 1, and there are also weak solutions for absorber 1
Pipeline is connected to through solution pump 6 and solution heat exchanger 7 with generator 2, and there are also concentrated solution pipelines through solution heat exchange for generator 2
Device 7 is connected to absorber 1, and generator 2 is connected to there are also refrigerant steam channel with condenser 3, and there are also cryogen liquid pipelines for condenser 3
It is connected to through throttle valve 5 with evaporator 4, the also cryogenic media pipeline of evaporator 4 is connected to outside, and absorber 1 and condenser 3 are also
There is heated medium pipeline to be connected to outside respectively;Compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump
Air-steam forward circulation system, compressor, cooler, expanding machine, low temperature heat exchanger and backheat are constituted with heat exchanger
Device constitutes compression reverse circulation system, and evaporator, absorber, generator, condenser, throttle valve, solution pump and solution heat are handed over
Parallel operation constitutes absorption reverse circulation system.
(2) in process, compared with the combined cycle energy supplying system shown in Figure 13, the difference is that: compressor, cooler,
Expanding machine, low temperature heat exchanger and regenerator carry out compression reverse circulation --- and the refrigerant gas that compressor H is generated successively flows
Expanding machine O is supplied to after cooler M and regenerator P, heat release cooling, refrigerant gas flows through expanding machine O decompression work done, swollen
The refrigerant gas of swollen machine O discharge provides followed by the backward compressor H of low temperature heat exchanger J and regenerator P, heating of absorbing heat.
Combined cycle energy supplying system shown in Figure 16 is achieved in that
In the combined cycle energy supplying system shown in Figure 15, increase by the second compressor, compressor H is had into refrigerant gas channel warp
Cooler M and regenerator P be connected to expanding machine O be adjusted to compressor H have refrigerant gas channel through cooler M and second compress
Machine K connection, the second compressor K have refrigerant gas channel to be connected to through cooler M and regenerator P with expanding machine O again;Compressor H is produced
Raw refrigerant gas is supplied to the second compressor K, the cryogen gas that the second compressor K is generated after flowing through cooler M heat release cooling
Body forms combined cycle energy supplying system followed by expanding machine O is supplied to after cooler M and regenerator P, heat release cooling.
Combined cycle energy supplying system shown in Figure 17 is achieved in that
(1) in structure, it is mainly handed over by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
It is parallel operation, compressor, cooler, evaporator, expanding machine, low temperature heat exchanger, absorber, generator, condenser, throttle valve, molten
Liquid pump and solution heat exchanger are formed;Compressor A has air duct to be connected to outside, and there are also compressed air channels by compressor A
Boiler B has compressed air channel to be connected to air turbine C again after being connected to boiler B, and there are also fuel and air channels by boiler B
It is connected to outside, there are also blast tubes to be connected to waste heat boiler E by boiler B, and there are also air ducts and waste heat boiler E by air turbine C
Connection, generator 2 has mixed-gas channel and outside again after waste heat boiler E is connected to there are also mixed-gas channel with generator 2
Connection, steam turbine D have low-pressure steam channel to be connected to heat exchanger G, and there are also condensate liquid pipelines and circulating pump F by heat exchanger G
Circulating pump F has condensate liquid pipeline to be connected to waste heat boiler E again after connection, and there are also high steam channel and steam by waste heat boiler E
Turbine D connection, there are also heated medium pipelines to be connected to external by heat exchanger G;Compressor H has refrigerant gas channel through cooling
The finisher 4 that device M is connected to evaporator 4 has refrigerant gas channel to be connected to expanding machine O again, and there are also refrigerant gas by expanding machine O
Channel is connected to through low temperature heat exchanger J with compressor H, low temperature heat exchanger J there are also cryogenic media pipeline with outside be connected to, it is cold
But device M there are also heated medium pipeline with outside be connected to;Evaporator 4 is connected to there are also refrigerant steam channel with absorber 1, is absorbed
Device 1 is connected to through solution pump 6 and solution heat exchanger 7 with generator 2 there are also weak solution pipeline, and there are also concentrated solution pipelines for generator 2
It is connected to through solution heat exchanger 7 with absorber 1, generator 2 is connected to there are also refrigerant steam channel with condenser 3, and condenser 3 is also
There is cryogen liquid pipeline to be connected to through throttle valve 5 with evaporator 4, absorber 1 and condenser 3 also have respectively heated medium pipeline with
Outside connection;Compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steaming
Vapour forward circulation system, compressor, cooler, evaporator, expanding machine and low temperature heat exchanger constitute compression reverse circulation system
System, evaporator, absorber, generator, condenser, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation
System.
(2) in process, compared with the combined cycle energy supplying system shown in Fig. 9, in addition to no working machine, the difference is that:
The refrigerant gas that compressor H is generated is supplied to expanding machine O followed by cooler M and evaporator 4, gradually after heat release cooling,
Compression reverse circulation obtains low temperature thermic load and respectively by the external heat supply of cooler and by evaporator to absorption reverse
Circulation heating.
Combined cycle energy supplying system shown in Figure 18 is achieved in that
In the combined cycle energy supplying system shown in Figure 17, increase by the second compressor, compressor H is had into refrigerant gas channel warp
The finisher 4 that cooler M is connected to evaporator 4 has refrigerant gas channel to be connected to expanding machine O to be adjusted to compressor H and have again
The finisher 4 that refrigerant gas channel is connected to through cooler M with evaporator 4 has refrigerant gas channel and the second compressor K to connect again
Logical, there are also the finishers 4 that refrigerant gas channel is connected to through cooler M with evaporator 4 refrigerant gas again by the second compressor K
Channel is connected to expanding machine O;After the refrigerant gas that compressor H is generated is followed by cooler M and evaporator 4, heat release cooling
It is supplied to the second compressor K, the refrigerant gas that the second compressor K is generated is followed by cooler M and evaporator 4, heat release cooling
It is supplied to expanding machine O later, forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 19 is achieved in that
(1) in structure, it is mainly handed over by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
Parallel operation, compressor, cooler, evaporator, regenerator, expanding machine, low temperature heat exchanger, absorber, generator, condenser, section
Stream valve, solution pump and solution heat exchanger are formed;Compressor A has air duct to be connected to outside, and there are also compress by compressor A
Boiler B has compressed air channel to be connected to air turbine C again after air duct is connected to boiler B, boiler B there are also fuel and
Air duct be connected to outside, and there are also blast tubes to be connected to waste heat boiler E by boiler B, air turbine C there are also air duct and
Waste heat boiler E connection, generator 2 has mixed gas again after waste heat boiler E is connected to there are also mixed-gas channel with generator 2
Channel is connected to outside, and steam turbine D has low-pressure steam channel to be connected to heat exchanger G, and there are also condensate lines by heat exchanger G
Circulating pump F has condensate liquid pipeline to be connected to waste heat boiler E again after road is connected to circulating pump F, and there are also high pressure steamings by waste heat boiler E
Vapour channel is connected to steam turbine D, heat exchanger G there are also heated medium pipeline with outside be connected to;Compressor H has cryogen gas
The finisher 4 that body channel is connected to through cooler M with evaporator 4 has refrigerant gas channel to connect through regenerator P and expanding machine O again
Logical, there are also refrigerant gas channels to be connected to through low temperature heat exchanger J and regenerator P with compressor H by expanding machine O, low temperature heat exchanger
There are also cryogenic media pipelines be connected to outside by J, and there are also heated medium pipelines to be connected to external by cooler M;Evaporator 4 is also
Refrigerant steam channel is connected to absorber 1, and there are also weak solution pipelines through solution pump 6 and solution heat exchanger 7 and hair for absorber 1
Raw device 2 is connected to, and generator 2 is connected to through solution heat exchanger 7 with absorber 1 there are also concentrated solution pipeline, and there are also cryogens for generator 2
Steam channel is connected to condenser 3, and condenser 3 is connected to through throttle valve 5 with evaporator 4 there are also cryogen liquid pipeline, 1 He of absorber
Condenser 3 also has heated medium pipeline to be connected to outside respectively;Compressor, boiler, air turbine, steam turbine, waste heat pot
Furnace, circulating pump and heat exchanger constitute air-steam forward circulation system, compressor, cooler, evaporator, regenerator, swollen
Swollen machine and low temperature heat exchanger constitute compression reverse circulation system, evaporator, absorber, generator, condenser, throttle valve,
Solution pump and solution heat exchanger constitute absorption reverse circulation system.
(2) in process, compared with the combined cycle energy supplying system shown in Figure 17, the difference is that: compressor H is generated cold
Followed by expanding machine O is supplied to after cooler M, evaporator 4 and regenerator P heat release cooling, expanding machine O is discharged agent gas
Refrigerant gas followed by being supplied to compressor H after low temperature heat exchanger J and regenerator P heat absorption heating.
Combined cycle energy supplying system shown in Figure 20 is achieved in that
In the combined cycle energy supplying system shown in Figure 19, increase by the second compressor, compressor H is had into refrigerant gas channel warp
The finisher 4 that cooler M is connected to evaporator 4 has refrigerant gas channel to be connected to through regenerator P with expanding machine O to be adjusted to again
The finisher 4 that compressor H has refrigerant gas channel to be connected to through cooler M with evaporator 4 has refrigerant gas channel and second again
Compressor K connection, there are also the finishers 4 that refrigerant gas channel is connected to through cooler M with evaporator 4 to have again by the second compressor K
Refrigerant gas channel is connected to through regenerator P with expanding machine O;The refrigerant gas that compressor H is generated is followed by cooler M and steaming
The second compressor K is supplied to after hair device 4, heat release cooling, the refrigerant gas that the second compressor K is generated is followed by cooler
M, it is supplied to expanding machine O after evaporator 4 and regenerator P heat release cooling, forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 21 is achieved in that
(1) in structure, in combined cycle energy supplying system shown in Fig. 1, increase second heat exchanger, generator 2 is had mixed
Gas passage is closed to be adjusted to generator 2 with external be connected to and have mixed-gas channel to be connected to through second heat exchanger 8 with external, the
The also heated medium pipeline of two heat exchangers 8 is connected to outside;Increase the second generator, second throttle, the second solution pump
With the second solution heat exchanger, absorber 1 add weak solution pipeline through the second solution pump 11 and the second solution heat exchanger 12 with
The connection of second generator 9, the second generator 9 are connected to through the second solution heat exchanger 12 with absorber 1 there are also concentrated solution pipeline,
There is refrigerant steam channel to be connected to condenser 3 in generator 2 to be adjusted to generator 2 and have refrigerant steam channel and the second generator 9
The second generator 9 has cryogen liquid pipeline to be connected to through second throttle 10 with condenser 3 again after connection, and the second generator 9 is also
Refrigerant steam channel is connected to condenser 3.
(2) in process, the mixed gas of waste heat boiler E discharge is followed by generator 2 and second heat exchanger 8, heat release
Externally discharge after cooling;The generation refrigerant vapour of generator 2 is supplied to the second generator 9 and makees driving thermal medium, absorber 1
Part weak solution enters the second generator 9 through the second solution pump 11 and the second solution heat exchanger 12, and refrigerant vapour flows through second
Generator 9, heating enter the solution release refrigerant vapour in it and to the offers of condenser 3, and the concentrated solution of the second generator 9 passes through
Second solution heat exchanger 12 enters absorber 1, flow through the refrigerant vapour heat release of the second generator 9 at after cryogen liquid through the
The throttling of two throttle valves 10 enters condenser 3, forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 22 is achieved in that
(1) in structure, in combined cycle energy supplying system shown in Fig. 1, increase second heat exchanger, generator 2 is had mixed
Close gas passage with it is external be connected to be adjusted to generator 2 have mixed-gas channel through second heat exchanger 8 and evaporator 4 with outside
Portion's connection, the also heated medium pipeline of second heat exchanger 8 are connected to outside;Increase the second generator, second throttle and
Absorber 1 is had weak solution pipeline to be connected to through solution pump 6 and solution heat exchanger 7 with generator 2 by the second solution heat exchanger
Being adjusted to absorber 1 has weak solution pipeline through solution pump 6, solution heat exchanger 7 and the second solution heat exchanger 12 and generator
Generator 2 is had concentrated solution pipeline to be connected to absorber 1 through solution heat exchanger 7 and is adjusted to generator 2 and has concentrated solution by 2 connections
Pipeline is connected to through the second solution heat exchanger 12 with the second generator 9, and the second generator 9 has concentrated solution pipeline through solution heat again
Exchanger 7 is connected to absorber 1, is had refrigerant steam channel to be connected to condenser 3 in generator 2 and is adjusted to generator 2 and has cryogen
Second generator 9 has cryogen liquid pipeline through second throttle 10 and condenser again after steam channel is connected to the second generator 9
3 connections, the second generator 9 are connected to there are also refrigerant steam channel with condenser 3.
(2) in process, the mixed gas of waste heat boiler E discharge is followed by generator 2, second heat exchanger 8 and evaporation
Device 4, gradually externally discharge after heat release cooling;Generator 2 generates refrigerant vapour and is supplied to the second generator 9 work driving heat Jie
The concentrated solution of matter, absorber 1 enters generator 2, hair through solution pump 6, solution heat exchanger 7 and the second solution heat exchanger 12
The concentrated solution of raw device 2 enters the second generator 9 through the second solution heat exchanger 12, and refrigerant vapour flows through the second generator 9, adds
Heat enters the solution release refrigerant vapour in it and to the offer of condenser 3, and the concentrated solution of the second generator 9 is through solution heat exchange
Device 7 enters absorber 1, flow through the refrigerant vapour heat release of the second generator 9 at after cryogen liquid through second throttle 10 throttle into
Enter condenser 3, forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 23 is achieved in that
(1) in structure, in combined cycle energy supplying system shown in Fig. 1, increase second heat exchanger, generator 2 is had mixed
Gas passage is closed to be adjusted to generator 2 with external be connected to and have mixed-gas channel through second heat exchanger 8, evaporator 4 and low temperature
Heat exchanger J is connected to outside, and the also heated medium pipeline of second heat exchanger 8 is connected to outside;Increase by second to occur
Absorber 1 is had weak solution pipeline through 6 He of solution pump by device, second throttle, the second solution pump and the second solution heat exchanger
Solution heat exchanger 7 is connected to generator 2 to be adjusted to absorber 1 and has weak solution pipeline through solution pump 6 and solution heat exchanger 7
It is connected to the second generator 9, the second generator 9 has concentrated solution pipeline through the second solution pump 11 and the second solution heat exchanger again
12 are connected to generator 2, have concentrated solution pipeline to be connected to through solution heat exchanger 7 with absorber 1 in generator 2 and are adjusted to occur
Device 2 has concentrated solution pipeline to be connected to through the second solution heat exchanger 12 and solution heat exchanger 7 with absorber 1, and generator 2 is had
Refrigerant steam channel is connected to condenser 3 be adjusted to generator 2 and there is refrigerant steam channel to be connected to the second generator 9 after
Two generators 9 have cryogen liquid pipeline to be connected to through second throttle 10 with condenser 3 again, and there are also refrigerant vapours to lead to for the second generator 9
Road is connected to condenser 3.
(2) in process, the mixed gas of waste heat boiler E discharge is followed by generator 2, second heat exchanger 8, evaporator
4 and low temperature heat exchanger J, gradually externally discharge after heat release cooling;Generator 2 generates refrigerant vapour and is supplied to the second generation
Device 9 makees driving thermal medium, and the weak solution of absorber 1 enters the second generator 9, cryogen through solution pump 6 and solution heat exchanger 7
The solution that steam flows through the second generator 9, heating enters in it discharges refrigerant vapour and provides to condenser 3, the second generator
9 concentrated solution enters generator 2 through the second solution pump 11 and the second solution heat exchanger 12, and the concentrated solution of generator 2 is through second
Solution heat exchanger 12 and solution heat exchanger 7 enter absorber 1, flow through the refrigerant vapour heat release of the second generator 9 into cryogen
Enter condenser 3 through the throttling of second throttle 10 after liquid, forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 24 is achieved in that
In the combined cycle energy supplying system shown in Figure 22, generator 2 has mixed-gas channel through second heat exchanger 8 and steams
Hair device 4 is adjusted to generator 2 and has mixed-gas channel through the second generator 9, second heat exchanger 8 and evaporate with external be connected to
Device 4 is connected to outside;The mixed gas of waste heat boiler E discharge is followed by generator 2, the second generator 9, the second heat exchange
Device 8 and 4 heat release of evaporator cooling, form combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 25 is achieved in that
(1) in structure, in the combined cycle energy supplying system shown in Figure 21, increase third generator, third throttle valve, third
Solution pump and third solution heat exchanger, absorber 1 add weak solution pipeline through third solution pump 15 and third solution heat exchange
Device 16 is connected to third generator 13, and there are also concentrated solution pipelines through third solution heat exchanger 16 and to absorb for third generator 13
Device 1 is connected to, and is had refrigerant steam channel to be connected to condenser 3 in second generator 9 and is adjusted to the second generator 9 and has refrigerant vapour
Third generator 13 has cryogen liquid pipeline through third throttle valve 14 and condenser 3 again after channel is connected to third generator 13
Connection, third generator 13 are connected to there are also refrigerant steam channel with condenser 3.
(2) in process, the refrigerant vapour that the second generator 9 generates is supplied to third generator 13 and makees driving thermal medium, inhales
The part weak solution for receiving device 1 enters third generator 13, refrigerant vapour through third solution pump 15 and third solution heat exchanger 16
Flow through third generator 13, the solution that heating enters in it discharges refrigerant vapour and provides to condenser 3, third generator 13
Concentrated solution through third solution heat exchanger 16 enter absorber 1, flow through the refrigerant vapour heat release of third generator 13 into cryogen
Enter condenser 3 through the throttling of third throttle valve 14 after liquid, forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 26 is achieved in that
(1) in structure, in the combined cycle energy supplying system shown in Figure 22, there is cryogen liquid pipeline through in second generator 9
Two throttle valves 10 be connected to condenser 3 be adjusted to the second generator 9 have cryogen liquid pipeline through third generator 13 and second throttle
Valve 10 is connected to condenser 3;Increase third generator, third throttle valve and third solution heat exchanger, absorber 1 is had dilute
Solution line is connected to generator 2 through solution pump 6, solution heat exchanger 7 and the second solution heat exchanger 12 and is adjusted to absorber
1 has weak solution pipeline through solution pump 6, solution heat exchanger 7, third solution heat exchanger 16 and the second solution heat exchanger 12
It is connected to generator 2, there is concentrated solution pipeline to be connected to through solution heat exchanger 7 with absorber 1 in second generator 9 and be adjusted to
Two generators 9 have concentrated solution pipeline to be connected to through third solution heat exchanger 16 with third generator 13, and third generator 13 has again
Concentrated solution pipeline is connected to through solution heat exchanger 7 with absorber 1, and the second generator 9 is had refrigerant steam channel and condenser 3
There is cold third generator 13 again after connection is adjusted to the second generator 9 and has refrigerant steam channel to be connected to third generator 13
Agent liquid pipeline is connected to through third throttle valve 14 with condenser 3, and there are also refrigerant steam channels and condenser 3 to connect for third generator 13
It is logical.
(2) in process, the cryogen liquid and refrigerant vapour that the second generator 9 generates are supplied to third generator 13 and make driving heat
The weak solution of medium, absorber 1 is handed over through solution pump 6, solution heat exchanger 7, third solution heat exchanger 16 and the second solution heat
Parallel operation 12 enters generator 2, and the concentrated solution of generator 2 enters the second generator 9, the second hair through the second solution heat exchanger 12
The concentrated solution of raw device 9 enters third generator 13 through third solution heat exchanger 16, and refrigerant vapour and cryogen liquid stream are sent out through third
The solution that raw device 13, heating enter in it discharges refrigerant vapour and provides to condenser 3, the concentrated solution warp of third generator 13
Solution heat exchanger 7 enters absorber 1, flow through the refrigerant vapour heat release of third generator 13 at after cryogen liquid through third section
Flow valve 14 throttling enter condenser 3, flow through the cryogen liquid heat release cooling of third generator 13 after throttle through second throttle 10
Into condenser 3, combined cycle energy supplying system is formed.
Combined cycle energy supplying system shown in Figure 27 is achieved in that
(1) in structure, in the combined cycle energy supplying system shown in Figure 23, increase third generator, third throttle valve, third
Absorber 1 is had weak solution pipeline through solution pump 6 and solution heat exchanger 7 and second by solution pump and third solution heat exchanger
The connection of generator 9, which is adjusted to absorber 1, has weak solution pipeline to connect through solution pump 6 and solution heat exchanger 7 and third generator 13
Logical, third generator 13 has concentrated solution pipeline through third solution pump 15 and third solution heat exchanger 16 and the second generator 9 again
Connection, has concentrated solution pipeline to be connected to tune with absorber 1 through the second solution heat exchanger 12 and solution heat exchanger 7 in generator 2
It is whole to have concentrated solution pipeline through the second solution heat exchanger 12, third solution heat exchanger 16 and solution heat exchanger for generator 2
7 are connected to absorber 1, by the second generator 9 have refrigerant steam channel be connected to condenser 3 be adjusted to the second generator 9 have it is cold
After agent steam channel is connected to third generator 13 third generator 13 have again cryogen liquid pipeline through third throttle valve 14 with it is cold
Condenser 3 is connected to, and third generator 13 is connected to there are also refrigerant steam channel with condenser 3.
(2) in process, the refrigerant vapour that the second generator 9 generates is supplied to third generator 13 and makees driving thermal medium, inhales
The weak solution for receiving device 1 enters third generator 13 through solution pump 6 and solution heat exchanger 7, and refrigerant vapour flows through third generator
13, heating enters the solution release refrigerant vapour in it and to the offer of condenser 3, and the concentrated solution of third generator 13 is through third
Solution pump 15 and third solution heat exchanger 16 enter the second generator 9, and the concentrated solution of the second generator 9 is through the second solution pump
11 and second solution heat exchanger 12 enter generator 2, the concentrated solution of generator 2 is molten through the second solution heat exchanger 12, third
Liquid heat exchanger 16 and solution heat exchanger 7 enter absorber 1, flow through the refrigerant vapour heat release of third generator 13 into cryogen
Enter condenser 3 through the throttling of third throttle valve 14 after liquid, forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 28 is achieved in that
(1) in structure, in combined cycle energy supplying system shown in Fig. 1, increase the second generator, the second solution pump, second
Generator 2 is had mixed-gas channel to be connected to outside and is adjusted to generator (2) and has by solution heat exchanger and the second absorber
Second generator 9 has mixed-gas channel to be connected to outside again after mixed-gas channel is connected to the second generator 9, will steam
Hair device 4 have refrigerant steam channel be connected to absorber 1 be adjusted to evaporator 4 have refrigerant steam channel and the second absorber 17 company
Logical, there are also weak solution pipelines through the second solution pump 11 and the second solution heat exchanger 12 and the second generator 9 for the second absorber 17
Connection, the second generator 9 are connected to through the second solution heat exchanger 12 with the second absorber 17 there are also concentrated solution pipeline, the second hair
Raw device 9 is connected to there are also refrigerant steam channel with absorber 1, and the second also heated medium pipeline of absorber 17 is connected to outside.
(2) in process, the mixed gas of waste heat boiler E discharge is put followed by generator 2 and the second generator 9 and gradually
Heat, the refrigerant vapour that evaporator 4 generates enter the second absorber 17, and the weak solution of the second absorber 17 is through the second solution pump 11
Enter the second generator 9, heat absorption release refrigerant vapour with the second solution heat exchanger 12 and provided to absorber 1, second occurs
The concentrated solution of device 9, which enters the second absorber 17 through the second solution heat exchanger 12, absorbs refrigerant vapour and heat release is situated between in being heated
Matter forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 29 is achieved in that
(1) in structure, in combined cycle energy supplying system shown in Fig. 1, increase high-temperature heat exchanger and second circulation pump, it will
Generator 2 has mixed-gas channel to be connected to tune with outside again after waste heat boiler E has mixed-gas channel to be connected to generator 2
Whole is that high-temperature heat exchanger Q has mixed gas again after waste heat boiler E has mixed-gas channel to be connected to high-temperature heat exchanger Q
Channel is connected to outside, is constituted between high-temperature heat exchanger Q and generator 2 by second circulation pump R and circulating thermal medium pipeline
Closed loop.
(2) in process, the mixed gas of waste heat boiler E discharge flows through high temperature heater (HTH) Q and heat release in circulating thermal medium, follows
It is supplied to after ring thermal medium flows through high-temperature heat exchanger Q after second circulation pump R pressurization, heat absorption heats up or heat absorption vaporization
Generator 2 makees driving thermal medium, and circulating thermal medium flows through generator 2 and heat release, then pressurizes through second circulation pump R and add to high temperature
Hot device Q is provided, and forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 30 is achieved in that
(1) in structure, in combined cycle energy supplying system shown in Fig. 1, increase high-temperature heat exchanger, second circulation pump, the
Two generators, the second solution pump, the second solution heat exchanger and the second absorber, by waste heat boiler E have mixed-gas channel with
Generator 2 has mixed-gas channel to be adjusted to waste heat boiler E with external be connected to and have mixed gas to lead to again after generator 2 is connected to
High-temperature heat exchanger Q has mixed-gas channel to be connected to outside again after road is connected to high-temperature heat exchanger Q, high temperature heat exchange
Closed loop is constituted by second circulation pump R and circulating thermal medium pipeline between device Q, generator 2 and the second generator 9;
There is refrigerant steam channel to be connected to absorber 1 evaporator 4 to be adjusted to evaporator 4 and have refrigerant steam channel and the second absorber
17 connections, there are also weak solution pipelines through the second solution pump 11 and the second solution heat exchanger 12 and the second hair for the second absorber 17
Raw device 9 is connected to, and the second generator 9 is connected to through the second solution heat exchanger 12 with the second absorber 17 there are also concentrated solution pipeline, the
Two generators 9 are connected to there are also refrigerant steam channel with absorber 1, and there are also heated medium pipelines and outside for the second absorber 17
Connection.
(2) in process, the mixed gas of waste heat boiler E discharge flows through high-temperature heat exchanger Q and heat release in circulating thermal medium,
It is provided after circulating thermal medium flows through high-temperature heat exchanger Q after second circulation pump R pressurization, heat absorption heats up or heat absorption vaporization
Make driving thermal medium to generator 2 and the second generator 9;Circulating thermal medium flows through generator 2 and the second generator 9 and gradually
Heat release, then pressurize through second circulation pump R and provided to high-temperature heat exchanger Q;The refrigerant vapour that evaporator 4 generates enters second and inhales
Device 17 is received, the weak solution of the second absorber 17 enters the second generator through the second solution pump 11 and the second solution heat exchanger 12
9, heat absorption release refrigerant vapour and provided to absorber 1, the concentrated solution of the second generator 9 through the second solution heat exchanger 12 into
Enter the second absorber 17, absorb refrigerant vapour and heat release is in heated medium, forms combined cycle energy supplying system.
Combined cycle energy supplying system shown in Figure 31 is achieved in that
In combined cycle energy supplying system shown in Fig. 1, increases second heat exchanger, fuel and air channel is changed to height
Temperature-heat-source medium channel, cancel boiler B there is blast tube be connected to waste heat boiler E, cancellation air turbine C have air duct and
Waste heat boiler E connection, generator 2 has gaseous mixture again after cancellation waste heat boiler E has mixed-gas channel to be connected to generator 2
Body channel is connected to outside;Boiler B has low-temperature heat source medium channel through waste heat boiler E, generator 2, second heat exchanger 8, steams
Hair device 4 and low temperature heat exchanger J are connected to outside, and air turbine C has air duct through boiler B, generator 2, the second heat exchange
Device 8, evaporator 4 and low temperature heat exchanger J are connected to outside;High temperature heat source medium provides thermic load, boiler B to compressed air
The low-temperature heat source medium of discharge is followed by generator 2, second heat exchanger 8, evaporator 4 and low temperature heat exchanger J and gradually
Heat release cooling, the air of air turbine C discharge is followed by the friendship of generator 2, second heat exchanger 8, evaporator 4 and Low Temperature Thermal
Parallel operation J and gradually heat release cool down, and air-steam forward circulation provides power, to compression reverse circulation to working machine S respectively
Power is provided and provides driving thermic load to absorption reverse circulation, is formed while the connection of heat demand and power demand being provided
Close circulation energy supplying system.
The effect that the technology of the present invention may be implemented --- combined cycle energy supplying system proposed by the invention has following effect
Fruit and advantage:
(1) different fuel or heat source medium are adapted to, and realizes efficient heat supply and highly effective refrigeration.
(2) it can preferably realize the utilization to such as low ambient temperature thermal resource, realize energy saving heating or highly effective refrigeration.
(3) high temperature heat of combustion gas is subject to benefit by air-steam forward circulation device and compression reverse circulation device
With promoting Low Temperature Thermal load temperature or externally provide power simultaneously, the high temperature section temperature difference rationally utilized, and irreversible damage is reduced
It loses.
(4) waste heat gas load is used by absorption reverse circulation device, obtains or further promoted Low Temperature Thermal
Load temperature realizes the reasonable utilization of the temperature difference, reduces irreversible loss.
(5) a variety of specific technical solutions are provided, numerous different actual states is coped with, there is the wider scope of application.
(6) air-steam combined cycle, compression reverse circulation are played and absorbs the respective advantage of reverse circulation, it can
Farthest realize the efficient utilization of thermal energy.
Claims (46)
1. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
Exchanger, compressor, cryogenic throttle valve, low temperature heat exchanger, evaporator, absorber, generator, condenser, throttle valve, solution
Pump and solution heat exchanger are formed;Compressor (A) has air duct to be connected to outside, and there are also compressed airs to lead to for compressor (A)
Boiler (B) has compressed air channel to be connected to air turbine (C) again after road is connected to boiler (B), boiler (B) there are also fuel and
Air duct is connected to outside, and boiler (B) is connected to there are also blast tube with waste heat boiler (E), and there are also air to lead to for air turbine (C)
Road is connected to waste heat boiler (E), waste heat boiler (E) there are also mixed-gas channel be connected to generator (2) after generator (2) again
There is mixed-gas channel to be connected to outside, steam turbine (D) has low-pressure steam channel to be connected to heat exchanger (G), heat exchanger
(G) circulating pump (F) has condensate liquid pipeline to be connected to waste heat boiler (E) again after being connected to there are also condensate liquid pipeline with circulating pump (F),
Waste heat boiler (E) be connected to there are also high steam channel with steam turbine (D), heat exchanger (G) also heated medium pipeline and
Outside connection;The finisher (4) that compressor (H) has refrigerant steam channel to be connected to evaporator (4) has cryogen liquid pipeline warp again
Cryogenic throttle valve (I) is connected to low temperature heat exchanger (J), and there are also refrigerant steam channel and compressor (H) for low temperature heat exchanger (J)
Connection, low temperature heat exchanger (J) also cryogenic media pipeline are connected to outside;Evaporator (4) is there are also refrigerant steam channel and inhales
Device (1) connection is received, absorber (1) also weak solution pipeline connects through solution pump (6) and solution heat exchanger (7) and generator (2)
Logical, generator (2) is connected to through solution heat exchanger (7) with absorber (1) there are also concentrated solution pipeline, and there are also cryogens for generator (2)
Steam channel is connected to condenser (3), and condenser (3) is connected to through throttle valve (5) with evaporator (4) there are also cryogen liquid pipeline, is inhaled
Receive device (1) and condenser (3) also has heated medium pipeline to be connected to outside respectively;Compressor, boiler, air turbine, steam
Turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compressor, evaporator, low temperature section
Flow valve and low temperature heat exchanger and constitute compression reverse circulation system, absorber, generator, condenser, evaporator, throttle valve,
Solution pump and solution heat exchanger constitute absorption reverse circulation system;Air-steam forward circulation is to compression reverse circulation
Power is provided or power is externally provided simultaneously, air-steam forward circulation provides driving thermic load, pressure to absorption reverse circulation
Contracting formula reverse circulation obtains low temperature thermic load and by evaporator to absorption reverse circulation heat supply, and absorption reverse circulation passes through
Absorber and the external heat supply of condenser form combined cycle energy supplying system.
2. combined cycle energy supplying system is to increase by the second compressor in combined cycle energy supplying system described in claim 1,
There is cryogen liquid pipeline to throttle through low temperature again the finisher (4) that compressor (H) has refrigerant steam channel to be connected to evaporator (4)
Valve (I) be connected to low temperature heat exchanger (J) be adjusted to compressor (H) have refrigerant steam channel be connected to evaporator (4) after steam
Hair device (4) has refrigerant steam channel to be connected to the second compressor (K) again, and the second compressor (K) is there are also refrigerant steam channel and steams
The finisher (4) of hair device (4) connection has cryogen liquid pipeline to be connected to through cryogenic throttle valve (I) with low temperature heat exchanger (J) again, shape
At combined cycle energy supplying system.
3. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
Exchanger, compressor, the second condenser, cryogenic throttle valve, low temperature heat exchanger, evaporator, absorber, generator, condenser,
Throttle valve, solution pump and solution heat exchanger are formed;Compressor (A) has air duct to be connected to outside, and compressor (A) is also
Boiler (B) has compressed air channel to be connected to air turbine (C) again after compressed air channel is connected to boiler (B), boiler (B)
There are also fuel and air channels to be connected to outside, and boiler (B) is connected to there are also blast tube with waste heat boiler (E), air turbine (C)
There are also air ducts to be connected to waste heat boiler (E), after waste heat boiler (E) is connected to there are also mixed-gas channel with generator (2)
Generator (2) has mixed-gas channel to be connected to outside again, and steam turbine (D) has low-pressure steam channel and heat exchanger (G) even
Logical, circulating pump (F) has condensate liquid pipeline and waste heat again after heat exchanger (G) is connected to there are also condensate liquid pipeline with circulating pump (F)
Boiler (E) connection, waste heat boiler (E) are connected to there are also high steam channel with steam turbine (D), and there are also added heat exchanger (G)
Heat medium pipeline is connected to outside;Second condenser after compressor (H) has refrigerant steam channel to be connected to the second condenser (L)
(L) cryogen liquid pipeline is connected to through cryogenic throttle valve (I) with low temperature heat exchanger (J) again, there are also cryogens for low temperature heat exchanger (J)
Steam channel is connected to compressor (H), and low temperature heat exchanger (J) also cryogenic media pipeline is connected to outside, the second condenser
(L) there are also heated medium pipelines is connected to outside;Evaporator (4) has refrigerant steam channel to be connected to absorber (1), absorber
(1) it is connected to through solution pump (6) and solution heat exchanger (7) with generator (2) there are also weak solution pipeline, there are also dense for generator (2)
Solution line is connected to through solution heat exchanger (7) with absorber (1), and there are also refrigerant steam channel and condenser (3) for generator (2)
Connection, condenser (3) are connected to through throttle valve (5) with evaporator (4) there are also cryogen liquid pipeline, and there are also cryogenic medias for evaporator (4)
Pipeline is connected to outside, and absorber (1) and condenser (3) also have heated medium pipeline to be connected to outside respectively;Compressor, pot
Furnace, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compression
Machine, the second condenser, cryogenic throttle valve and low temperature heat exchanger constitute compression reverse circulation system, absorber, generator, cold
Condenser, evaporator, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system;Air-steam forward direction is followed
Circumferential compression reverse circulation provides power or externally provides power simultaneously, and air-steam forward circulation is inversely followed to absorption
Ring provides driving thermic load, and compression reverse circulation obtains low temperature thermic load and by the external heat supply of the second condenser, absorption
Reverse circulation obtains low temperature thermic load and by absorber and the external heat supply of condenser, forms combined cycle energy supplying system.
4. combined cycle energy supplying system is to increase by the second compressor in combined cycle energy supplying system as claimed in claim 3,
The second condenser (L) has cryogen liquid pipeline warp again after having refrigerant steam channel to be connected to the second condenser (L) on compressor (H)
Cryogenic throttle valve (I) is connected to low temperature heat exchanger (J) to be adjusted to compressor (H) and has refrigerant steam channel and the second condenser
(L) the second condenser (L) has refrigerant steam channel to be connected to the second compressor (K) again after being connected to, and the second compressor (K) is also
The second condenser (L) has cryogen liquid pipeline through cryogenic throttle valve (I) again after refrigerant steam channel is connected to the second condenser (L)
It is connected to low temperature heat exchanger (J), forms combined cycle energy supplying system.
5. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
Exchanger, compressor, cooler, cryogenic throttle valve, low temperature heat exchanger, evaporator, absorber, generator, condenser, throttling
Valve, solution pump and solution heat exchanger are formed;Compressor (A) has air duct to be connected to outside, and there are also compress for compressor (A)
Boiler (B) has compressed air channel to be connected to air turbine (C) again after air duct is connected to boiler (B), and boiler (B) is also
Fuel and air channel is connected to outside, and boiler (B) is connected to there are also blast tube with waste heat boiler (E), and air turbine (C) is also
Air duct is connected to waste heat boiler (E), and waste heat boiler (E) occurs after being connected to there are also mixed-gas channel with generator (2)
Device (2) has mixed-gas channel to be connected to outside again, and steam turbine (D) has low-pressure steam channel to be connected to heat exchanger (G), heat
Circulating pump (F) has condensate liquid pipeline and waste heat boiler again after exchanger (G) is connected to there are also condensate liquid pipeline with circulating pump (F)
(E) it is connected to, waste heat boiler (E) is connected to there are also high steam channel with steam turbine (D), and heat exchanger (G) is also heated Jie
Matter pipeline is connected to outside;The aftercooler (M) that compressor (H) has refrigerant steam channel to be connected to cooler (M) has cryogen again
Steam channel is connected to evaporator (4), and there are also cryogen liquid pipelines through cryogenic throttle valve (I) and low temperature heat exchanger for evaporator (4)
(J) it is connected to, low temperature heat exchanger (J) is connected to there are also refrigerant steam channel with compressor (H), and there are also low for low temperature heat exchanger (J)
Warm medium pipeline is connected to outside, and cooler (M) also heated medium pipeline is connected to outside;There are also cryogens for evaporator (4)
Steam channel is connected to absorber (1), absorber (1) there are also weak solution pipelines through solution pump (6) and solution heat exchanger (7) and
Generator (2) connection, generator (2) are connected to through solution heat exchanger (7) with absorber (1) there are also concentrated solution pipeline, generator
(2) it is connected to there are also refrigerant steam channel with condenser (3), there are also cryogen liquid pipelines through throttle valve (5) and evaporator for condenser (3)
(4) it is connected to, absorber (1) and condenser (3) also have heated medium pipeline to be connected to outside respectively;Compressor, boiler, air
Turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compressor, cooling
Device, evaporator, cryogenic throttle valve and low temperature heat exchanger constitute compression reverse circulation system, absorber, generator, condensation
Device, evaporator, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system;Air-steam forward circulation
Power is provided to compression reverse circulation or power is externally provided simultaneously, and air-steam forward circulation is to absorption reverse circulation
Driving thermic load is provided, compression reverse circulation obtains low temperature thermic load and passes through the external heat supply of cooler respectively and pass through evaporation
Device forms combined cycle by absorber and the external heat supply of condenser to absorption reverse circulation heat supply, absorption reverse circulation
Energy supplying system.
6. combined cycle energy supplying system is to increase by the second compressor in the combined cycle energy supplying system described in claim 5,
The aftercooler (M) that compressor (H) has refrigerant steam channel to be connected to cooler (M) there are into refrigerant steam channel and evaporator again
(4) aftercooler (M) that connection is adjusted to compressor (H) and has refrigerant steam channel to be connected to cooler (M) has refrigerant vapour again
Channel is connected to the second compressor (K), and the second compressor (K) is cooling after being connected to there are also refrigerant steam channel with cooler (M)
Device (M) has refrigerant steam channel to be connected to evaporator (4) again, forms combined cycle energy supplying system.
7. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
Exchanger, compressor, the second compressor, the second condenser, cryogenic throttle valve, the second cryogenic throttle valve, low temperature heat exchanger, steaming
Hair device, absorber, generator, condenser, throttle valve, solution pump and solution heat exchanger are formed;Compressor (A) has air logical
Road is connected to outside, and boiler (B) has compressed air logical again after compressor (A) is connected to there are also compressed air channel with boiler (B)
Road is connected to air turbine (C), and there are also fuel and air channels be connected to external for boiler (B), boiler (B) also blast tube and
Waste heat boiler (E) connection, air turbine (C) are connected to there are also air duct with waste heat boiler (E), and there are also mix for waste heat boiler (E)
Generator (2) has mixed-gas channel to be connected to outside again after gas passage is connected to generator (2), and steam turbine (D) has
Low-pressure steam channel is connected to heat exchanger (G), and heat exchanger (G) follows after being connected to there are also condensate liquid pipeline with circulating pump (F)
Ring pump (F) has condensate liquid pipeline to be connected to waste heat boiler (E) again, and there are also high steam channel and steam turbines for waste heat boiler (E)
(D) it is connected to, heat exchanger (G) also heated medium pipeline is connected to outside;Compressor (H) have low pressure refrigerant steam channel with
Evaporator (4) connection, evaporator (4) are connected to through cryogenic throttle valve (I) with low temperature heat exchanger (J) there are also low pressure cryogen liquid pipeline
Low temperature heat exchanger (J) has refrigerant steam channel to be connected to compressor (H) again later, and there are also low pressure refrigerant vapours for compressor (H)
Channel is connected to the second compressor (K), and the second compressor (K) is connected to there are also high pressure refrigerant steam channel with the second condenser (L),
There are also high pressure cryogen liquid pipelines through evaporator (4) and the second cryogenic throttle valve (N) and low temperature heat exchanger for second condenser (L)
(J) low temperature heat exchanger (J) has refrigerant steam channel to be connected to compressor (H) again after being connected to, and low temperature heat exchanger (J) is also
Cryogenic media pipeline is connected to outside, and the second condenser (L) also heated medium pipeline is connected to outside;Evaporator (4) is also
There is refrigerant steam channel to be connected to absorber (1), there are also weak solution pipelines through solution pump (6) and solution heat exchange for absorber (1)
Device (7) is connected to generator (2), and generator (2) is connected to through solution heat exchanger (7) with absorber (1) there are also concentrated solution pipeline,
Generator (2) be connected to there are also refrigerant steam channel with condenser (3), condenser (3) also cryogen liquid pipeline through throttle valve (5) and
Evaporator (4) connection, absorber (1) and condenser (3) also have heated medium pipeline to be connected to outside respectively;Compressor, pot
Furnace, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compression
Machine, the second compressor, the second condenser, evaporator, cryogenic throttle valve, the second cryogenic throttle valve and low temperature heat exchanger constitute pressure
Contracting formula reverse circulation system;Absorber, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchanger are constituted
Absorption reverse circulation system;Air-steam forward circulation provides power to compression reverse circulation or externally provides simultaneously dynamic
Power, air-steam forward circulation provide driving thermic load to absorption reverse circulation, and it is negative that compression reverse circulation obtains Low Temperature Thermal
Lotus simultaneously by the external heat supply of the second condenser and passes through evaporator to absorption reverse circulation heat supply, absorption reverse circulation respectively
By absorber and the external heat supply of condenser, combined cycle energy supplying system is formed.
8. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
Exchanger, compressor, the second condenser, cryogenic throttle valve, the second cryogenic throttle valve, low temperature heat exchanger, evaporator, absorption
Device, generator, condenser, throttle valve, solution pump and solution heat exchanger are formed;Compressor (A) has air duct and outside
Connection, boiler (B) has compressed air channel and air again after compressor (A) is connected to there are also compressed air channel with boiler (B)
Turbine (C) connection, boiler (B) also fuel and air channel are connected to outside, and there are also blast tube and waste heat boilers for boiler (B)
(E) it is connected to, air turbine (C) is connected to there are also air duct with waste heat boiler (E), and there are also mixed-gas channels for waste heat boiler (E)
Generator (2) has mixed-gas channel to be connected to outside again after being connected to generator (2), and steam turbine (D) has low-pressure steam
Channel is connected to heat exchanger (G), heat exchanger (G) there are also condensate liquid pipeline be connected to circulating pump (F) after circulating pump (F) again
There is condensate liquid pipeline to be connected to waste heat boiler (E), waste heat boiler (E) is connected to there are also high steam channel with steam turbine (D), heat
Exchanger (G) also heated medium pipeline is connected to outside;Compressor (H) has low pressure refrigerant steam channel and evaporator (4)
Connection, low temperature after evaporator (4) is connected to through cryogenic throttle valve (I) with low temperature heat exchanger (J) there are also low pressure cryogen liquid pipeline
Heat exchanger (J) has refrigerant steam channel to be connected to compressor (H) again, and there are also high pressure refrigerant steam channels and for compressor (H)
Two condensers (L) connection, there are also high pressure cryogen liquid pipelines through evaporator (4) and the second cryogenic throttle valve (N) for the second condenser (L)
Low temperature heat exchanger (J) has refrigerant steam channel to be connected to compressor (H) again after being connected to low temperature heat exchanger (J), low temperature
Heat exchanger (J) also cryogenic media pipeline is connected to outside, and the second condenser (L) connects there are also heated medium pipeline with outside
It is logical;Evaporator (4) is connected to there are also refrigerant steam channel with absorber (1), and there are also weak solution pipelines through solution pump for absorber (1)
(6) it is connected to solution heat exchanger (7) with generator (2), there are also concentrated solution pipelines through solution heat exchanger (7) for generator (2)
It is connected to absorber (1), generator (2) is connected to there are also refrigerant steam channel with condenser (3), and there are also cryogen liquid for condenser (3)
Pipeline is connected to through throttle valve (5) with evaporator (4), and absorber (1) and condenser (3) also have heated medium pipeline and outer respectively
Portion's connection;Compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger are constituting air-steam just
To the circulatory system, compressor, the second condenser, evaporator, cryogenic throttle valve, the second cryogenic throttle valve and low temperature heat exchanger structure
At compression reverse circulation system, absorber, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchanger
Constitute absorption reverse circulation system;Air-steam forward circulation provides power to compression reverse circulation or externally mentions simultaneously
For power, air-steam forward circulation provides driving thermic load to absorption reverse circulation, and compression reverse circulation obtains low temperature
Thermic load simultaneously passes through the external heat supply of the second condenser and by evaporator to absorption reverse circulation heat supply respectively, absorption reverse
Absorber and the external heat supply of condenser are cycled through, combined cycle energy supplying system is formed.
9. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump, heat
Exchanger, compressor, expanding machine, low temperature heat exchanger, evaporator, absorber, generator, condenser, throttle valve, solution pump and
Solution heat exchanger is formed;Compressor (A) has air duct be connected to outside, compressor (A) there are also compressed air channel and
Boiler (B) has compressed air channel to be connected to air turbine (C) again after boiler (B) connection, and there are also fuel and air for boiler (B)
Channel be connected to outside, and boiler (B) is connected to there are also blast tube with waste heat boiler (E), air turbine (C) also air duct and
Waste heat boiler (E) connection, there is mixed generator (2) again after waste heat boiler (E) is connected to there are also mixed-gas channel with generator (2)
It closes gas passage to be connected to outside, steam turbine (D) has low-pressure steam channel to be connected to heat exchanger (G), and heat exchanger (G) is also
Circulating pump (F) has condensate liquid pipeline to be connected to waste heat boiler (E) again after having condensate liquid pipeline to be connected to circulating pump (F), waste heat
Boiler (E) is connected to there are also high steam channel with steam turbine (D), and there are also heated medium pipelines and outside for heat exchanger (G)
Connection;The finisher (4) that compressor (H) has refrigerant gas channel to be connected to evaporator (4) have again refrigerant gas channel with it is swollen
Swollen machine (O) connection, expanding machine (O) are connected to through low temperature heat exchanger (J) with compressor (H) there are also refrigerant gas channel, Low Temperature Thermal
Exchanger (J) also cryogenic media pipeline is connected to outside;Evaporator (4) is connected to there are also refrigerant steam channel with absorber (1),
Absorber (1) is connected to through solution pump (6) and solution heat exchanger (7) with generator (2) there are also weak solution pipeline, generator (2)
There are also concentrated solution pipelines to be connected to through solution heat exchanger (7) with absorber (1), generator (2) there are also refrigerant steam channel with it is cold
Condenser (3) connection, condenser (3) are connected to through throttle valve (5) with evaporator (4) there are also cryogen liquid pipeline, absorber (1) and condensation
Device (3) also has heated medium pipeline to be connected to outside respectively;Compressor, boiler, air turbine, steam turbine, waste heat boiler,
Circulating pump and heat exchanger constitute air-steam forward circulation system, compressor, evaporator, expanding machine and low temperature heat exchanger
Constitute compression reverse circulation system, evaporator, absorber, generator, condenser, throttle valve, solution pump and solution heat exchange
Device constitutes absorption reverse circulation system;Air-steam forward circulation to compression reverse circulation provide power or simultaneously externally
Power is provided, air-steam forward circulation provides driving thermic load to absorption reverse circulation, and compression reverse circulation obtains low
Warm load simultaneously passes through evaporator to absorption reverse circulation heat supply, and absorption reverse circulation is external by absorber and condenser
Heat supply forms combined cycle energy supplying system.
10. combined cycle energy supplying system is to increase by the second compressor in combined cycle energy supplying system as claimed in claim 9,
The finisher (4) that compressor (H) has refrigerant gas channel to be connected to evaporator (4) there are into refrigerant gas channel and expanding machine again
(O) finisher (4) that connection is adjusted to compressor (H) and has refrigerant gas channel to be connected to evaporator (4) has refrigerant gas again
Channel is connected to the second compressor (K), and the second compressor (K) evaporates after being connected to there are also refrigerant gas channel with evaporator (4)
Device (4) has refrigerant gas channel to be connected to expanding machine (O) again, forms combined cycle energy supplying system.
11. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump,
Heat exchanger, compressor, expanding machine, low temperature heat exchanger, regenerator, evaporator, absorber, generator, condenser, throttling
Valve, solution pump and solution heat exchanger are formed;Compressor (A) has air duct to be connected to outside, and there are also compress for compressor (A)
Boiler (B) has compressed air channel to be connected to air turbine (C) again after air duct is connected to boiler (B), and boiler (B) is also
Fuel and air channel is connected to outside, and boiler (B) is connected to there are also blast tube with waste heat boiler (E), and air turbine (C) is also
Air duct is connected to waste heat boiler (E), and waste heat boiler (E) occurs after being connected to there are also mixed-gas channel with generator (2)
Device (2) has mixed-gas channel to be connected to outside again, and steam turbine (D) has low-pressure steam channel to be connected to heat exchanger (G), heat
Circulating pump (F) has condensate liquid pipeline and waste heat boiler again after exchanger (G) is connected to there are also condensate liquid pipeline with circulating pump (F)
(E) it is connected to, waste heat boiler (E) is connected to there are also high steam channel with steam turbine (D), and heat exchanger (G) is also heated Jie
Matter pipeline is connected to outside;The finisher (4) that compressor (H) has refrigerant gas channel to be connected to evaporator (4) has cryogen again
Gas passage is connected to through regenerator (P) with expanding machine (O), and there are also refrigerant gas channels through low temperature heat exchanger (J) for expanding machine (O)
It is connected to regenerator (P) with compressor (H), low temperature heat exchanger (J) also cryogenic media pipeline is connected to outside;Evaporator
(4) it is connected to there are also refrigerant steam channel with absorber (1), there are also weak solution pipelines through solution pump (6) and solution heat for absorber (1)
Exchanger (7) is connected to generator (2), and there are also concentrated solution pipelines through solution heat exchanger (7) and absorber (1) for generator (2)
Connection, generator (2) are connected to there are also refrigerant steam channel with condenser (3), and there are also cryogen liquid pipelines through throttle valve for condenser (3)
(5) it is connected to evaporator (4), absorber (1) and condenser (3) also have heated medium pipeline to be connected to outside respectively;It calms the anger
Machine, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system;
Compressor, evaporator, expanding machine, low temperature heat exchanger and regenerator constitute compression reverse circulation system, evaporator, absorption
Device, generator, condenser, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system;Air-steam
Forward circulation provides power to compression reverse circulation or externally provides power simultaneously, and air-steam forward circulation is to absorption
Reverse circulation provides driving thermic load, and compression reverse circulation obtains low temperature thermic load and inversely followed by evaporator to absorption
Ring heat supply, absorption reverse circulation form combined cycle energy supplying system by absorber and the external heat supply of condenser.
12. combined cycle energy supplying system is to increase by the second compression in the combined cycle energy supplying system described in claim 11
The finisher (4) that compressor (H) has refrigerant gas channel to be connected to evaporator (4) is had refrigerant gas channel to pass through back by machine again
Hot device (P) be connected to expanding machine (O) be adjusted to compressor (H) have refrigerant gas channel be connected to logical evaporator (4) after evaporate
Device (4) has refrigerant gas channel to be connected to the second compressor (K) again, and there are also refrigerant gas channels and evaporation for the second compressor (K)
The finisher (4) of device (4) connection has refrigerant gas channel to be connected to through regenerator (P) with expanding machine (O) again, forms combined cycle
Energy supplying system.
13. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump,
Heat exchanger, compressor, expanding machine, cooler, low temperature heat exchanger, evaporator, absorber, generator, condenser, throttling
Valve, solution pump and solution heat exchanger are formed;Compressor (A) has air duct to be connected to outside, and there are also compress for compressor (A)
Boiler (B) has compressed air channel to be connected to air turbine (C) again after air duct is connected to boiler (B), and boiler (B) is also
Fuel and air channel is connected to outside, and boiler (B) is connected to there are also blast tube with waste heat boiler (E), and air turbine (C) is also
Air duct is connected to waste heat boiler (E), and waste heat boiler (E) occurs after being connected to there are also mixed-gas channel with generator (2)
Device (2) has mixed-gas channel to be connected to outside again, and steam turbine (D) has low-pressure steam channel to be connected to heat exchanger (G), heat
Circulating pump (F) has condensate liquid pipeline and waste heat boiler again after exchanger (G) is connected to there are also condensate liquid pipeline with circulating pump (F)
(E) it is connected to, waste heat boiler (E) is connected to there are also high steam channel with steam turbine (D), and heat exchanger (G) is also heated Jie
Matter pipeline is connected to outside;Compressor (H) has refrigerant gas channel to be connected to through cooler (M) with expanding machine (O), expanding machine (O)
There are also refrigerant gas channels to be connected to through low temperature heat exchanger (J) with compressor (H), and there are also cryogenic medias for low temperature heat exchanger (J)
Pipeline is connected to outside, and cooler (M) also heated medium pipeline is connected to outside;Evaporator (4) has refrigerant steam channel
It is connected to absorber (1), there are also weak solution pipelines through solution pump (6) and solution heat exchanger (7) and generator for absorber (1)
(2) it is connected to, generator (2) is connected to through solution heat exchanger (7) with absorber (1) there are also concentrated solution pipeline, and generator (2) is also
Refrigerant steam channel is connected to condenser (3), and condenser (3) also cryogen liquid pipeline connects through throttle valve (5) and evaporator (4)
Logical, evaporator (4) also cryogenic media pipeline is connected to outside, and absorber (1) and condenser (3) also have heated medium respectively
Pipeline is connected to outside;Compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger constitute empty
Gas-steam forward circulation system, compressor, cooler, expanding machine and low temperature heat exchanger constitute compression reverse circulation system,
Absorber, generator, condenser, evaporator, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system
System;Air-steam forward circulation provides power to compression reverse circulation or externally provides power simultaneously, and air-steam is positive
It recycles to absorption reverse circulation and driving thermic load is provided, compression reverse circulation obtains low temperature thermic load and passes through cooler pair
Outer heat supply, absorption reverse circulation obtain low temperature thermic load and by absorber and the external heat supplies of condenser, form combined cycle
Energy supplying system.
14. combined cycle energy supplying system is to increase by the second compression in the combined cycle energy supplying system described in claim 13
Compressor (H) is had refrigerant gas channel to be connected to expanding machine (O) through cooler (M) and is adjusted to compressor (H) and has cryogen gas by machine
Body channel is connected to through cooler (M) with the second compressor (K), and there are also refrigerant gas channels through cooler (M) for the second compressor (K)
It is connected to expanding machine (O), forms combined cycle energy supplying system.
15. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump,
Heat exchanger, compressor, cooler, expanding machine, low temperature heat exchanger, regenerator, evaporator, absorber, generator, condensation
Device, throttle valve, solution pump and solution heat exchanger are formed;Compressor (A) has air duct to be connected to outside, compressor (A)
Boiler (B) has compressed air channel to be connected to air turbine (C) again after being connected to there are also compressed air channel with boiler (B), pot
Furnace (B) also fuel and air channel is connected to outside, and boiler (B) is connected to there are also blast tube with waste heat boiler (E), Air wheel
Machine (C) is connected to there are also air duct with waste heat boiler (E), and waste heat boiler (E) is connected to there are also mixed-gas channel with generator (2)
Generator (2) has mixed-gas channel to be connected to outside again later, and steam turbine (D) has low-pressure steam channel and heat exchanger
(G) be connected to, heat exchanger (G) there are also condensate liquid pipeline be connected to circulating pump (F) after circulating pump (F) have again condensate liquid pipeline and
Waste heat boiler (E) connection, waste heat boiler (E) are connected to there are also high steam channel with steam turbine (D), and heat exchanger (G) is also
Heated medium pipeline is connected to outside;Compressor (H) has refrigerant gas channel through cooler (M) and regenerator (P) and expansion
Machine (O) connection, expanding machine (O) also refrigerant gas channel connect through low temperature heat exchanger (J) and regenerator (P) and compressor (H)
Lead to, low temperature heat exchanger (J) also cryogenic media pipeline is connected to outside, and cooler (M) is there are also heated medium pipeline and outside
Portion's connection;Evaporator (4) has refrigerant steam channel to be connected to absorber (1), and there are also weak solution pipelines through solution pump for absorber (1)
(6) it is connected to solution heat exchanger (7) with generator (2), there are also concentrated solution pipelines through solution heat exchanger (7) for generator (2)
It is connected to absorber (1), generator (2) is connected to there are also refrigerant steam channel with condenser (3), and there are also cryogen liquid for condenser (3)
Pipeline is connected to through throttle valve (5) with evaporator (4), and evaporator (4) also cryogenic media pipeline is connected to outside, absorber (1)
Also there is heated medium pipeline to be connected to outside respectively with condenser (3);It is compressor, boiler, air turbine, steam turbine, remaining
Heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compressor, cooler, expanding machine, Low Temperature Thermal
Exchanger and regenerator constitute compression reverse circulation system, evaporator, absorber, generator, condenser, throttle valve, solution
Pump and solution heat exchanger constitute absorption reverse circulation system;Air-steam forward circulation is provided to compression reverse circulation
Power externally provides power simultaneously, and air-steam forward circulation provides driving thermic load, compression to absorption reverse circulation
Reverse circulation obtains low temperature thermic load and by the external heat supply of cooler, and absorption reverse circulation obtains low temperature thermic load and passes through
Absorber and the external heat supply of condenser form combined cycle energy supplying system.
16. combined cycle energy supplying system is to increase by the second compression in the combined cycle energy supplying system described in claim 15
Compressor (H) is had refrigerant gas channel to be connected to through cooler (M) and regenerator (P) with expanding machine (O) and is adjusted to compressor by machine
(H) refrigerant gas channel is connected to through cooler (M) with the second compressor (K), the second compressor (K) has refrigerant gas channel again
It is connected to through cooler (M) and regenerator (P) with expanding machine (O), forms combined cycle energy supplying system.
17. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump,
Heat exchanger, compressor, cooler, evaporator, expanding machine, low temperature heat exchanger, absorber, generator, condenser, throttling
Valve, solution pump and solution heat exchanger are formed;Compressor (A) has air duct to be connected to outside, and there are also compress for compressor (A)
Boiler (B) has compressed air channel to be connected to air turbine (C) again after air duct is connected to boiler (B), and boiler (B) is also
Fuel and air channel is connected to outside, and boiler (B) is connected to there are also blast tube with waste heat boiler (E), and air turbine (C) is also
Air duct is connected to waste heat boiler (E), and waste heat boiler (E) occurs after being connected to there are also mixed-gas channel with generator (2)
Device (2) has mixed-gas channel to be connected to outside again, and steam turbine (D) has low-pressure steam channel to be connected to heat exchanger (G), heat
Circulating pump (F) has condensate liquid pipeline and waste heat boiler again after exchanger (G) is connected to there are also condensate liquid pipeline with circulating pump (F)
(E) it is connected to, waste heat boiler (E) is connected to there are also high steam channel with steam turbine (D), and heat exchanger (G) is also heated Jie
Matter pipeline is connected to outside;The finisher that compressor (H) has refrigerant gas channel to be connected to through cooler (M) with evaporator (4)
(4) refrigerant gas channel is connected to expanding machine (O) again, there are also refrigerant gas channels through low temperature heat exchanger (J) for expanding machine (O)
It is connected to compressor (H), low temperature heat exchanger (J) also cryogenic media pipeline is connected to outside, and cooler (M) is also heated
Medium pipeline is connected to outside;Evaporator (4) is connected to there are also refrigerant steam channel with absorber (1), and there are also dilute molten for absorber (1)
Liquid pipeline is connected to through solution pump (6) and solution heat exchanger (7) with generator (2), and there are also concentrated solution pipelines through molten for generator (2)
Liquid heat exchanger (7) is connected to absorber (1), and generator (2) is connected to there are also refrigerant steam channel with condenser (3), condenser
(3) it is connected to evaporator (4) through throttle valve (5) there are also cryogen liquid pipeline, absorber (1) and condenser (3) also have respectively to be added
Heat medium pipeline is connected to outside;Compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump and heat exchanger
Air-steam forward circulation system is constituted, compressor, cooler, evaporator, expanding machine and low temperature heat exchanger constitute compression
Reverse circulation system, evaporator, absorber, generator, condenser, throttle valve, solution pump and solution heat exchanger, which are constituted, to be absorbed
Formula reverse circulation system;Air-steam forward circulation provides power to compression reverse circulation or externally provides power simultaneously, empty
Gas-steam forward circulation provides driving thermic load to absorption reverse circulation, and compression reverse circulation obtains low temperature thermic load simultaneously
Respectively by the external heat supply of cooler and by evaporator to absorption reverse circulation heat supply, absorption reverse circulation passes through absorption
Device and the external heat supply of condenser form combined cycle energy supplying system.
18. combined cycle energy supplying system is to increase by the second compression in the combined cycle energy supplying system described in claim 17
The finisher (4) that compressor (H) has refrigerant gas channel to be connected to through cooler (M) with evaporator (4) is had cryogen gas by machine again
Body channel is connected to expanding machine (O) to be adjusted to compressor (H) and has refrigerant gas channel to be connected to through cooler (M) with evaporator (4)
Finisher (4) there is refrigerant gas channel to be connected to the second compressor (K) again, there are also refrigerant gas is logical for the second compressor (K)
The finisher (4) that road is connected to through cooler (M) with evaporator (4) has refrigerant gas channel to be connected to expanding machine (O) again, is formed
Combined cycle energy supplying system.
19. combined cycle energy supplying system, mainly by compressor, boiler, air turbine, steam turbine, waste heat boiler, circulating pump,
Heat exchanger, compressor, cooler, evaporator, regenerator, expanding machine, low temperature heat exchanger, absorber, generator, condensation
Device, throttle valve, solution pump and solution heat exchanger are formed;Compressor (A) has air duct to be connected to outside, compressor (A)
Boiler (B) has compressed air channel to be connected to air turbine (C) again after being connected to there are also compressed air channel with boiler (B), pot
Furnace (B) also fuel and air channel is connected to outside, and boiler (B) is connected to there are also blast tube with waste heat boiler (E), Air wheel
Machine (C) is connected to there are also air duct with waste heat boiler (E), and waste heat boiler (E) is connected to there are also mixed-gas channel with generator (2)
Generator (2) has mixed-gas channel to be connected to outside again later, and steam turbine (D) has low-pressure steam channel and heat exchanger
(G) be connected to, heat exchanger (G) there are also condensate liquid pipeline be connected to circulating pump (F) after circulating pump (F) have again condensate liquid pipeline and
Waste heat boiler (E) connection, waste heat boiler (E) are connected to there are also high steam channel with steam turbine (D), and heat exchanger (G) is also
Heated medium pipeline is connected to outside;Compressor (H) has refrigerant gas channel to be connected to it with evaporator (4) through cooler (M)
Finisher (4) has refrigerant gas channel to be connected to through regenerator (P) with expanding machine (O) again, and there are also refrigerant gas to lead to for expanding machine (O)
Road is connected to through low temperature heat exchanger (J) and regenerator (P) with compressor (H), and there are also cryogenic media pipelines for low temperature heat exchanger (J)
It is connected to outside, cooler (M) also heated medium pipeline is connected to outside;Evaporator (4) there are also refrigerant steam channel with
Absorber (1) connection, there are also weak solution pipelines through solution pump (6) and solution heat exchanger (7) and generator (2) for absorber (1)
Connection, generator (2) are connected to through solution heat exchanger (7) with absorber (1) there are also concentrated solution pipeline, and there are also cold for generator (2)
Agent steam channel is connected to condenser (3), and condenser (3) is connected to through throttle valve (5) with evaporator (4) there are also cryogen liquid pipeline,
Absorber (1) and condenser (3) also have heated medium pipeline to be connected to outside respectively;Compressor, boiler, air turbine, steaming
Steam turbine, waste heat boiler, circulating pump and heat exchanger constitute air-steam forward circulation system, compressor, cooler, evaporation
Device, regenerator, expanding machine and low temperature heat exchanger constitute compression reverse circulation system, evaporator, absorber, generator, cold
Condenser, throttle valve, solution pump and solution heat exchanger constitute absorption reverse circulation system;Air-steam forward circulation is to pressure
Contracting formula reverse circulation provides power or externally provides power simultaneously, and air-steam forward circulation is provided to absorption reverse circulation
Drive thermic load, compression reverse circulation obtain low temperature thermic load and respectively by the external heat supply of cooler and by evaporator to
Absorption reverse circulation heat supply, absorption reverse circulation form combined cycle energy supply by absorber and the external heat supply of condenser
System.
20. combined cycle energy supplying system is to increase by the second compression in the combined cycle energy supplying system described in claim 19
The finisher (4) that compressor (H) has refrigerant gas channel to be connected to through cooler (M) with evaporator (4) is had cryogen gas by machine again
Body channel be connected to through regenerator (P) with expanding machine (O) be adjusted to compressor (H) have refrigerant gas channel through cooler (M) and steam
The finisher (4) of hair device (4) connection has refrigerant gas channel to be connected to the second compressor (K) again, and the second compressor (K) is also
The finisher (4) that refrigerant gas channel is connected to through cooler (M) with evaporator (4) has refrigerant gas channel through regenerator again
(P) it is connected to expanding machine (O), forms combined cycle energy supplying system.
21. combined cycle energy supplying system is to increase by second in any combined cycle energy supplying system described in claim 1-20
Heat exchanger, second heat exchanger (8) has heated medium pipeline to be connected to outside, and takes following any any one
Technical measures are to form combined cycle energy supplying system: 1. having mixed-gas channel to be connected to outside in generator (2) and be adjusted to send out
Raw device (2) have mixed-gas channel to be connected to through second heat exchanger (8) with outside;2. generator (2) is had mixed-gas channel
It is connected to outside and is adjusted to generator (2) and there is mixed-gas channel to connect through second heat exchanger (8) and evaporator (4) with outside
It is logical;3. thering is mixed-gas channel be connected to outside in generator (2) to be adjusted to generator (2) and have mixed-gas channel hot through second
Exchanger (8), evaporator (4) and low temperature heat exchanger (J) are connected to outside.
22. combined cycle energy supplying system is to increase by second in any combined cycle energy supplying system described in claim 1-20
Generator, second throttle, the second solution pump and the second solution heat exchanger, absorber (1) add weak solution pipeline through second
Solution pump (11) and the second solution heat exchanger (12) are connected to the second generator (9), and there are also concentrated solution pipes for the second generator (9)
The second solution heat exchanger of road (12) is connected to absorber (1), and generator (2) is had refrigerant steam channel and condenser (3)
The second generator (9) has cryogen again after connection is adjusted to generator (2) and has refrigerant steam channel to be connected to the second generator (9)
Liquid pipeline is connected to through second throttle (10) with condenser (3), and there are also refrigerant steam channel and condensers for the second generator (9)
(3) it is connected to, forms combined cycle energy supplying system.
23. combined cycle energy supplying system is to increase by second in any combined cycle energy supplying system described in claim 1-20
Absorber (1) is had weak solution pipeline through solution pump (6) and solution by generator, second throttle and the second solution heat exchanger
Heat exchanger (7) is connected to generator (2) to be adjusted to absorber (1) and has weak solution pipeline through solution pump (6), solution heat exchanger
(7) it is connected to the second solution heat exchanger (12) with generator (2), has concentrated solution pipeline through solution heat exchange in generator (2)
Device (7) be connected to absorber (1) be adjusted to generator (2) have concentrated solution pipeline through the second solution heat exchanger (12) with second hair
Raw device (9) connection, the second generator (9) have concentrated solution pipeline to be connected to through solution heat exchanger (7) with absorber (1) again, will send out
Raw device (2) have refrigerant steam channel to be connected to condenser (3) to be adjusted to generator (2) and have refrigerant steam channel and the second generator
(9) the second generator (9) has cryogen liquid pipeline to be connected to through second throttle (10) with condenser (3) again after being connected to, the second hair
Raw device (9) are connected to there are also refrigerant steam channel with condenser (3), form combined cycle energy supplying system.
24. combined cycle energy supplying system is to increase by second in any combined cycle energy supplying system described in claim 1-20
Absorber (1) is had weak solution pipeline through solution by generator, second throttle, the second solution pump and the second solution heat exchanger
Pump (6) and solution heat exchanger (7) be connected to generator (2) be adjusted to absorber (1) have weak solution pipeline through solution pump (6) and
Solution heat exchanger (7) is connected to the second generator (9), and the second generator (9) has concentrated solution pipeline through the second solution pump again
(11) it is connected to the second solution heat exchanger (12) with generator (2), has concentrated solution pipeline through solution heat exchange in generator (2)
Device (7) be connected to absorber (1) be adjusted to generator (2) have concentrated solution pipeline through the second solution heat exchanger (12) and solution heat
Exchanger (7) is connected to absorber (1), is had refrigerant steam channel to be connected to condenser (3) in generator (2) and is adjusted to generator
(2) the second generator (9) has cryogen liquid pipeline through the second throttling again after having refrigerant steam channel to be connected to the second generator (9)
Valve (10) is connected to condenser (3), and the second generator (9) is connected to there are also refrigerant steam channel with condenser (3), and formation, which is combined, to follow
Ring energy supplying system.
It 25. combined cycle energy supplying system, is to increase by the in any combined cycle energy supplying system described in claim 22-24
Two heat exchangers, second heat exchanger (8) has heated medium pipeline to be connected to outside, and takes following any any one
Item technical measures are to form combined cycle energy supplying system: 1. having mixed-gas channel to be connected to outside in generator (2) and be adjusted to
Generator (2) has mixed-gas channel to be connected to through second heat exchanger (8) with outside;2. having mixed gas logical in generator (2)
Road is connected to outside and is adjusted to generator (2) and has mixed-gas channel to connect through second heat exchanger (8) and evaporator (4) with outside
It is logical;3. thering is mixed-gas channel be connected to outside in generator (2) to be adjusted to generator (2) and have mixed-gas channel hot through second
Exchanger (8), evaporator (4) and low temperature heat exchanger (J) are connected to outside.
26. combined cycle energy supplying system is to increase by second in any combined cycle energy supplying system described in claim 1-20
Generator (2) is had mixed-gas channel and outer by generator, second throttle, the second solution pump and the second solution heat exchanger
There is mixed the second generator (9) again after portion's connection is adjusted to generator (2) and has mixed-gas channel to be connected to the second generator (9)
It closes gas passage to be connected to outside, absorber (1) adds weak solution pipeline through the second solution pump (11) and the second solution heat exchange
Device (12) is connected to the second generator (9), the second generator (9) there are also concentrated solution pipeline through the second solution heat exchanger (12) with
Generator (2) is had refrigerant steam channel to be connected to condenser (3) and is adjusted to generator (2) and has cryogen steaming by absorber (1) connection
After vapour channel is connected to the second generator (9) the second generator (9) have again cryogen liquid pipeline through second throttle (10) with it is cold
Condenser (3) connection, the second generator (9) are connected to there are also refrigerant steam channel with condenser (3), form combined cycle energy supply system
System.
27. combined cycle energy supplying system is to increase by second in any combined cycle energy supplying system described in claim 1-20
Generator (2) is had mixed-gas channel to be connected to outside and is adjusted to by generator, second throttle and the second solution heat exchanger
After generator (2) has mixed-gas channel to be connected to the second generator (9) the second generator (9) have again mixed-gas channel with
Outside connection, has weak solution pipeline to be connected to tune with generator (2) through solution pump (6) and solution heat exchanger (7) absorber (1)
It is whole have weak solution pipeline through solution pump (6), solution heat exchanger (7) and the second solution heat exchanger (12) for absorber (1) and
Generator (2) connection, has concentrated solution pipeline to be connected to through solution heat exchanger (7) with absorber (1) in generator (2) and is adjusted to send out
Raw device (2) have concentrated solution pipeline to be connected to through the second solution heat exchanger (12) with the second generator (9), and the second generator (9) is again
There is concentrated solution pipeline to be connected to through solution heat exchanger (7) with absorber (1), generator (2) is had into refrigerant steam channel and condensation
The second generator (9) is again after device (3) connection is adjusted to generator (2) and has refrigerant steam channel to be connected to the second generator (9)
There is cryogen liquid pipeline to be connected to through second throttle (10) with condenser (3), the second generator (9) there are also refrigerant steam channel with it is cold
Condenser (3) connection, forms combined cycle energy supplying system.
28. combined cycle energy supplying system is to increase by second in any combined cycle energy supplying system described in claim 1-20
Generator (2) is had mixed-gas channel and outer by generator, second throttle, the second solution pump and the second solution heat exchanger
There is mixed the second generator (9) again after portion's connection is adjusted to generator (2) and has mixed-gas channel to be connected to the second generator (9)
It closes gas passage to be connected to outside, has weak solution pipeline through solution pump (6) and solution heat exchanger (7) and hair absorber (1)
Raw device (2) connection, which is adjusted to absorber (1), has weak solution pipeline to occur through solution pump (6) and solution heat exchanger (7) with second
Device (9) connection, the second generator (9) have concentrated solution pipeline through the second solution pump (11) and the second solution heat exchanger (12) again and
Generator (2) connection, has concentrated solution pipeline to be connected to through solution heat exchanger (7) with absorber (1) in generator (2) and is adjusted to send out
Raw device (2) have concentrated solution pipeline to be connected to through the second solution heat exchanger (12) and solution heat exchanger (7) with absorber (1), will
Generator (2) have refrigerant steam channel be connected to condenser (3) be adjusted to generator (2) have refrigerant steam channel with second occur
The second generator (9) has cryogen liquid pipeline to be connected to through second throttle (10) with condenser (3) again after device (9) connection, and second
Generator (9) is connected to there are also refrigerant steam channel with condenser (3), forms combined cycle energy supplying system.
It 29. combined cycle energy supplying system, is to increase by the in any combined cycle energy supplying system described in claim 26-28
Two heat exchangers, second heat exchanger (8) has heated medium pipeline to be connected to outside, and takes following any any one
Item technical measures are to form combined cycle energy supplying system: 1. having mixed-gas channel to be connected to tune with outside in the second generator (9)
Whole is that the second generator (9) has mixed-gas channel to be connected to through second heat exchanger (8) with outside;2. by the second generator (9)
Have mixed-gas channel be connected to outside be adjusted to the second generator (9) have mixed-gas channel through second heat exchanger (8) and
Evaporator (4) is connected to outside;3. having mixed-gas channel to be connected to outside in the second generator (9) is adjusted to the second generator
(9) mixed-gas channel is connected to through second heat exchanger (8), evaporator (4) and low temperature heat exchanger (J) with outside.
30. combined cycle energy supplying system is to increase third hair in any combined cycle energy supplying system described in claim 22
Raw device, third throttle valve, third solution pump and third solution heat exchanger, it is molten through third that absorber (1) adds weak solution pipeline
Liquid pump (15) and third solution heat exchanger (16) are connected to third generator (13), and there are also concentrated solution pipes for third generator (13)
Road is connected to through third solution heat exchanger (16) with absorber (1), and the second generator (9) is had refrigerant steam channel and condenser
(3) third generator after connection is adjusted to the second generator (9) and has refrigerant steam channel to be connected to third generator (13)
(13) cryogen liquid pipeline is connected to through third throttle valve (14) with condenser (3) again, there are also refrigerant vapours for third generator (13)
Channel is connected to condenser (3), forms combined cycle energy supplying system.
31. combined cycle energy supplying system is to increase third hair in any combined cycle energy supplying system described in claim 23
Absorber (1) is had weak solution pipeline to hand over through solution pump (6), solution heat by raw device, third throttle valve and third solution heat exchanger
Parallel operation (7) and the second solution heat exchanger (12) are connected to generator (2) to be adjusted to absorber (1) and has weak solution pipeline through solution
(6), solution heat exchanger (7), third solution heat exchanger (16) and the second solution heat exchanger (12) is pumped to connect with generator (2)
It is logical, there is concentrated solution pipeline to be connected to through solution heat exchanger (7) with absorber (1) in the second generator (9) and is adjusted to the second generation
Device (9) has concentrated solution pipeline to be connected to through third solution heat exchanger (16) with third generator (13), and third generator (13) is again
There is concentrated solution pipeline to be connected to through solution heat exchanger (7) with absorber (1), by the second generator (9) have refrigerant steam channel with
Third hair after condenser (3) connection is adjusted to the second generator (9) and has refrigerant steam channel to be connected to third generator (13)
Raw device (13) have cryogen liquid pipeline to be connected to through third throttle valve (14) with condenser (3) again, and there are also cryogens for third generator (13)
Steam channel is connected to condenser (3), forms combined cycle energy supplying system.
32. combined cycle energy supplying system is to increase third hair in any combined cycle energy supplying system described in claim 24
Raw device, third throttle valve, third solution pump and third solution heat exchanger, have weak solution pipeline through solution pump absorber (1)
(6) it is connected to the second generator (9) with solution heat exchanger (7) and is adjusted to absorber (1) and has weak solution pipeline through solution pump (6)
It is connected to solution heat exchanger (7) with third generator (13), third generator (13) has concentrated solution pipeline through third solution again
Pump (15) and third solution heat exchanger (16) are connected to the second generator (9), have concentrated solution pipeline through second in generator (2)
Solution heat exchanger (12) and solution heat exchanger (7) be connected to absorber (1) be adjusted to generator (2) have concentrated solution pipeline warp
Second solution heat exchanger (12), third solution heat exchanger (16) and solution heat exchanger (7) are connected to absorber (1), will
Second generator (9) has refrigerant steam channel to be connected to condenser (3) to be adjusted to the second generator (9) and have refrigerant steam channel
Third generator (13) has cryogen liquid pipeline through third throttle valve (14) and condenser again after being connected to third generator (13)
(3) it is connected to, third generator (13) is connected to there are also refrigerant steam channel with condenser (3), forms combined cycle energy supplying system.
It 33. combined cycle energy supplying system, is to increase by the in any combined cycle energy supplying system described in claim 30-32
Two heat exchangers, second heat exchanger (8) has heated medium pipeline to be connected to outside, and takes following any skill
Art measure is to form combined cycle energy supplying system: 1. having mixed-gas channel to be connected to outside in generator (2) and is adjusted to occur
Device (2) has mixed-gas channel to be connected to through second heat exchanger (8) with outside;2. by generator (2) have mixed-gas channel with
Outside connection, which is adjusted to generator (2), has mixed-gas channel to be connected to through second heat exchanger (8) and evaporator (4) with outside;
3. by generator (2) have mixed-gas channel with outside be connected to be adjusted to generator (2) have mixed-gas channel through second heat friendship
Parallel operation (8), evaporator (4) and low temperature heat exchanger (J) are connected to outside.
34. combined cycle energy supplying system is to increase third hair in any combined cycle energy supplying system described in claim 22
Generator (2) is had mixed-gas channel and outside by raw device, third throttle valve, third solution pump and third solution heat exchanger
Connection, which is adjusted to generator (2), has mixed-gas channel to be sequentially communicated the second generator (9) and third generator (13) later the
Three generators (13) have mixed-gas channel to be connected to outside again, and absorber (1) adds weak solution pipeline through third solution pump
(15) it is connected to third solution heat exchanger (16) with third generator (13), there are also concentrated solution pipelines to pass through for third generator (13)
Third solution heat exchanger (16) is connected to absorber (1), and the second generator (9) is had refrigerant steam channel and condenser (3)
Third generator (13) is again after connection is adjusted to the second generator (9) and has refrigerant steam channel to be connected to third generator (13)
There is cryogen liquid pipeline to be connected to through third throttle valve (14) with condenser (3), third generator (13) there are also refrigerant steam channel with
Condenser (3) connection, forms combined cycle energy supplying system.
35. combined cycle energy supplying system is to increase third hair in any combined cycle energy supplying system described in claim 23
Generator (2) is had mixed-gas channel to be connected to outside and is adjusted to send out by raw device, third throttle valve and third solution heat exchanger
Raw device (2) have mixed-gas channel to be sequentially communicated third generator (13) after the second generator (9) and third generator (13)
There is mixed-gas channel to be connected to outside again, has weak solution pipeline through solution pump (6), solution heat exchanger (7) absorber (1)
Be connected to the second solution heat exchanger (12) with generator (2) be adjusted to absorber (1) have weak solution pipeline through solution pump (6),
Solution heat exchanger (7), third solution heat exchanger (16) and the second solution heat exchanger (12) are connected to generator (2), will
Second generator (9) has concentrated solution pipeline to be connected to through solution heat exchanger (7) with absorber (1) to be adjusted to the second generator (9)
There is concentrated solution pipeline to be connected to through third solution heat exchanger (16) with third generator (13), third generator (13) has dense molten again
Liquid pipeline is connected to through solution heat exchanger (7) with absorber (1), and the second generator (9) is had refrigerant steam channel and condenser
(3) third generator after connection is adjusted to the second generator (9) and has refrigerant steam channel to be connected to third generator (13)
(13) cryogen liquid pipeline is connected to through third throttle valve (14) with condenser (3) again, there are also refrigerant vapours for third generator (13)
Channel is connected to condenser (3), forms combined cycle energy supplying system.
36. combined cycle energy supplying system is to increase third hair in any combined cycle energy supplying system described in claim 24
Generator (2) is had mixed-gas channel and outside by raw device, third throttle valve, third solution pump and third solution heat exchanger
Connection, which is adjusted to generator (2), has mixed-gas channel to be sequentially communicated the second generator (9) and third generator (13) later the
Three generators (13) have mixed-gas channel to be connected to outside again, have weak solution pipeline through solution pump (6) and molten absorber (1)
Liquid heat exchanger (7) is connected to the second generator (9) to be adjusted to absorber (1) and has weak solution pipeline through solution pump (6) and solution
Heat exchanger (7) is connected to third generator (13), and third generator (13) has concentrated solution pipeline through third solution pump (15) again
It is connected to third solution heat exchanger (16) with the second generator (9), has concentrated solution pipeline through the second solution heat in generator (2)
Exchanger (12) and solution heat exchanger (7) are connected to absorber (1) to be adjusted to generator (2) and has concentrated solution pipeline molten through second
Liquid heat exchanger (12), third solution heat exchanger (16) and solution heat exchanger (7) are connected to absorber (1), by the second hair
Raw device (9) have refrigerant steam channel be connected to condenser (3) to be adjusted to the second generator (9) and have refrigerant steam channel and third hair
Third generator (13) has cryogen liquid pipeline to be connected to through third throttle valve (14) with condenser (3) again after raw device (13) connection,
Third generator (13) is connected to there are also refrigerant steam channel with condenser (3), forms combined cycle energy supplying system.
It 37. combined cycle energy supplying system, is to increase by the in any combined cycle energy supplying system described in claim 34-36
Two heat exchangers, second heat exchanger (8) has heated medium pipeline to be connected to outside, and takes following any skill
Art measure is to form combined cycle energy supplying system: 1. having mixed-gas channel to be connected to outside in third generator (13) and is adjusted to
Third generator (13) has mixed-gas channel to be connected to through second heat exchanger (8) with outside;2. third generator (13) is had
Mixed-gas channel with outside be connected to be adjusted to third generator (13) have mixed-gas channel through second heat exchanger (8) and steaming
Hair device (4) is connected to outside;3. having mixed-gas channel to be connected to outside in third generator (13) is adjusted to third generator
(13) mixed-gas channel is connected to through second heat exchanger (8), evaporator (4) and low temperature heat exchanger (J) with outside.
38. combined cycle energy supplying system will be occurred in any combined cycle energy supplying system described in claim 30-37
The second generator (9) has cryogen liquid pipeline through the second section again after device (2) has refrigerant steam channel to be connected to the second generator (9)
Stream valve (10) is connected to condenser (3) be adjusted to generator (2) and there is refrigerant steam channel to be connected to the second generator (9) after the
Two generators (9) have cryogen liquid pipeline to be connected to through third generator (13) and second throttle (10) with condenser (3) again, are formed
Combined cycle energy supplying system.
39. combined cycle energy supplying system is to increase by second in any combined cycle energy supplying system described in claim 1-20
Generator (2) is had mixed-gas channel and outer by generator, the second solution pump, the second solution heat exchanger and the second absorber
There is mixed the second generator (9) again after portion's connection is adjusted to generator (2) and has mixed-gas channel to be connected to the second generator (9)
It closes gas passage to be connected to outside, there is refrigerant steam channel to be connected to absorber (1) evaporator (4) and be adjusted to evaporator (4)
There is refrigerant steam channel to be connected to the second absorber (17), there are also weak solution pipelines through the second solution pump for the second absorber (17)
(11) it is connected to the second solution heat exchanger (12) with the second generator (9), there are also concentrated solution pipelines through for the second generator (9)
Two solution heat exchangers (12) are connected to the second absorber (17), and there are also refrigerant steam channel and absorbers for the second generator (9)
(1) it is connected to, the second absorber (17) also heated medium pipeline is connected to outside, forms combined cycle energy supplying system.
40. combined cycle energy supplying system is to increase by the second heat in any combined cycle energy supplying system described in claim 39
Exchanger, second heat exchanger (8) has heated medium pipeline to be connected to outside, and following any technology is taken to arrange
It imposes to form combined cycle energy supplying system: 1. thering is mixed-gas channel to be connected to outside in the second generator (9) and be adjusted to second
Generator (9) has mixed-gas channel to be connected to through second heat exchanger (8) with outside;2. the second generator (9) is had gaseous mixture
Body channel is connected to outside and is adjusted to the second generator (9) and has mixed-gas channel through second heat exchanger (8) and evaporator (4)
It is connected to outside;3. thering is mixed-gas channel to be connected to outside in the second generator (9) to be adjusted to the second generator (9) and have mixing
Gas passage is connected to through second heat exchanger (8), evaporator (4) and low temperature heat exchanger (J) with outside.
41. combined cycle energy supplying system is to increase high temperature in any combined cycle energy supplying system described in claim 1-20
Heat exchanger and second circulation pump, generator (2) after thering is mixed-gas channel to be connected to generator (2) waste heat boiler (E)
Have again mixed-gas channel with outside be connected to be adjusted to waste heat boiler (E) have mixed-gas channel and high-temperature heat exchanger (Q) company
High-temperature heat exchanger (Q) has mixed-gas channel to be connected to external again after logical, high-temperature heat exchanger (Q) and generator (2) it
Between by second circulation pump (R) and circulating thermal medium pipeline constitute closed loop, formation combined cycle energy supplying system.
42. combined cycle energy supplying system is to increase by the second heat in any combined cycle energy supplying system described in claim 41
Exchanger, second heat exchanger (8) has heated medium pipeline to be connected to outside, and following any technology is taken to arrange
It imposes to form combined cycle energy supplying system: 1. will rely on second circulation pump (R) between high-temperature heat exchanger (Q) and generator (2)
Closed loop, which is constituted, with circulating thermal medium pipeline is adjusted to high-temperature heat exchanger (Q), generator (2) and second heat exchanger
(8) closed loop is constituted by second circulation pump (R) and circulating thermal medium pipeline between;2. by high-temperature heat exchanger (Q)
Closed loop, which is constituted, by second circulation pump (R) and circulating thermal medium pipeline between generator (2) is adjusted to high warm
It is situated between exchanger (Q), generator (2), second heat exchanger (8) and evaporator (4) by second circulation pump (R) and cycling hot
Matter pipeline constitutes closed loop;3. will between high-temperature heat exchanger (Q) and generator (2) by second circulation pump (R) and
Circulating thermal medium pipeline constitutes closed loop and is adjusted to high-temperature heat exchanger (Q), generator (2), second heat exchanger
(8), closed circulation is constituted by circulating pump (P) and circulating thermal medium pipeline between evaporator (4) and low temperature heat exchanger (J) to return
Road.
43. combined cycle energy supplying system is to increase high temperature in any combined cycle energy supplying system described in claim 1-20
Heat exchanger, second circulation pump, the second generator, the second solution pump, the second solution heat exchanger and the second absorber, by waste heat
Generator (2) has mixed-gas channel to be connected to tune with outside again after boiler (E) has mixed-gas channel to be connected to generator (2)
Whole is that high-temperature heat exchanger (Q) has mixing again after waste heat boiler (E) has mixed-gas channel to be connected to high-temperature heat exchanger (Q)
Gas passage is connected to outside, is pumped between high-temperature heat exchanger (Q), generator (2) and the second generator (9) by second circulation
(R) and circulating thermal medium pipeline constitutes closed loop;There is refrigerant steam channel to be connected to absorber (1) evaporator (4)
Being adjusted to evaporator (4) has refrigerant steam channel to be connected to the second absorber (17), and there are also weak solution pipes for the second absorber (17)
The second solution pump of road (11) and the second solution heat exchanger (12) are connected to the second generator (9), and the second generator (9) is also
Concentrated solution pipeline is connected to through the second solution heat exchanger (12) with the second absorber (17), and there are also cryogens to steam for the second generator (9)
Vapour channel is connected to absorber (1), and the second absorber (17) also heated medium pipeline is connected to outside, forms combined cycle
Energy supplying system.
44. combined cycle energy supplying system is to cancel boiler in any combined cycle energy supplying system described in claim 1-20
(B) blast tube is connected to waste heat boiler (E), cancelling air turbine (C) has air duct to be connected to waste heat boiler (E), takes
Generator (2) has mixed-gas channel and outside again after the waste heat boiler (E) that disappears has mixed-gas channel to be connected to generator (2)
Connection;Generator (2) has blast tube again after boiler (B) has blast tube to be sequentially communicated waste heat boiler (E) and generator (2)
Be connected to outside, air turbine (C) there is air duct to be sequentially communicated waste heat boiler (E) and generator (2) generator (2) is again later
There is air duct to be connected to outside, forms combined cycle energy supplying system.
45. combined cycle energy supplying system is to increase work in any combined cycle energy supplying system described in claim 1-44
Machine, air-steam forward circulation provide power to working machine (S) respectively, provide power to compression reverse circulation and to absorption
Formula reverse circulation provides driving thermic load, forms combined cycle energy supplying system.
46. combined cycle energy supplying system, be in any combined cycle energy supplying system described in claim 1-45, by fuel and
Air duct is changed to high temperature heat source medium channel, and blast tube is changed to low-temperature heat source medium channel, forms combined cycle
Energy supplying system.
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CN106403363B (en) * | 2015-10-18 | 2020-05-29 | 李华玉 | Fifth type thermal driving compression-absorption heat pump |
CN106403362B (en) * | 2015-10-18 | 2020-04-07 | 李华玉 | Fifth type thermal driving compression-absorption heat pump |
CN106568233B (en) * | 2016-03-14 | 2020-04-21 | 李华玉 | Third-class thermally-driven compression heat pump |
CN106225315B (en) * | 2016-04-29 | 2020-01-31 | 李华玉 | Third-class thermally-driven compression heat pump |
CN106352591B (en) * | 2016-05-30 | 2020-01-31 | 李华玉 | Combined heat and power system |
WO2018068431A1 (en) * | 2016-10-12 | 2018-04-19 | 李华玉 | Combined cycle steam power device having evaporation stages |
CN108119195B (en) * | 2016-12-20 | 2020-05-01 | 李华玉 | Combined cycle power plant |
CN109059347B (en) * | 2018-06-19 | 2021-03-12 | 李华玉 | Third-class thermally-driven compression heat pump |
CN115218183A (en) * | 2021-01-03 | 2022-10-21 | 李华玉 | Dual-fuel high-temperature heat source |
WO2022161114A1 (en) * | 2021-01-27 | 2022-08-04 | 李华玉 | Dual-fuel high-temperature heat source and dual-fuel power apparatus |
Citations (5)
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 |
CN1804511A (en) * | 2006-01-23 | 2006-07-19 | 李华玉 | Compression-absorption combined heat pump heating system |
CN201181133Y (en) * | 2008-03-03 | 2009-01-14 | 清华大学 | Combined cooling, heating and power supplying system |
CN101832677A (en) * | 2010-04-29 | 2010-09-15 | 李华玉 | Backheating type absorption-generation system and backheating type first class absorption heat pump |
CN101957093A (en) * | 2010-08-13 | 2011-01-26 | 李华玉 | Absorption-reabsorption-generation system and first-class absorption heat pump |
-
2015
- 2015-05-27 CN CN201510297514.2A patent/CN104963732B/en active Active
Patent Citations (5)
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 |
CN1804511A (en) * | 2006-01-23 | 2006-07-19 | 李华玉 | Compression-absorption combined heat pump heating system |
CN201181133Y (en) * | 2008-03-03 | 2009-01-14 | 清华大学 | Combined cooling, heating and power supplying system |
CN101832677A (en) * | 2010-04-29 | 2010-09-15 | 李华玉 | Backheating type absorption-generation system and backheating type first class absorption heat pump |
CN101957093A (en) * | 2010-08-13 | 2011-01-26 | 李华玉 | Absorption-reabsorption-generation system and first-class absorption heat pump |
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