CN106403359A - First-class thermally driven compression-absorption type heat pump - Google Patents

Abstract

The invention provides a first-class thermally driven compression-absorption type heat pump, and belongs to the technical field of power, refrigeration and heat pumps. A front end temperature difference utilization system is formed by an evaporator, a compressor, a combustion chamber, a gas turbine, a second compressor, a second gas turbine, a third compressor, a heat supplier and a low-temperature heat exchanger. A tail end temperature difference utilization system is formed by an absorber, a generator, a condenser, the evaporator, a throttling valve, a solution pump and a solution heat exchanger. The front end temperature difference utilization system obtains external low-temperature heat loads, meets the medium-temperature heat demand and provides heat loads for the evaporator. The tail end temperature difference utilization system obtains evaporator heat loads and provides medium-temperature heat loads through the absorber and the condenser. The first-class thermally driven compression-absorption type heat pump is formed.

Description

First kind thermal drivers compressing-absorbing type heat pump

Technical field：

The invention belongs to power, refrigeration and technical field of heat pumps.

Background technology：

Cold demand, heat demand and power demand, central with production common by human lives；In reality, people often need To realize refrigeration, heat supply using high temperature heat or be converted into power it is also desirable to being freezed using power or being utilized power And carry out heat supply with reference to low temperature heat energy.During stating purpose in realization, face many conditions and limit the energy Type, grade and quantity, the type of user's request, grade and quantity, the type of working media, the flow process of equipment, structure and system Cause this, the security that equipment runs, acceptable degree of environment temperature and environment etc..

Heat energy (temperature difference) with absorption heat pump technology as representative utilizes technology, is driven using high warm load and realizes heat supply Or refrigeration；Property by working media (solution and refrigerant medium) is affected, the high warm load of excessive temperature or excessively low temperature Low temperature thermic load be often difficult to reasonably be applied in absorption heat pump technology, lead to its application and range of application to be subject to Larger restriction.Compression heat pump technology has preferable flexibility in terms of thermodynamic property, but the core of compression heat pump Part is moving component, and this brings the noise producing in many unfavorable such as compression type heat pump operations to make us being difficult to stand, Face the factors such as core component cost to limit；For this reason, it may be necessary to consider to reduce making of nucleus movement part (compressor and decompressor) With and quantity.

For playing compression heat pump and absorption heat pump each technical advantage, for utilizing fuel as heat supply or cooling Drive energy, takes into account power drive or externally provides power demand, and it is core that the present invention proposes by compressor and gas turbine The part composition front end temperature difference utilizes system, and by absorber, generator, condenser, evaporimeter, choke valve, solution pump and solution Heat exchanger composition terminal temperature difference utilizes system, and working media and heat source medium are served as in combustion gas, have the first kind of comprehensive advantage Thermal drivers compressing-absorbing type heat pump.

Content of the invention：

Present invention is primarily intended to serial first kind thermal drivers compressing-absorbing type heat pump will be provided, concrete content of the invention divides Item is described below：

1. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, throttling Valve, solution pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd pressure Contracting machine, heater and low temperature heat exchanger are formed；Absorber has weak solution pipeline through solution pump and solution heat exchanger and to send out Raw device connection, generator also has concentrated solution pipeline to connect with absorber through solution heat exchanger, and generator also has refrigerant vapour to lead to Road is connected with condenser, and condenser also has cryogen liquid pipeline to connect with evaporimeter through choke valve, and evaporimeter also has refrigerant vapour to lead to Road is connected with absorber, and outside has air duct to connect with compressor, and compressor also has compressed air channel and combustion chamber, Combustion chamber also has fuel channel and ft connection, and combustion chamber also has blast tube to connect with gas turbine, and gas turbine also has combustion Gas passage is connected with the second gas turbine through evaporimeter, and the second gas turbine also has blast tube through low temperature heat exchanger and the 3rd Compressor connects, and the 3rd compressor also has blast tube to connect with the second compressor through heater, and the second compressor also has combustion gas Passage also has heated medium pipeline and ft connection respectively through generator and ft connection, absorber, condenser and heater, Low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine and the second gas turbine connect compressor, the Two compressors and the 3rd compressor simultaneously transmit power, form first kind thermal drivers compressing-absorbing type heat pump.

2. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, throttling Valve, solution pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd pressure Contracting machine, heater and low temperature heat exchanger are formed；Absorber has weak solution pipeline through solution pump and solution heat exchanger and to send out Raw device connection, generator also has concentrated solution pipeline to connect with absorber through solution heat exchanger, and generator also has refrigerant vapour to lead to Road is connected with condenser, and condenser also has cryogen liquid pipeline to connect with evaporimeter through choke valve, and evaporimeter also has refrigerant vapour to lead to Road is connected with absorber, and outside has air duct to connect with compressor, and compressor also has compressed air channel and combustion chamber, Combustion chamber also has fuel channel and ft connection, and combustion chamber also has blast tube to connect with gas turbine, and gas turbine also has combustion Gas passage is connected with the 3rd compressor through low temperature heat exchanger, and the 3rd compressor also has blast tube through heater and the second combustion gas Turbine connects, and the second gas turbine also has blast tube to connect with the second compressor through evaporimeter, and the second compressor also has combustion gas Passage also has heated medium pipeline and ft connection respectively through generator and ft connection, absorber, condenser and heater, Low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine and the second gas turbine connect compressor, the Two compressors and the 3rd compressor simultaneously transmit power, form first kind thermal drivers compressing-absorbing type heat pump.

3. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, throttling Valve, solution pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the 3rd compressor, heater, low Temperature heat exchanger and the 4th compressor are formed；Absorber has weak solution pipeline through solution pump and solution heat exchanger and generator Connection, generator also has concentrated solution pipeline to connect with absorber through solution heat exchanger, generator also have refrigerant steam channel and Condenser connects, and condenser also has cryogen liquid pipeline to connect with evaporimeter through choke valve, evaporimeter also have refrigerant steam channel and Absorber connects, and outside has air duct to connect with compressor, and compressor also has compressed air channel and combustion chamber, burning Room also has fuel channel and ft connection, and combustion chamber also has blast tube to connect with gas turbine, and gas turbine also has combustion gas to lead to Road is connected with the 3rd compressor through low temperature heat exchanger, and the 3rd compressor also has blast tube to connect through evaporimeter and the 4th compressor Logical, the 4th compressor also has blast tube to connect with the second compressor through heater, and the second compressor also has blast tube through sending out Raw device and ft connection, absorber, condenser and heater also have heated medium pipeline and ft connection respectively, and Low Temperature Thermal is handed over Parallel operation also has low-temperature heat medium passage and ft connection, and gas turbine connects compressor, the second compressor, the 3rd compressor and the Four compressors simultaneously transmit power, form first kind thermal drivers compressing-absorbing type heat pump.

4. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, throttling Valve, solution pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, heater, Low temperature heat exchanger and the 3rd gas turbine are formed；Absorber has weak solution pipeline through solution pump and solution heat exchanger and to send out Raw device connection, generator also has concentrated solution pipeline to connect with absorber through solution heat exchanger, and generator also has refrigerant vapour to lead to Road is connected with condenser, and condenser also has cryogen liquid pipeline to connect with evaporimeter through choke valve, and evaporimeter also has refrigerant vapour to lead to Road is connected with absorber, and outside has air duct to connect with compressor, and compressor also has compressed air channel and combustion chamber, Combustion chamber also has fuel channel and ft connection, and combustion chamber also has blast tube to connect with gas turbine, and gas turbine also has combustion Gas passage is connected with the second gas turbine through heater, and the second gas turbine also has blast tube through evaporimeter and the 3rd combustion gas wheel Machine connects, and the 3rd gas turbine also has blast tube to connect with the second compressor through low temperature heat exchanger, and the second compressor also has Through generator and ft connection, absorber, condenser and heater also have heated medium pipeline and outside to blast tube respectively Connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine, the second gas turbine and the 3rd combustion gas Turbine connects compressor and the second compressor and transmits power, forms first kind thermal drivers compressing-absorbing type heat pump.

5. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, throttling Valve, solution pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd pressure Contracting machine, heater and low temperature heat exchanger are formed；Absorber has weak solution pipeline through solution pump and solution heat exchanger and to send out Raw device connection, generator also has concentrated solution pipeline to connect with absorber through solution heat exchanger, and generator also has refrigerant vapour to lead to Road is connected with condenser, and condenser also has cryogen liquid pipeline to connect with evaporimeter through choke valve, and evaporimeter also has refrigerant vapour to lead to Road is connected with absorber, and outside has air duct to connect with compressor, and compressor also has compressed air channel and combustion chamber, Combustion chamber also has fuel channel and ft connection, and combustion chamber also has blast tube to connect with gas turbine, and gas turbine also has combustion Gas passage is connected with the 3rd compressor through evaporimeter, and the 3rd compressor also has blast tube to connect through heater and the second gas turbine Logical, the second gas turbine also has blast tube to connect with the second compressor through low temperature heat exchanger, and the second compressor also has combustion gas Passage also has heated medium pipeline and ft connection respectively through generator and ft connection, absorber, condenser and heater, Low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine and the second gas turbine connect compressor, the Two compressors and the 3rd compressor simultaneously transmit power, form first kind thermal drivers compressing-absorbing type heat pump.

6. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, throttling Valve, solution pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd pressure Contracting machine, heater, low temperature heat exchanger, the 3rd gas turbine and high temperature regenerator are formed；Absorber has weak solution pipeline warp Solution pump is connected with generator with solution heat exchanger, and generator also has concentrated solution pipeline through solution heat exchanger with absorber even Logical, generator also has refrigerant steam channel to connect with condenser, and condenser also has cryogen liquid pipeline through choke valve with evaporimeter even Logical, evaporimeter also has refrigerant steam channel to connect with absorber, and outside has air duct to connect with compressor, and compressor also has presses Through high temperature regenerator and combustion chamber, combustion chamber also has fuel channel and ft connection to contracting air duct, and combustion chamber also has fires Gas passage is connected with gas turbine, and gas turbine also has blast tube to connect with the second gas turbine through high temperature regenerator, and second Gas turbine also has blast tube to connect with the 3rd gas turbine through evaporimeter, and the 3rd gas turbine also has blast tube through low temperature Heat exchanger is connected with the 3rd compressor, and the 3rd compressor also has blast tube to connect with the second compressor through heater, and second Compressor also has blast tube through generator and ft connection, and absorber, condenser and heater also have heated medium respectively Pipeline and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine, the second gas turbine Connect compressor, the second compressor and the 3rd compressor with the 3rd gas turbine and transmit power, form first kind thermal drivers pressure Contracting-absorption heat pump.

7. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, throttling Valve, solution pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd pressure Contracting machine, heater, low temperature heat exchanger, the 3rd gas turbine and high temperature regenerator are formed；Absorber has weak solution pipeline warp Solution pump is connected with generator with solution heat exchanger, and generator also has concentrated solution pipeline through solution heat exchanger with absorber even Logical, generator also has refrigerant steam channel to connect with condenser, and condenser also has cryogen liquid pipeline through choke valve with evaporimeter even Logical, evaporimeter also has refrigerant steam channel to connect with absorber, and outside has air duct to connect with compressor, and compressor also has presses Through high temperature regenerator and combustion chamber, combustion chamber also has fuel channel and ft connection to contracting air duct, and combustion chamber also has fires Gas passage is connected with gas turbine, and gas turbine also has blast tube to connect with the second gas turbine through high temperature regenerator, and second Gas turbine also has blast tube to connect with the 3rd compressor through low temperature heat exchanger, and the 3rd compressor also has blast tube through supplying Hot device is connected with the 3rd gas turbine, and the 3rd gas turbine also has blast tube to connect with the second compressor through evaporimeter, and second Compressor also has blast tube through generator and ft connection, and absorber, condenser and heater also have heated medium respectively Pipeline and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine, the second gas turbine Connect compressor, the second compressor and the 3rd compressor with the 3rd gas turbine and transmit power, form first kind thermal drivers pressure Contracting-absorption heat pump.

8. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, throttling Valve, solution pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd pressure Contracting machine, heater, low temperature heat exchanger, the 4th compressor and high temperature regenerator are formed；Absorber has weak solution pipeline through molten Liquid pump is connected with generator with solution heat exchanger, and generator also has concentrated solution pipeline through solution heat exchanger with absorber even Logical, generator also has refrigerant steam channel to connect with condenser, and condenser also has cryogen liquid pipeline through choke valve with evaporimeter even Logical, evaporimeter also has refrigerant steam channel to connect with absorber, and outside has air duct to connect with compressor, and compressor also has presses Through high temperature regenerator and combustion chamber, combustion chamber also has fuel channel and ft connection to contracting air duct, and combustion chamber also has fires Gas passage is connected with gas turbine, and gas turbine also has blast tube to connect with the second gas turbine through high temperature regenerator, and second Gas turbine also has blast tube to connect with the 3rd compressor through low temperature heat exchanger, and the 3rd compressor also has blast tube through steaming Send out device to connect with the 4th compressor, the 4th compressor also has blast tube to connect with the second compressor through heater, the second compression Machine also has blast tube through generator and ft connection, and absorber, condenser and heater also have heated medium pipeline respectively With ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, and gas turbine and the second gas turbine are even Connect compressor, the second compressor, the 3rd compressor and the 4th compressor and transmit power, form first kind thermal drivers compression-suction Receipts formula heat pump.

9. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, throttling Valve, solution pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, heater, Low temperature heat exchanger, the 3rd gas turbine, high temperature regenerator and the 4th gas turbine are formed；Absorber has weak solution pipeline warp Solution pump is connected with generator with solution heat exchanger, and generator also has concentrated solution pipeline through solution heat exchanger with absorber even Logical, generator also has refrigerant steam channel to connect with condenser, and condenser also has cryogen liquid pipeline through choke valve with evaporimeter even Logical, evaporimeter also has refrigerant steam channel to connect with absorber, and outside has air duct to connect with compressor, and compressor also has presses Through high temperature regenerator and combustion chamber, combustion chamber also has fuel channel and ft connection to contracting air duct, and combustion chamber also has fires Gas passage is connected with gas turbine, and gas turbine also has blast tube to connect with the second gas turbine through high temperature regenerator, and second Gas turbine also has blast tube to connect with the 3rd gas turbine through heater, and the 3rd gas turbine also has blast tube through evaporation Device is connected with the 4th gas turbine, and the 4th gas turbine also has blast tube to connect with the second compressor through low temperature heat exchanger, Second compressor also has blast tube through generator and ft connection, and absorber, condenser and heater also have heated respectively Medium pipeline and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine, the second combustion gas Turbine, the 3rd gas turbine and the 4th gas turbine connect compressor and the second compressor and transmit power, form first kind heat Drive compression-absorption heat pump.

10. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, throttling Valve, solution pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd pressure Contracting machine, heater, low temperature heat exchanger, the 3rd gas turbine and high temperature regenerator are formed；Absorber has weak solution pipeline warp Solution pump is connected with generator with solution heat exchanger, and generator also has concentrated solution pipeline through solution heat exchanger with absorber even Logical, generator also has refrigerant steam channel to connect with condenser, and condenser also has cryogen liquid pipeline through choke valve with evaporimeter even Logical, evaporimeter also has refrigerant steam channel to connect with absorber, and outside has air duct to connect with compressor, and compressor also has presses Through high temperature regenerator and combustion chamber, combustion chamber also has fuel channel and ft connection to contracting air duct, and combustion chamber also has fires Gas passage is connected with gas turbine, and gas turbine also has blast tube to connect with the second gas turbine through high temperature regenerator, and second Gas turbine also has blast tube to connect with the 3rd compressor through evaporimeter, the 3rd compressor also have blast tube through heater with 3rd gas turbine connection, the 3rd gas turbine also has blast tube to connect with the second compressor through low temperature heat exchanger, and second Compressor also has blast tube through generator and ft connection, and absorber, condenser and heater also have heated medium respectively Pipeline and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, gas turbine, the second gas turbine Connect compressor, the second compressor and the 3rd compressor with the 3rd gas turbine and transmit power, form first kind thermal drivers pressure Contracting-absorption heat pump.

11. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 1-10 item- In absorption heat pump, cancel the outside fuel channel with combustion chamber, increase new compressor, there is fuel gas passage outside Connect with new compressor, new compressor also has compressed gaseous fuel channel and combustion chamber, gas turbine connects newly-increased Compressor simultaneously transmits power, forms first kind thermal drivers compressing-absorbing type heat pump.

12. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 1-11 item- In absorption heat pump, increase by the second heater, the second compressor is had blast tube to be adjusted to the through generator and ft connection After two compressors have blast tube to be sequentially communicated generator and the second heater, the second heater has blast tube and outside again Connection, the second heater also has heated medium passage and ft connection, forms first kind thermal drivers compressing-absorbing type heat pump.

13. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 1-11 item- In absorption heat pump, increase by the second heater, the second compressor is had blast tube to be adjusted to the through generator and ft connection Two compressors have the finisher that blast tube is sequentially communicated generator, the second heater and evaporimeter to have blast tube again with outward Portion connects, and the second heater also has heated medium passage and ft connection, forms first kind thermal drivers compressing-absorbing type heat Pump.

14. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 1-11 item- In absorption heat pump, increase the second generator, second throttle, the second solution pump and the second solution heat exchanger, absorber increases If weak solution pipeline is connected with the second generator through the second solution pump and the second solution heat exchanger, the second generator also has dense molten Liquid pipeline is connected with absorber through the second solution heat exchanger, generator is had refrigerant steam channel to connect with condenser and is adjusted to After generator has refrigerant steam channel to connect with the second generator, the second generator has cryogen liquid pipeline again through second throttle Connect with condenser, the second generator also has refrigerant steam channel to connect with condenser, form first kind thermal drivers compression-absorption Formula heat pump.

15. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 1-11 item- In absorption heat pump, increase the second generator, second throttle and the second solution heat exchanger, absorber is had weak solution pipeline Connect with generator through solution pump and solution heat exchanger and be adjusted to absorber and have weak solution pipeline through solution pump, solution heat exchange Device and the second solution heat exchanger are connected with generator, and generator is had concentrated solution pipeline through solution heat exchanger with absorber even Logical be adjusted to generator and have concentrated solution pipeline to connect with the second generator through the second solution heat exchanger, the second generator has dense again Solution line is connected with absorber through solution heat exchanger, by generator have refrigerant steam channel connect with condenser be adjusted to send out Raw device have refrigerant steam channel to connect with the second generator after the second generator have cryogen liquid pipeline through second throttle again and Condenser connects, and the second generator also has refrigerant steam channel to connect with condenser, forms first kind thermal drivers compressing-absorbing type Heat pump.

16. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 1-11 item- In absorption heat pump, increase the second generator, second throttle, the second solution pump and the second solution heat exchanger, by absorber There is weak solution pipeline to connect with generator through solution pump and solution heat exchanger to be adjusted to absorber and have weak solution pipeline through solution Pump is connected with the second generator with solution heat exchanger, and the second generator has concentrated solution pipeline molten through the second solution pump and second again Liquid heat exchanger is connected with generator, by generator have concentrated solution pipeline connect with absorber through solution heat exchanger be adjusted to send out Raw device has concentrated solution pipeline to connect with absorber with solution heat exchanger through the second solution heat exchanger, and generator is had cryogen to steam Vapour passage is connected with condenser and is adjusted to after generator has refrigerant steam channel to connect with the second generator the second generator again Cryogen liquid pipeline is had to connect with condenser through second throttle, the second generator also has refrigerant steam channel to connect with condenser, Form first kind thermal drivers compressing-absorbing type heat pump.

17. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 14-16 item- In absorption heat pump, increase by the second heater, the second compressor is had blast tube to be adjusted to the through generator and ft connection After two compressors have blast tube to be sequentially communicated generator and the second heater, the second heater has blast tube and outside again, Second heater also has heated medium passage and ft connection, forms first kind thermal drivers compressing-absorbing type heat pump.

18. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 14-16 item- In absorption heat pump, increase by the second heater, the second compressor is had blast tube to be adjusted to the through generator and ft connection Two compressors have the finisher that blast tube is sequentially communicated generator, the second heater and evaporimeter to have blast tube again with outward Portion, the second heater also has heated medium passage and ft connection, forms first kind thermal drivers compressing-absorbing type heat pump.

19. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 14-16 item- In absorption heat pump, the second compressor is had blast tube to be adjusted to the second compressor through generator and ft connection has combustion gas to lead to After road is sequentially communicated generator and the second generator, the second generator has blast tube and outside, formation first kind thermal drivers again Compressing-absorbing type heat pump.

20. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 14-16 item- In absorption heat pump, increase by the second heater, the second compressor is had blast tube to be adjusted to the through generator and ft connection After two compressors have blast tube to be sequentially communicated generator, the second generator and the second heater, the second heater has combustion gas again Passage and outside, the second heater also has heated medium passage and ft connection, forms first kind thermal drivers compressing-absorbing type Heat pump.

21. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 14-16 item- In absorption heat pump, increase by the second heater, the second compressor is had blast tube to be adjusted to the through generator and ft connection Two compressors have that blast tube is sequentially communicated generator, the finisher of the second generator, the second heater and evaporimeter has again Blast tube and outside, the second heater also has heated medium passage and ft connection, forms first kind thermal drivers compression-suction Receipts formula heat pump.

22. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 1-11 item- In absorption heat pump, increase the second generator, the second absorber, the second solution pump and the second solution heat exchanger, by evaporimeter There is refrigerant steam channel to connect with absorber to be adjusted to evaporimeter and have refrigerant steam channel to connect with the second absorber, the second absorption Device also has weak solution pipeline to connect with the second generator through the second solution pump and the second solution heat exchanger, and the second generator also has Concentrated solution pipeline is connected with the second absorber through the second solution heat exchanger, and the second generator also has refrigerant steam channel and absorption Device connects, by the second compressor have blast tube through generator road and ft connection be adjusted to the second compressor have blast tube according to After secondary connection generator and the second generator, the second generator has blast tube and ft connection again, and the second absorber also has quilt Heating medium passage and ft connection, form first kind thermal drivers compressing-absorbing type heat pump.

23. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 1-11 item- In absorption heat pump, increase the second generator, the second absorber, the second solution pump, solution choke valve, the second solution choke valve and Point steam chest, by absorber have weak solution pipeline connect with generator through solution pump and solution heat exchanger be adjusted to absorber have dilute Solution line is connected with the second absorber with solution heat exchanger through solution pump, and the second absorber also has weak solution pipeline through solution Choke valve is connected with the second generator, and the second generator has concentrated solution pipeline to connect with generator through the second solution pump again, will send out Raw device has concentrated solution pipeline to connect with absorber through solution heat exchanger to be adjusted to generator and have concentrated solution pipeline through the second solution Choke valve and the second absorber are connected with a point steam chest, and a point steam chest has concentrated solution pipeline through solution heat exchanger with absorber even again Logical, generator there is is refrigerant steam channel connect with condenser and is adjusted to generator and has refrigerant steam channel and the second absorber company Logical, the second generator also has refrigerant steam channel to connect with condenser with a point steam chest respectively, and the second compressor is had blast tube Being adjusted to the second compressor through generator and ft connection has blast tube to be sequentially communicated after generator and the second generator the Two generators have blast tube and ft connection again, form first kind thermal drivers compressing-absorbing type heat pump.

24. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 1-23 item- In absorption heat pump, increase engine, engine connects the second compressor and transmits power to the second compressor, formed additional outer Portion's power-actuated first kind thermal drivers compressing-absorbing type heat pump.

25. first kind thermal drivers compressing-absorbing type heat pumps, be the described arbitrary first kind thermal drivers compression of 1-23 item- In absorption heat pump, increase working machine, gas turbine connects working machine and transmits power to working machine, being formed to add externally provides The first kind thermal drivers compressing-absorbing type heat pump of living load.

Brief description：

Fig. 1 is according to the 1st kind of principled thermal system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention Figure.

Fig. 2 is according to the 2nd kind of principled thermal system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention Figure.

Fig. 3 is according to the 3rd kind of principled thermal system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention Figure.

Fig. 4 is according to the 4th kind of principled thermal system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention Figure.

Fig. 5 is according to the 5th kind of principled thermal system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention Figure.

Fig. 6 is according to the 6th kind of principled thermal system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention Figure.

Fig. 7 is according to the 7th kind of principled thermal system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention Figure.

Fig. 8 is according to the 8th kind of principled thermal system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention Figure.

Fig. 9 is according to the 9th kind of principled thermal system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention Figure.

Figure 10 is according to the 10th kind of principle heating power system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention System figure.

Figure 11 is according to the 11st kind of principle heating power system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention System figure.

Figure 12 is according to the 12nd kind of principle heating power system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention System figure.

Figure 13 is according to the 13rd kind of principle heating power system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention System figure.

Figure 14 is according to the 14th kind of principle heating power system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention System figure.

Figure 15 is according to the 15th kind of principle heating power system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention System figure.

Figure 16 is according to the 16th kind of principle heating power system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention System figure.

Figure 17 is according to the 17th kind of principle heating power system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention System figure.

Figure 18 is according to the 18th kind of principle heating power system of first kind thermal drivers compressing-absorbing type heat pump provided by the present invention System figure.

In figure, 1- absorber, 2- generator, 3- condenser, 4- evaporimeter, 5- choke valve, 6- solution pump, 7- solution heat is handed over Parallel operation, 8- compressor, 9- combustion chamber, 10- gas turbine, 11- second compressor, 12- second gas turbine, 13- the 3rd compresses Machine, 14- heater, 15- low temperature heat exchanger, 16- the 4th compressor, 17- the 3rd gas turbine, 18- high temperature regenerator, 19- 4th gas turbine, 20- new compressor, 21- second heater, 22- second generator, 23- second throttle, 24- second Solution pump, 25- second solution heat exchanger, 26- second absorber, 27- solution choke valve, 28- the second solution choke valve, 29- Divide steam chest.

Specific embodiment：

First it is noted that in the statement of structure and flow process, inessential in the case of do not repeat；To apparent Flow process do not state.To describe the present invention with example in detail below in conjunction with the accompanying drawings.

First kind thermal drivers compressing-absorbing type heat pump shown in Fig. 1 is realized in：

(1), in structure, it is mainly handed over by absorber, generator, condenser, evaporimeter, choke valve, solution pump, solution heat Parallel operation, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compressor, heater and Low Temperature Thermal Exchanger is formed；Absorber 1 has weak solution pipeline to connect with generator 2 with solution heat exchanger 7 through solution pump 6, generator 2 Concentrated solution pipeline is also had to connect with absorber 1 through solution heat exchanger 7, generator 2 also has refrigerant steam channel with condenser 3 even Logical, condenser 3 also has cryogen liquid pipeline to connect with evaporimeter 4 through choke valve 5, and evaporimeter 4 also has refrigerant steam channel and absorption Device 1 connects, and outside has air duct to connect with compressor 8, and compressor 8 also has compressed air channel to connect with combustion chamber 9, burning Room 9 also has fuel channel and ft connection, and combustion chamber 9 also has blast tube to connect with gas turbine 10, and gas turbine 10 also has Blast tube is connected with the second gas turbine 12 through evaporimeter 4, and the second gas turbine 12 also has blast tube through low temperature heat exchange Device 15 is connected with the 3rd compressor 13, and the 3rd compressor 13 also has blast tube to connect with the second compressor 11 through heater 14, Second compressor 11 also has blast tube through generator 2 and ft connection, and absorber 1, condenser 3 and heater 14 also have respectively Heated medium pipeline and ft connection, low temperature heat exchanger 15 also has low-temperature heat medium passage and ft connection, gas turbine 10 and the second gas turbine 12 connect compressor 8, the second compressor 11 and the 3rd compressor 13 and transmit power.

(2), in flow process, the weak solution of absorber 1 enters generator 2 through solution pump 6 and solution heat exchanger 7, and combustion gas flows through Generator 2, heating enter its interior solution release refrigerant vapour and provide to condenser 3, and the concentrated solution of generator 2 is through solution heat Exchanger 7 enters absorber 1, absorbs refrigerant vapour and heat release is in heated medium；The refrigerant vapour heat release of condenser 3 is in being added Thermal medium becomes cryogen liquid, and the cryogen liquid of condenser 3 throttles through choke valve 5 and enters evaporimeter 4, absorbs heat into refrigerant vapour and to absorption Device 1 provides；Air enters compressor 8 boosting and heats up, and the compressed air of compressor 8 discharge enters combustion chamber 9, and external fuel enters Combustion chamber 9 mixes and burns into high-temperature fuel gas with compressed air, and high-temperature fuel gas enter gas turbine 10 step-down work done, combustion gas wheel The combustion gas of machine 10 discharge flows through evaporimeter 4 heat release, enters the second gas turbine 12 step-down work done afterwards；Second gas turbine 12 The combustion gas of discharge flows through low temperature heat exchanger 15 and absorbs heat, and enters the 3rd compressor 13 boosting afterwards and heats up；3rd compressor 13 The combustion gas of discharge flows through heater 14 heat release, enters the second compressor 11 boosting afterwards and heats up；Second compressor 11 discharge Combustion gas flows through generator 2 heat release, externally discharges afterwards；The work(of gas turbine 10 and the second gas turbine 12 output is supplied to pressure Contracting machine 8, the second compressor 11 and the 3rd compressor 13 are used as power, and form first kind thermal drivers compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Fig. 2 is realized in：

(1), in structure, it is mainly handed over by absorber, generator, condenser, evaporimeter, choke valve, solution pump, solution heat Parallel operation, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compressor, heater and Low Temperature Thermal Exchanger is formed；Absorber 1 has weak solution pipeline to connect with generator 2 with solution heat exchanger 7 through solution pump 6, generator 2 Concentrated solution pipeline is also had to connect with absorber 1 through solution heat exchanger 7, generator 2 also has refrigerant steam channel with condenser 3 even Logical, condenser 3 also has cryogen liquid pipeline to connect with evaporimeter 4 through choke valve 5, and evaporimeter 4 also has refrigerant steam channel and absorption Device 1 connects, and outside has air duct to connect with compressor 8, and compressor 8 also has compressed air channel to connect with combustion chamber 9, burning Room 9 also has fuel channel and ft connection, and combustion chamber 9 also has blast tube to connect with gas turbine 10, and gas turbine 10 also has Blast tube is connected with the 3rd compressor 13 through low temperature heat exchanger 15, and the 3rd compressor 13 also has blast tube through heater 14 Connect with the second gas turbine 12, the second gas turbine 12 also has blast tube to connect with the second compressor 11 through evaporimeter 4, the Two compressors 11 also have blast tube through generator 2 and ft connection, absorber 1, condenser 3 and heater 14 also have respectively by Heating medium pipeline and ft connection, low temperature heat exchanger 15 also has low-temperature heat medium passage and ft connection, gas turbine 10 Connect compressor 8, the second compressor 11 and the 3rd compressor 13 with the second gas turbine 12 and transmit power.

(2), in flow process, the weak solution of absorber 1 enters generator 2 through solution pump 6 and solution heat exchanger 7, and combustion gas flows through Generator 2, heating enter its interior solution release refrigerant vapour and provide to condenser 3, and the concentrated solution of generator 2 is through solution heat Exchanger 7 enters absorber 1, absorbs refrigerant vapour and heat release is in heated medium；The refrigerant vapour heat release of condenser 3 is in being added Thermal medium becomes cryogen liquid, and the cryogen liquid of condenser 3 throttles through choke valve 5 and enters evaporimeter 4, absorbs heat into refrigerant vapour and to absorption Device 1 provides；Air enters compressor 8 boosting and heats up, and the compressed air of compressor 8 discharge enters combustion chamber 9, and external fuel enters Combustion chamber 9 mixes and burns into high-temperature fuel gas with compressed air, and high-temperature fuel gas enter gas turbine 10 step-down work done, combustion gas wheel The combustion gas of machine 10 discharge flows through low temperature heat exchanger 15 and absorbs heat, and enters the 3rd compressor 13 boosting afterwards and heats up；3rd compression The combustion gas of machine 13 discharge flows through heater 14 heat release, enters the second gas turbine 12 step-down work done afterwards；Second gas turbine The combustion gas of 12 discharges flows through evaporimeter 4 heat release, enters the second compressor 11 boosting afterwards and heats up；Second compressor 11 discharge Combustion gas flows through generator 2 heat release, externally discharges afterwards；The work(of gas turbine 10 and the second gas turbine 12 output is supplied to pressure Contracting machine 8, the second compressor 11 and the 3rd compressor 13 are used as power, and form first kind thermal drivers compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Fig. 3 is realized in：

(1), in structure, it is mainly handed over by absorber, generator, condenser, evaporimeter, choke valve, solution pump, solution heat Parallel operation, compressor, combustion chamber, gas turbine, the second compressor, the 3rd compressor, heater, low temperature heat exchanger and the 4th pressure Contracting machine is formed；Absorber 1 has weak solution pipeline to connect with generator 2 with solution heat exchanger 7 through solution pump 6, and generator 2 is also Concentrated solution pipeline is had to connect with absorber 1 through solution heat exchanger 7, generator 2 also has refrigerant steam channel with condenser 3 even Logical, condenser 3 also has cryogen liquid pipeline to connect with evaporimeter 4 through choke valve 5, and evaporimeter 4 also has refrigerant steam channel and absorption Device 1 connects, and outside has air duct to connect with compressor 8, and compressor 8 also has compressed air channel to connect with combustion chamber 9, burning Room 9 also has fuel channel and ft connection, and combustion chamber 9 also has blast tube to connect with gas turbine 10, and gas turbine 10 also has Blast tube is connected with the 3rd compressor 13 through low temperature heat exchanger 15, and the 3rd compressor 13 also has blast tube through evaporimeter 4 Connect with the 4th compressor 16, the 4th compressor 16 also has blast tube to connect with the second compressor 11 through heater 14, second Compressor 11 also has blast tube through generator 2 and ft connection, and absorber 1, condenser 3 and heater 14 also have respectively and added Heat medium pipeline and ft connection, low temperature heat exchanger 15 also has low-temperature heat medium passage and ft connection, and gas turbine 10 is even Connect compressor 8, the second compressor 11, the 3rd compressor 13 and the 4th compressor 16 and transmit power.

(2), in flow process, the weak solution of absorber 1 enters generator 2 through solution pump 6 and solution heat exchanger 7, and combustion gas flows through Generator 2, heating enter its interior solution release refrigerant vapour and provide to condenser 3, and the concentrated solution of generator 2 is through solution heat Exchanger 7 enters absorber 1, absorbs refrigerant vapour and heat release is in heated medium；The refrigerant vapour heat release of condenser 3 is in being added Thermal medium becomes cryogen liquid, and the cryogen liquid of condenser 3 throttles through choke valve 5 and enters evaporimeter 4, absorbs heat into refrigerant vapour and to absorption Device 1 provides；Air enters compressor 8 boosting and heats up, and the compressed air of compressor 8 discharge enters combustion chamber 9, and external fuel enters Combustion chamber 9 mixes and burns into high-temperature fuel gas with compressed air, and high-temperature fuel gas enter gas turbine 10 step-down work done, combustion gas wheel The combustion gas of machine 10 discharge flows through low temperature heat exchanger 15 and absorbs heat, and enters the 3rd compressor 13 boosting afterwards and heats up；3rd compression The combustion gas of machine 13 discharge flows through evaporimeter 4 heat release, enters the 4th compressor 16 boosting afterwards and heats up；4th compressor 16 discharges Combustion gas flow through heater 14 heat release, enter the second compressor 11 boosting afterwards and heat up；The combustion gas of the second compressor 11 discharge Flow through generator 2 heat release, externally discharge afterwards；Gas turbine 10 output work(be supplied to compressor 8, the second compressor 11, 3rd compressor 13 and the 4th compressor 16 are used as power power, form first kind thermal drivers compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Fig. 4 is realized in：

(1), in structure, it is mainly handed over by absorber, generator, condenser, evaporimeter, choke valve, solution pump, solution heat Parallel operation, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, heater, low temperature heat exchanger and the 3rd Gas turbine is formed；Absorber 1 has weak solution pipeline to connect with generator 2 with solution heat exchanger 7 through solution pump 6, occurs Device 2 also has concentrated solution pipeline to connect with absorber 1 through solution heat exchanger 7, and generator 2 also has refrigerant steam channel and condenser 3 connections, condenser 3 also has cryogen liquid pipeline to connect with evaporimeter 4 through choke valve 5, and evaporimeter 4 also has refrigerant steam channel and suction Receive device 1 to connect, outside has air duct to connect with compressor 8, compressor 8 also has compressed air channel to connect with combustion chamber 9, combustion Burn room 9 and also have fuel channel and ft connection, combustion chamber 9 also has blast tube to connect with gas turbine 10, gas turbine 10 is also Blast tube is had to connect with the second gas turbine 12 through heater 14, the second gas turbine 12 also has blast tube through evaporimeter 4 Connect with the 3rd gas turbine 17, the 3rd gas turbine 17 also has blast tube through low temperature heat exchanger 15 and the second compressor 11 Connection, the second compressor 11 also has blast tube through generator 2 and ft connection, and absorber 1, condenser 3 and heater 14 are also There are heated medium pipeline and ft connection respectively, low temperature heat exchanger 15 also has low-temperature heat medium passage and ft connection, combustion Gas-turbine 10, the second gas turbine 12 and the 3rd gas turbine 17 connect compressor 8 and the second compressor 11 and transmit power.

(2), in flow process, the weak solution of absorber 1 enters generator 2 through solution pump 6 and solution heat exchanger 7, and combustion gas flows through Generator 2, heating enter its interior solution release refrigerant vapour and provide to condenser 3, and the concentrated solution of generator 2 is through solution heat Exchanger 7 enters absorber 1, absorbs refrigerant vapour and heat release is in heated medium；The refrigerant vapour heat release of condenser 3 is in being added Thermal medium becomes cryogen liquid, and the cryogen liquid of condenser 3 throttles through choke valve 5 and enters evaporimeter 4, absorbs heat into refrigerant vapour and to absorption Device 1 provides；Air enters compressor 8 boosting and heats up, and the compressed air of compressor 8 discharge enters combustion chamber 9, and external fuel enters Combustion chamber 9 mixes and burns into high-temperature fuel gas with compressed air, and high-temperature fuel gas enter gas turbine 10 step-down work done, combustion gas wheel The combustion gas of machine 10 discharge flows through heater 14 heat release, enters the second gas turbine 12 step-down work done afterwards；Second gas turbine The combustion gas of 12 discharges flows through evaporimeter 4 heat release, enters the 3rd gas turbine 17 step-down work done afterwards；3rd gas turbine 17 row The combustion gas put flows through low temperature heat exchanger 15 and absorbs heat, and enters the second compressor 11 boosting afterwards and heats up；Second compressor 11 row The combustion gas put flows through generator 2 heat release, externally discharges afterwards；Gas turbine 10, the second gas turbine 12 and the 3rd combustion gas wheel The work(of machine 17 output is supplied to compressor 8 and the second compressor 11 is used as power, and forms first kind thermal drivers compressing-absorbing type heat Pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Fig. 5 is realized in：

(1), in structure, it is mainly handed over by absorber, generator, condenser, evaporimeter, choke valve, solution pump, solution heat Parallel operation, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compressor, heater and Low Temperature Thermal Exchanger is formed；Absorber 1 has weak solution pipeline to connect with generator 2 with solution heat exchanger 7 through solution pump 6, generator 2 Concentrated solution pipeline is also had to connect with absorber 1 through solution heat exchanger 7, generator 2 also has refrigerant steam channel with condenser 3 even Logical, condenser 3 also has cryogen liquid pipeline to connect with evaporimeter 4 through choke valve 5, and evaporimeter 4 also has refrigerant steam channel and absorption Device 1 connects, and outside has air duct to connect with compressor 8, and compressor 8 also has compressed air channel to connect with combustion chamber 9, burning Room 9 also has fuel channel and ft connection, and combustion chamber 9 also has blast tube to connect with gas turbine 10, and gas turbine 10 also has Blast tube is connected with the 3rd compressor 13 through evaporimeter 4, and the 3rd compressor 13 also has blast tube through heater 14 and second Gas turbine 12 connects, and the second gas turbine 12 also has blast tube to connect with the second compressor 11 through low temperature heat exchanger 15, Second compressor 11 also has blast tube through generator 2 and ft connection, and absorber 1, condenser 3 and heater 14 also have respectively Heated medium pipeline and ft connection, low temperature heat exchanger 15 also has low-temperature heat medium passage and ft connection, gas turbine 10 and the second gas turbine 12 connect compressor 8, the second compressor 11 and the 3rd compressor 13 and transmit power.

(2), in flow process, the weak solution of absorber 1 enters generator 2 through solution pump 6 and solution heat exchanger 7, and combustion gas flows through Generator 2, heating enter its interior solution release refrigerant vapour and provide to condenser 3, and the concentrated solution of generator 2 is through solution heat Exchanger 7 enters absorber 1, absorbs refrigerant vapour and heat release is in heated medium；The refrigerant vapour heat release of condenser 3 is in being added Thermal medium becomes cryogen liquid, and the cryogen liquid of condenser 3 throttles through choke valve 5 and enters evaporimeter 4, absorbs heat into refrigerant vapour and to absorption Device 1 provides；Air enters compressor 8 boosting and heats up, and the compressed air of compressor 8 discharge enters combustion chamber 9, and external fuel enters Combustion chamber 9 mixes and burns into high-temperature fuel gas with compressed air, and high-temperature fuel gas enter gas turbine 10 step-down work done, combustion gas wheel The combustion gas of machine 10 discharge flows through evaporimeter 4 heat release, enters the 3rd compressor 13 boosting afterwards and heats up；3rd compressor 13 discharges Combustion gas flow through heater 14 heat release, enter the second gas turbine 12 step-down work done afterwards；Second gas turbine 12 discharge Combustion gas flows through low temperature heat exchanger 15 heat release, enters the second compressor 11 boosting afterwards and heats up；Second compressor 11 discharge Combustion gas flows through generator 2 heat release, externally discharges afterwards；The work(of gas turbine 10 and the second gas turbine 12 output is supplied to pressure Contracting machine 8, the second compressor 11 and the 3rd compressor 13 are used as power, and form first kind thermal drivers compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Fig. 6 is realized in：

(1), in structure, it is mainly handed over by absorber, generator, condenser, evaporimeter, choke valve, solution pump, solution heat Parallel operation, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compressor, heater, Low Temperature Thermal Exchanger, the 3rd gas turbine and high temperature regenerator are formed；Absorber 1 has weak solution pipeline to hand over through solution pump 6 and solution heat Parallel operation 7 is connected with generator 2, and generator 2 also has concentrated solution pipeline to connect with absorber 1 through solution heat exchanger 7, generator 2 Refrigerant steam channel is also had to connect with condenser 3, condenser 3 also has cryogen liquid pipeline to connect with evaporimeter 4 through choke valve 5, steams Sending out device 4 also has refrigerant steam channel to connect with absorber 1, and outside has air duct to connect with compressor 8, and compressor 8 also has presses Contracting air duct is connected with combustion chamber 9 through high temperature regenerator 18, and combustion chamber 9 also has fuel channel and ft connection, and combustion chamber 9 is also Blast tube is had to connect with gas turbine 10, gas turbine 10 also has blast tube through high temperature regenerator 18 and the second gas turbine 12 connections, the second gas turbine 12 also has blast tube to connect with the 3rd gas turbine 17 through evaporimeter 4, the 3rd gas turbine 17 Blast tube is also had to connect with the 3rd compressor 13 through low temperature heat exchanger 15, the 3rd compressor 13 also has blast tube through heat supply Device 14 is connected with the second compressor 11, and the second compressor 11 also has blast tube through generator 2 and ft connection, absorber 1, cold Condenser 3 and heater 14 also have heated medium pipeline and ft connection respectively, and low temperature heat exchanger 15 also has low-temperature heat medium Passage and ft connection, gas turbine 10, the second gas turbine 12 and the 3rd gas turbine 17 connect compressor 8, second compression Machine 11 and the 3rd compressor 13 simultaneously transmit power.

(2), in flow process, the weak solution of absorber 1 enters generator 2 through solution pump 6 and solution heat exchanger 7, and combustion gas flows through Generator 2, heating enter its interior solution release refrigerant vapour and provide to condenser 3, and the concentrated solution of generator 2 is through solution heat Exchanger 7 enters absorber 1, absorbs refrigerant vapour and heat release is in heated medium；The refrigerant vapour heat release of condenser 3 is in being added Thermal medium becomes cryogen liquid, and the cryogen liquid of condenser 3 throttles through choke valve 5 and enters evaporimeter 4, absorbs heat into refrigerant vapour and to absorption Device 1 provides；Air enters compressor 8 boosting and heats up, and flows through high temperature regenerator 18 and absorbs heat, and enters combustion chamber 9 afterwards；External fuel Enter combustion chamber 9 and mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 10 step-down work done；Combustion The combustion gas of gas-turbine 10 discharge flows through high temperature regenerator 18 heat release, enters the second gas turbine 12 step-down work done afterwards；Second The combustion gas of gas turbine 12 discharge flows through evaporimeter 4 heat release, enters the 3rd gas turbine 17 step-down work done afterwards；3rd combustion gas The combustion gas of turbine 17 discharge flows through low temperature heat exchanger 15 and absorbs heat, and enters the 3rd compressor 13 boosting afterwards and heats up；3rd pressure The combustion gas of contracting machine 13 discharge flows through heater 14 heat release, enters the second compressor 11 boosting afterwards and heats up；Second compressor 11 The combustion gas of discharge flows through generator 2 heat release, externally discharges afterwards；Gas turbine 10, the second gas turbine 12 and the 3rd combustion gas The work(of turbine 17 output is supplied to compressor 8, the second compressor 11 and the 3rd compressor 13 and is used as power, and forms first kind thermal drivers Compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Fig. 7 is realized in：

(1), in structure, it is mainly handed over by absorber, generator, condenser, evaporimeter, choke valve, solution pump, solution heat Parallel operation, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compressor, heater, Low Temperature Thermal Exchanger, the 3rd gas turbine and high temperature regenerator are formed；Absorber 1 has weak solution pipeline to hand over through solution pump 6 and solution heat Parallel operation 7 is connected with generator 2, and generator 2 also has concentrated solution pipeline to connect with absorber 1 through solution heat exchanger 7, generator 2 Refrigerant steam channel is also had to connect with condenser 3, condenser 3 also has cryogen liquid pipeline to connect with evaporimeter 4 through choke valve 5, steams Sending out device 4 also has refrigerant steam channel to connect with absorber 1, and outside has air duct to connect with compressor 8, and compressor 8 also has presses Contracting air duct is connected with combustion chamber 9 through high temperature regenerator 18, and combustion chamber 9 also has fuel channel and ft connection, and combustion chamber 9 is also Blast tube is had to connect with gas turbine 10, gas turbine 10 also has blast tube through high temperature regenerator 18 and the second gas turbine 12 connections, the second gas turbine 12 also has blast tube to connect with the 3rd compressor 13 through low temperature heat exchanger 15, the 3rd compression Machine 13 also has blast tube to connect with the 3rd gas turbine 17 through heater 14, and the 3rd gas turbine 17 also has blast tube through steaming Send out device 4 to connect with the second compressor 11, the second compressor 11 also blast tube through generator 2 and ft connection, absorber 1, Condenser 3 and heater 14 also have heated medium pipeline and ft connection respectively, and low temperature heat exchanger 15 also has Low Temperature Thermal to be situated between Matter passage and ft connection, gas turbine 10, the second gas turbine 12 and the 3rd gas turbine 17 connect compressor 8, second pressure Contracting machine 11 and the 3rd compressor 13 simultaneously transmit power.

(2), in flow process, the weak solution of absorber 1 enters generator 2 through solution pump 6 and solution heat exchanger 7, and combustion gas flows through Generator 2, heating enter its interior solution release refrigerant vapour and provide to condenser 3, and the concentrated solution of generator 2 is through solution heat Exchanger 7 enters absorber 1, absorbs refrigerant vapour and heat release is in heated medium；The refrigerant vapour heat release of condenser 3 is in being added Thermal medium becomes cryogen liquid, and the cryogen liquid of condenser 3 throttles through choke valve 5 and enters evaporimeter 4, absorbs heat into refrigerant vapour and to absorption Device 1 provides；Air enters compressor 8 boosting and heats up, and flows through high temperature regenerator 18 and absorbs heat, and enters combustion chamber 9 afterwards；External fuel Enter combustion chamber 9 and mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 10 step-down work done；Combustion The combustion gas of gas-turbine 10 discharge flows through high temperature regenerator 18 heat release, enters the second gas turbine 12 step-down work done afterwards；Second The combustion gas of gas turbine 12 discharge flows through low temperature heat exchanger 15 and absorbs heat, and enters the 3rd compressor 13 boosting afterwards and heats up；The The combustion gas of three compressor 13 discharge flows through heater 14 heat release, enters the 3rd gas turbine 17 step-down work done afterwards；3rd combustion The combustion gas of gas-turbine 17 discharge flows through evaporimeter 4 heat release, enters the second compressor 11 boosting afterwards and heats up；Second compressor 11 The combustion gas of discharge flows through generator 2 heat release, externally discharges afterwards；Gas turbine 10, the second gas turbine 12 and the 3rd combustion gas The work(of turbine 17 output is supplied to compressor 8, the second compressor 11 and the 3rd compressor 13 and is used as power, and forms first kind thermal drivers Compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Fig. 8 is realized in：

(1), in structure, it is mainly handed over by absorber, generator, condenser, evaporimeter, choke valve, solution pump, solution heat Parallel operation, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compressor, heater, Low Temperature Thermal Exchanger, the 4th compressor and high temperature regenerator are formed；Absorber 1 has weak solution pipeline through solution pump 6 and solution heat exchange Device 7 is connected with generator 2, and generator 2 also has concentrated solution pipeline to connect with absorber 1 through solution heat exchanger 7, and generator 2 is also Refrigerant steam channel is had to connect with condenser 3, condenser 3 also has cryogen liquid pipeline to connect with evaporimeter 4 through choke valve 5, evaporation Device 4 also has refrigerant steam channel to connect with absorber 1, and outside has air duct to connect with compressor 8, and compressor 8 also has compression Air duct is connected with combustion chamber 9 through high temperature regenerator 18, and combustion chamber 9 also has fuel channel and ft connection, and combustion chamber 9 also has Blast tube is connected with gas turbine 10, and gas turbine 10 also has blast tube through high temperature regenerator 18 and the second gas turbine 12 Connection, the second gas turbine 12 also has blast tube to connect with the 3rd compressor 13 through low temperature heat exchanger 15, the 3rd compressor 13 also have blast tube to connect with the 4th compressor 16 through evaporimeter 4, and the 4th compressor 16 also has blast tube through heater 14 Connect with the second compressor 11, the second compressor 11 also has blast tube through generator 2 and ft connection, absorber 1, condenser 3 and heater 14 also have heated medium pipeline and ft connection respectively, low temperature heat exchanger 15 also have low-temperature heat medium passage With ft connection, gas turbine 10 and the second gas turbine 12 connection compressor 8, the second compressor 11, the 3rd compressor 13 and 4th compressor 16 simultaneously transmits power.

(2), in flow process, the weak solution of absorber 1 enters generator 2 through solution pump 6 and solution heat exchanger 7, and combustion gas flows through Generator 2, heating enter its interior solution release refrigerant vapour and provide to condenser 3, and the concentrated solution of generator 2 is through solution heat Exchanger 7 enters absorber 1, absorbs refrigerant vapour and heat release is in heated medium；The refrigerant vapour heat release of condenser 3 is in being added Thermal medium becomes cryogen liquid, and the cryogen liquid of condenser 3 throttles through choke valve 5 and enters evaporimeter 4, absorbs heat into refrigerant vapour and to absorption Device 1 provides；Air enters compressor 8 boosting and heats up, and flows through high temperature regenerator 18 and absorbs heat, and enters combustion chamber 9 afterwards；External fuel Enter combustion chamber 9 and mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 10 step-down work done；Combustion The combustion gas of gas-turbine 10 discharge flows through high temperature regenerator 18 heat release, enters the second gas turbine 12 step-down work done afterwards；Second The combustion gas of gas turbine 12 discharge flows through low temperature heat exchanger 15 and absorbs heat, and enters the 3rd compressor 13 boosting afterwards and heats up；The The combustion gas of three compressor 13 discharge flows through evaporimeter 4 heat release, enters the 4th compressor 16 boosting afterwards and heats up；4th compressor The combustion gas of 16 discharges flows through heater 14 heat release, enters the second compressor 11 boosting afterwards and heats up；Second compressor 11 discharges Combustion gas flow through generator 2 heat release, externally discharge afterwards；The work(of gas turbine 10 and the second gas turbine 12 output is supplied to Compressor 8, the second compressor 11, the 3rd compressor 13 and the 4th compressor 16 are used as power power, form first kind thermal drivers pressure Contracting-absorption heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Fig. 9 is realized in：

(1), in structure, it is mainly handed over by absorber, generator, condenser, evaporimeter, choke valve, solution pump, solution heat Parallel operation, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, heater, low temperature heat exchanger, the 3rd Gas turbine, high temperature regenerator and the 4th gas turbine are formed；Absorber 1 has weak solution pipeline through solution pump 6 and solution heat Exchanger 7 is connected with generator 2, and generator 2 also has concentrated solution pipeline to connect with absorber 1 through solution heat exchanger 7, generator 2 also have refrigerant steam channel to connect with condenser 3, and condenser 3 also has cryogen liquid pipeline to connect with evaporimeter 4 through choke valve 5, steams Sending out device 4 also has refrigerant steam channel to connect with absorber 1, and outside has air duct to connect with compressor 8, and compressor 8 also has presses Contracting air duct is connected with combustion chamber 9 through high temperature regenerator 18, and combustion chamber 9 also has fuel channel and ft connection, and combustion chamber 9 is also Blast tube is had to connect with gas turbine 10, gas turbine 10 also has blast tube through high temperature regenerator 18 and the second gas turbine 12 connections, the second gas turbine 12 also has blast tube to connect with the 3rd gas turbine 17 through heater 14, the 3rd gas turbine 17 also have blast tube to connect with the 4th gas turbine 19 through evaporimeter 4, and the 4th gas turbine 19 also has blast tube through low temperature Heat exchanger 15 is connected with the second compressor 11, and the second compressor 11 also has blast tube through generator 2 and ft connection, absorbs Device 1, condenser 3 and heater 14 also have heated medium pipeline and ft connection respectively, and low temperature heat exchanger 15 also has low temperature Hot media channel and ft connection, gas turbine 10, the second gas turbine 12, the 3rd gas turbine 17 and the 4th gas turbine 19 Connect compressor 8 and the second compressor 11 and transmit power.

(2), in flow process, the weak solution of absorber 1 enters generator 2 through solution pump 6 and solution heat exchanger 7, and combustion gas flows through Generator 2, heating enter its interior solution release refrigerant vapour and provide to condenser 3, and the concentrated solution of generator 2 is through solution heat Exchanger 7 enters absorber 1, absorbs refrigerant vapour and heat release is in heated medium；The refrigerant vapour heat release of condenser 3 is in being added Thermal medium becomes cryogen liquid, and the cryogen liquid of condenser 3 throttles through choke valve 5 and enters evaporimeter 4, absorbs heat into refrigerant vapour and to absorption Device 1 provides；Air enters compressor 8 boosting and heats up, and flows through high temperature regenerator 18 and absorbs heat, and enters combustion chamber 9 afterwards；External fuel Enter combustion chamber 9 and mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 10 step-down work done；Combustion The combustion gas of gas-turbine 10 discharge flows through high temperature regenerator 18 heat release, enters the second gas turbine 12 step-down work done afterwards；Second The combustion gas of gas turbine 12 discharge flows through heater 14 heat release, enters the 3rd gas turbine 17 step-down work done afterwards；3rd combustion The combustion gas of gas-turbine 17 discharge flows through evaporimeter 4 heat release, enters the 4th gas turbine 19 step-down work done afterwards；4th combustion gas wheel The combustion gas of machine 19 discharge flows through low temperature heat exchanger 15 and absorbs heat, and enters the second compressor 11 boosting afterwards and heats up；Second compression The combustion gas of machine 11 discharge flows through generator 2 heat release, externally discharges afterwards；Gas turbine 10, the second gas turbine the 12, the 3rd combustion The work(of gas-turbine 17 and the 4th gas turbine 19 output is supplied to compressor 8 and the second compressor 11 is used as power, and forms the first kind Thermal drivers compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Figure 10 is realized in：

(1), in structure, it is mainly handed over by absorber, generator, condenser, evaporimeter, choke valve, solution pump, solution heat Parallel operation, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compressor, heater, Low Temperature Thermal Exchanger, the 3rd gas turbine and high temperature regenerator are formed；Absorber 1 has weak solution pipeline to hand over through solution pump 6 and solution heat Parallel operation 7 is connected with generator 2, and generator 2 also has concentrated solution pipeline to connect with absorber 1 through solution heat exchanger 7, generator 2 Refrigerant steam channel is also had to connect with condenser 3, condenser 3 also has cryogen liquid pipeline to connect with evaporimeter 4 through choke valve 5, steams Sending out device 4 also has refrigerant steam channel to connect with absorber 1, and outside has air duct to connect with compressor 8, and compressor 8 also has presses Contracting air duct is connected with combustion chamber 9 through high temperature regenerator 18, and combustion chamber 9 also has fuel channel and ft connection, and combustion chamber 9 is also Blast tube is had to connect with gas turbine 10, gas turbine 10 also has blast tube through high temperature regenerator 18 and the second gas turbine 12 connections, the second gas turbine 12 also has blast tube to connect with the 3rd compressor 13 through evaporimeter 4, and the 3rd compressor 13 also has Blast tube is connected with the 3rd gas turbine 17 through heater 14, and the 3rd gas turbine 17 also has blast tube through low temperature heat exchange Device 15 is connected with the second compressor 11, and the second compressor 11 also has blast tube through generator 2 and ft connection, absorber 1, cold Condenser 3 and heater 14 also have heated medium pipeline and ft connection respectively, and low temperature heat exchanger 15 also has low-temperature heat medium Passage and ft connection, gas turbine 10, the second gas turbine 12 and the 3rd gas turbine 17 connect compressor 8, second compression Machine 11 and the 3rd compressor 13 simultaneously transmit power.

(2), in flow process, the weak solution of absorber 1 enters generator 2 through solution pump 6 and solution heat exchanger 7, and combustion gas flows through Generator 2, heating enter its interior solution release refrigerant vapour and provide to condenser 3, and the concentrated solution of generator 2 is through solution heat Exchanger 7 enters absorber 1, absorbs refrigerant vapour and heat release is in heated medium；The refrigerant vapour heat release of condenser 3 is in being added Thermal medium becomes cryogen liquid, and the cryogen liquid of condenser 3 throttles through choke valve 5 and enters evaporimeter 4, absorbs heat into refrigerant vapour and to absorption Device 1 provides；Air enters compressor 8 boosting and heats up, and flows through high temperature regenerator 18 and absorbs heat, and enters combustion chamber 9 afterwards；External fuel Enter combustion chamber 9 and mix and burn into high-temperature fuel gas with compressed air, high-temperature fuel gas enter gas turbine 10 step-down work done；Combustion The combustion gas of gas-turbine 10 discharge flows through high temperature regenerator 18 heat release, enters the second gas turbine 12 step-down work done afterwards；Second The combustion gas of gas turbine 12 discharge flows through evaporimeter 4 heat release, enters the 3rd compressor 13 boosting afterwards and heats up；3rd compressor The combustion gas of 13 discharges flows through heater 14 heat release, enters the 3rd gas turbine 17 step-down work done afterwards；3rd gas turbine 17 The combustion gas of discharge flows through low temperature heat exchanger 15 heat release, enters the second compressor 11 boosting afterwards and heats up；Second compressor 11 The combustion gas of discharge flows through generator 2 heat release, externally discharges afterwards；Gas turbine 10, the second gas turbine 12 and the 3rd combustion gas The work(of turbine 17 output is supplied to compressor 8, the second compressor 11 and the 3rd compressor 13 and is used as power, and forms first kind thermal drivers Compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Figure 11 is realized in：

In the compressing-absorbing type heat pump of first kind thermal drivers shown in Fig. 1, cancel the outside fuel connecting with combustion chamber 9 and lead to Road, increases new compressor, and outside has fuel gas passage to connect with new compressor 20, and new compressor 20 also has compressed gas State fuel channel is connected with combustion chamber 9, and gas turbine 10 connects new compressor 20 and transmits power, forms first kind thermal drivers Compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Figure 12 is realized in：

In the compressing-absorbing type heat pump of first kind thermal drivers shown in Fig. 1, increase by the second heater, by the second compressor 11 Having blast tube to be adjusted to the second compressor 11 through generator 2 and ft connection has blast tube to be sequentially communicated generator 2, second The finisher 4 of heater 21 and evaporimeter 4 has blast tube and ft connection again, and the second heater 21 also has heated medium Passage and ft connection；The combustion gas of the second compressor 11 discharge flows through generator 2, the second heater 21 and evaporimeter 4 simultaneously successively Progressively heat release, externally discharges afterwards, forms first kind thermal drivers compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Figure 13 is realized in：

(1) in structure, in the compressing-absorbing type heat pump of first kind thermal drivers shown in Fig. 1, increase the second generator, second Choke valve, the second solution pump and the second solution heat exchanger, absorber 1 sets up weak solution pipeline through the second solution pump 24 and second Solution heat exchanger 25 is connected with the second generator 22, and the second generator 22 also has concentrated solution pipeline through the second solution heat exchanger 25 are connected with absorber 1, generator 2 is had refrigerant steam channel to connect with condenser 3 and is adjusted to generator 2 and has refrigerant vapour to lead to After road is connected with the second generator 22, the second generator 22 has cryogen liquid pipeline through second throttle 23 with condenser 3 even again Logical, the second generator 22 also has refrigerant steam channel to connect with condenser 3.

(2), in flow process, the refrigerant vapour that generator 2 produces is supplied to the second generator 22 and makees to drive thermal medium, absorber 1 Part weak solution enter the second generator 22 through the second solution pump 24 and the second solution heat exchanger 25, refrigerant vapour flows through the Two generators 22, heating enter its interior solution release refrigerant vapour and provide to condenser 3, the concentrated solution of the second generator 22 Enter absorber 1 through the second solution heat exchanger 25；The refrigerant vapour heat release flowing through the second generator 22 becomes cryogen liquid, after warp Second throttle 23 throttling enters condenser 3, forms first kind thermal drivers compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Figure 14 is realized in：

(1) in structure, in the compressing-absorbing type heat pump of first kind thermal drivers shown in Fig. 1, increase the second generator, second Choke valve and the second solution heat exchanger, absorber 1 is had weak solution pipeline through solution pump 6 and solution heat exchanger 7 and generation Device 2 connection be adjusted to absorber 1 have weak solution pipeline through solution pump 6, solution heat exchanger 7 and the second solution heat exchanger 25 with Generator 2 connects, and generator 2 is had concentrated solution pipeline to connect with absorber 1 through solution heat exchanger 7 and is adjusted to generator 2 and has Concentrated solution pipeline is connected with the second generator 22 through the second solution heat exchanger 25, and the second generator 22 has concentrated solution pipeline warp again Solution heat exchanger 7 is connected with absorber 1, generator 2 is had refrigerant steam channel to connect with condenser 3 and is adjusted to generator 2 After having refrigerant steam channel to connect with the second generator 22, the second generator 22 has cryogen liquid pipeline again through second throttle 23 Connect with condenser 3, the second generator 22 also has refrigerant steam channel to connect with condenser 3.

(2), in flow process, the refrigerant vapour that generator 2 produces is supplied to the second generator 22 and makees to drive thermal medium, absorber 1 Weak solution through solution pump 6, solution heat exchanger 7 and the second solution heat exchanger 25 enter generator 2, generator 2 dense molten Liquid enters the second generator 22 through the second solution heat exchanger 25, and refrigerant vapour flows through the second generator 22, heating enters in it Solution release refrigerant vapour providing to condenser 3, the concentrated solution of the second generator 22 enters through solution heat exchanger 7 and absorbs Device 1；The refrigerant vapour heat release flowing through the second generator 22 becomes cryogen liquid, after through second throttle 23 throttle enter condenser 3, Form first kind thermal drivers compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Figure 15 is realized in：

(1) in structure, in the compressing-absorbing type heat pump of first kind thermal drivers shown in Fig. 1, increase the second generator, second Choke valve, the second solution pump and the second solution heat exchanger, absorber 1 is had weak solution pipeline to hand over through solution pump 6 and solution heat Parallel operation 7 is connected with generator 2 and is adjusted to absorber 1 and has weak solution pipeline through solution pump 6 and solution heat exchanger 7 and the second generation Device 22 connects, and the second generator 22 has concentrated solution pipeline again through the second solution pump 24 and the second solution heat exchanger 25 and generator 2 connections, generator 2 are had concentrated solution pipeline to connect with absorber 1 through solution heat exchanger 7 and are adjusted to generator 2 and have concentrated solution Pipeline is connected with absorber 1 with solution heat exchanger 7 through the second solution heat exchanger 25, and generator 2 is had refrigerant steam channel Connect with condenser 3 and be adjusted to after generator 2 has refrigerant steam channel to connect with the second generator 22 second generator 22 again Cryogen liquid pipeline is had to connect with condenser 3 through second throttle 23, the second generator 22 also has refrigerant steam channel and condenser 3 Connection.

(2), in flow process, the refrigerant vapour that generator 2 produces is supplied to the second generator 22 and makees to drive thermal medium, absorber 1 Weak solution enter the second generator 22 through solution pump 6 and solution heat exchanger 7, refrigerant vapour flow through the second generator 22, plus Heat enters its interior solution release refrigerant vapour and provides to condenser 3, and the concentrated solution of the second generator 22 is through the second solution pump 24 and the second solution heat exchanger 25 enter generator 2, the concentrated solution of generator 2 is through the second solution heat exchanger 25 and solution heat Exchanger 7 enters absorber 1；The refrigerant vapour heat release flowing through the second generator 22 becomes cryogen liquid, after through second throttle 23 Throttling enters condenser 3, forms first kind thermal drivers compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Figure 16 is realized in：

In the compressing-absorbing type heat pump of first kind thermal drivers shown in Figure 14, increase by the second heater, by the second compressor 11 Having blast tube to be adjusted to the second compressor 11 through generator 2 and ft connection has blast tube to be sequentially communicated generator 2, second The finisher 4 of generator 22, the second heater 21 and evaporimeter 4 has blast tube and outside again, and the second heater 21 also has Heated medium passage and ft connection；Second compressor 11 discharge combustion gas flow through successively generator 2, the second generator 22, Second heater 21 and evaporimeter 4 progressively heat release, externally discharge afterwards, form first kind thermal drivers compressing-absorbing type heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Figure 17 is realized in：

(1) in structure, in the compressing-absorbing type heat pump of first kind thermal drivers shown in Fig. 1, increase the second generator, second Absorber, the second solution pump and the second solution heat exchanger, evaporimeter 4 is had refrigerant steam channel to connect adjustment with absorber 1 Refrigerant steam channel is had to connect with the second absorber 26 for evaporimeter 4, the second absorber 26 also has weak solution pipeline molten through second Liquid pump 24 is connected with the second generator 22 with the second solution heat exchanger 25, and the second generator 22 also has concentrated solution pipeline through second Solution heat exchanger 25 is connected with the second absorber 26, and the second generator 22 also has refrigerant steam channel to connect with absorber 1, will Second compressor 11 has blast tube to be adjusted to the second compressor 11 through generator 2 road and ft connection has blast tube to connect successively After logical generator 2 and the second generator 22, the second generator 22 has blast tube and ft connection again, and the second absorber 26 is also There are heated medium passage and ft connection.

(2), in flow process, the refrigerant vapour that evaporimeter 4 produces enters the second absorber 26, the weak solution of the second absorber 26 Enter the second generator 22 through the second solution pump 24 and the second solution heat exchanger 25, combustion gas flows through the second generator 22, heating Enter its interior solution release refrigerant vapour and provide to absorber 1, the concentrated solution of the second generator 22 is handed over through the second solution heat Parallel operation 25 enters the second absorber 26, absorbs refrigerant vapour and heat release is in heated medium, forms first kind thermal drivers compression-suction Receipts formula heat pump.

First kind thermal drivers compressing-absorbing type heat pump shown in Figure 18 is realized in：

(1) in structure, in the compressing-absorbing type heat pump of first kind thermal drivers shown in Fig. 1, increase the second generator, second Absorber, the second solution pump, solution choke valve, the second solution choke valve and point steam chest, absorber 1 is had weak solution pipeline through molten Liquid pump 6 connect with generator 2 with solution heat exchanger 7 be adjusted to absorber 1 have weak solution pipeline through solution pump 6 and solution heat hand over Parallel operation 7 is connected with the second absorber 26, and the second absorber 26 also has weak solution pipeline through solution choke valve 27 and the second generator 22 connections, the second generator 22 is had concentrated solution pipeline to be connected with generator 2 through the second solution pump 24 again, generator 2 is had dense molten Liquid pipeline is connected with absorber 1 through solution heat exchanger 7 and is adjusted to generator 2 and has concentrated solution pipeline through the second solution choke valve 28 Connect with a point steam chest 29 with the second absorber 26, a point steam chest 29 has concentrated solution pipeline through solution heat exchanger 7 with absorber 1 even again Logical, generator 2 there is is refrigerant steam channel connect with condenser 3 and is adjusted to generator 2 and has refrigerant steam channel and second to absorb Device 26 connects, and the second generator 22 also has refrigerant steam channel to connect with condenser 3 with a point steam chest 29 respectively, by the second compressor 11 have blast tube through generator 2 and ft connection be adjusted to the second compressor 11 have blast tube be sequentially communicated generator 2 and After second generator 22, the second generator 22 has blast tube and ft connection again.

(2), in flow process, the weak solution of absorber 1 enters the second absorber 26, inhales through solution pump 6 and solution heat exchanger 7 Receive refrigerant vapour heat release, the weak solution of the second absorber 26 enters the second generator 22 through solution choke valve 27 reducing pressure by regulating flow, Combustion gas flows through the second generator 22, heating enters its interior solution release refrigerant vapour and provides to condenser 3；Second generator 22 concentrated solution enters generator 2 through the second solution pump 24, and it is cold that combustion gas flows through generator 2, heating enters its interior solution release Agent steam simultaneously provides to the second absorber 26, and the concentrated solution of generator 2 flows through through after the second solution choke valve 28 reducing pressure by regulating flow Second absorber 26 heat absorption part vaporization；Solution after heat absorbing part vaporization enters a point steam chest 29, and a point steam chest 29 discharges cold Agent steam simultaneously provides to condenser 3, and the concentrated solution of point steam chest 29 enters absorber 1 through solution heat exchanger 7, forms first kind heat Drive compression-absorption heat pump.

Effect that the technology of the present invention can be realized first kind thermal drivers compressing-absorbing type heat proposed by the invention Pump, has the effect that and advantage：

(1) propose and directly make, using fuel, new approaches and the new technology that the temperature difference in the case of drive energy utilizes.

(2) heat energy (temperature difference) drives, and realizes heat supply/refrigeration, or may be selected externally to provide power simultaneously.

(3) compression heat pump flow process undertakes part heating demand and low temperature thermic load is extracted, and is advantageously implemented high temperature section temperature The effectively utilizes of difference and the utilization level of the full temperature section temperature difference.

(4) rationally, performance index is variable and thermodynamic parameter change is corresponding, is capable of filling of heat energy (temperature difference) for flow process Divide and efficient utilization.

(5) if necessary, realize heat supply/refrigeration by external impetus, flexibly, adaptability is good for mode.

(6) utilize the gas-turbine installation reply high temperature section temperature difference to utilize, effectively realize high temperature section heat energy efficient utilization.

(7) effectively utilizes of low temperature heat energy are realized, it is to avoid conflicting between low-temperature heat medium parameter and cryogen fluidity energy, more Mend the deficiency of absorption heat pump technology.

(8) combustion gas is directly used as the working media of compression heat pump flow process, reduces heat transfer link, is conducive to improving heat energy profit With efficiency, advantageously reduce device fabrication cost.

(9) compare thermal drivers compression heat pump, refrigerant vapour boosting is completed using absorption heat pump flow process, reduces motion portion Part, improves device security, reduces on environmentally undesirable impact.

(10) provide multiple concrete technical schemes, cope with numerous different actual states, have the wider scope of application.

(11) extend heat pump techniques, enrich the type of compressing-absorbing type heat pump, be conducive to heat energy height is better achieved Effect utilizes.

Claims (25)

1. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, choke valve, molten Liquid pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compressor, Heater and low temperature heat exchanger are formed；Absorber (1) has weak solution pipeline through solution pump (6) and solution heat exchanger (7) Connect with generator (2), generator (2) also has concentrated solution pipeline to connect with absorber (1) through solution heat exchanger (7), occurs Device (2) also has refrigerant steam channel to connect with condenser (3), and condenser (3) also has cryogen liquid pipeline through choke valve (5) and evaporation Device (4) connects, and evaporimeter (4) also has refrigerant steam channel to connect with absorber (1), and there are air duct and compressor (8) in outside Connection, compressor (8) also has compressed air channel to connect with combustion chamber (9), and combustion chamber (9) also have fuel channel to connect with outside Logical, combustion chamber (9) also have blast tube to connect with gas turbine (10), and gas turbine (10) also has blast tube through evaporimeter (4) connect with the second gas turbine (12), the second gas turbine (12) also has blast tube through low temperature heat exchanger (15) and the Three compressors (13) connect, and the 3rd compressor (13) also has blast tube to connect with the second compressor (11) through heater (14), Second compressor (11) also has blast tube through generator (2) and ft connection, absorber (1), condenser (3) and heater (14) also there are heated medium pipeline and ft connection respectively, low temperature heat exchanger (15) also has low-temperature heat medium passage and outside Connection, gas turbine (10) and the second gas turbine (12) connect compressor (8), the second compressor (11) and the 3rd compressor (13) and transmit power, form first kind thermal drivers compressing-absorbing type heat pump.

2. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, choke valve, molten Liquid pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compressor, Heater and low temperature heat exchanger are formed；Absorber (1) has weak solution pipeline through solution pump (6) and solution heat exchanger (7) Connect with generator (2), generator (2) also has concentrated solution pipeline to connect with absorber (1) through solution heat exchanger (7), occurs Device (2) also has refrigerant steam channel to connect with condenser (3), and condenser (3) also has cryogen liquid pipeline through choke valve (5) and evaporation Device (4) connects, and evaporimeter (4) also has refrigerant steam channel to connect with absorber (1), and there are air duct and compressor (8) in outside Connection, compressor (8) also has compressed air channel to connect with combustion chamber (9), and combustion chamber (9) also have fuel channel to connect with outside Logical, combustion chamber (9) also have blast tube to connect with gas turbine (10), and gas turbine (10) also has blast tube to hand over through Low Temperature Thermal Parallel operation (15) is connected with the 3rd compressor (13), and the 3rd compressor (13) also has blast tube through heater (14) and the second combustion gas Turbine (12) connects, and the second gas turbine (12) also has blast tube to connect with the second compressor (11) through evaporimeter (4), and second Compressor (11) also has blast tube through generator (2) and ft connection, and absorber (1), condenser (3) and heater (14) are also There are heated medium pipeline and ft connection respectively, low temperature heat exchanger (15) also has low-temperature heat medium passage and ft connection, Gas turbine (10) and the second gas turbine (12) connect compressor (8), the second compressor (11) and the 3rd compressor (13) and Transmission power, forms first kind thermal drivers compressing-absorbing type heat pump.

3. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, choke valve, molten Liquid pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the 3rd compressor, heater, Low Temperature Thermal Exchanger and the 4th compressor are formed；Absorber (1) have weak solution pipeline through solution pump (6) and solution heat exchanger (7) with Generator (2) connects, and generator (2) also has concentrated solution pipeline to connect with absorber (1) through solution heat exchanger (7), generator (2) refrigerant steam channel is also had to connect with condenser (3), condenser (3) also has cryogen liquid pipeline through choke valve (5) and evaporimeter (4) connect, evaporimeter (4) also has refrigerant steam channel to connect with absorber (1), there is air duct outside with compressor (8) even Logical, compressor (8) also has compressed air channel to connect with combustion chamber (9), and combustion chamber (9) also have fuel channel and ft connection, Combustion chamber (9) also has blast tube to connect with gas turbine (10), and gas turbine (10) also has blast tube through low temperature heat exchange Device (15) is connected with the 3rd compressor (13), and the 3rd compressor (13) also has blast tube through evaporimeter (4) and the 4th compressor (16) connect, the 4th compressor (16) also has blast tube to connect with the second compressor (11) through heater (14), the second compression Machine (11) also has blast tube through generator (2) and ft connection, and absorber (1), condenser (3) and heater (14) are also distinguished There are heated medium pipeline and ft connection, low temperature heat exchanger (15) also has low-temperature heat medium passage and ft connection, combustion gas Turbine (10) connects compressor (8), the second compressor (11), the 3rd compressor (13) and the 4th compressor (16) and transmits dynamic Power, forms first kind thermal drivers compressing-absorbing type heat pump.

4. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, choke valve, molten Liquid pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, heater, low temperature Heat exchanger and the 3rd gas turbine are formed；Absorber (1) has weak solution pipeline through solution pump (6) and solution heat exchanger (7) connect with generator (2), generator (2) also has concentrated solution pipeline to connect with absorber (1) through solution heat exchanger (7), sends out Raw device (2) also has refrigerant steam channel to connect with condenser (3), and condenser (3) also has cryogen liquid pipeline through choke valve (5) and steaming Send out device (4) connection, evaporimeter (4) also has refrigerant steam channel to connect with absorber (1), and there are air duct and compressor in outside (8) connect, compressor (8) also has compressed air channel to connect with combustion chamber (9), combustion chamber (9) also have fuel channel and outside Connection, combustion chamber (9) also have blast tube to connect with gas turbine (10), and gas turbine (10) also has blast tube through heater (14) connect with the second gas turbine (12), the second gas turbine (12) also has blast tube through evaporimeter (4) and the 3rd combustion gas Turbine (17) connects, and the 3rd gas turbine (17) also has blast tube through low temperature heat exchanger (15) with the second compressor (11) even Logical, the second compressor (11) also has blast tube through generator (2) and ft connection, absorber (1), condenser (3) and heat supply Device (14) also has heated medium pipeline and ft connection respectively, and low temperature heat exchanger (15) also has low-temperature heat medium passage with outward Portion connects, and gas turbine (10), the second gas turbine (12) and the 3rd gas turbine (17) connect compressor (8) and the second compression Machine (11) simultaneously transmits power, forms first kind thermal drivers compressing-absorbing type heat pump.

5. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, choke valve, molten Liquid pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compressor, Heater and low temperature heat exchanger are formed；Absorber (1) has weak solution pipeline through solution pump (6) and solution heat exchanger (7) Connect with generator (2), generator (2) also has concentrated solution pipeline to connect with absorber (1) through solution heat exchanger (7), occurs Device (2) also has refrigerant steam channel to connect with condenser (3), and condenser (3) also has cryogen liquid pipeline through choke valve (5) and evaporation Device (4) connects, and evaporimeter (4) also has refrigerant steam channel to connect with absorber (1), and there are air duct and compressor (8) in outside Connection, compressor (8) also has compressed air channel to connect with combustion chamber (9), and combustion chamber (9) also have fuel channel to connect with outside Logical, combustion chamber (9) also have blast tube to connect with gas turbine (10), and gas turbine (10) also has blast tube through evaporimeter (4) connect with the 3rd compressor (13), the 3rd compressor (13) also has blast tube through heater (14) and the second gas turbine (12) connect, the second gas turbine (12) also has blast tube to connect with the second compressor (11) through low temperature heat exchanger (15), Second compressor (11) also has blast tube through generator (2) and ft connection, absorber (1), condenser (3) and heater (14) also there are heated medium pipeline and ft connection respectively, low temperature heat exchanger (15) also has low-temperature heat medium passage and outside Connection, gas turbine (10) and the second gas turbine (12) connect compressor (8), the second compressor (11) and the 3rd compressor (13) and transmit power, form first kind thermal drivers compressing-absorbing type heat pump.

6. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, choke valve, molten Liquid pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compressor, Heater, low temperature heat exchanger, the 3rd gas turbine and high temperature regenerator are formed；Absorber (1) has weak solution pipeline through molten Liquid pump (6) is connected with generator (2) with solution heat exchanger (7), and generator (2) also has concentrated solution pipeline through solution heat exchanger (7) connect with absorber (1), generator (2) also has refrigerant steam channel to connect with condenser (3), and condenser (3) also has cryogen Liquid pipeline is connected with evaporimeter (4) through choke valve (5), and evaporimeter (4) also has refrigerant steam channel to connect with absorber (1), outward Portion has air duct to connect with compressor (8), and compressor (8) also has compressed air channel through high temperature regenerator (18) and combustion chamber (9) connect, combustion chamber (9) also have fuel channel and ft connection, combustion chamber (9) also have blast tube with gas turbine (10) even Logical, gas turbine (10) also has blast tube to connect with the second gas turbine (12) through high temperature regenerator (18), the second combustion gas wheel Machine (12) also has blast tube to connect with the 3rd gas turbine (17) through evaporimeter (4), and the 3rd gas turbine (17) also has combustion gas Passage is connected with the 3rd compressor (13) through low temperature heat exchanger (15), and the 3rd compressor (13) also has blast tube through heater (14) connect with the second compressor (11), the second compressor (11) also has blast tube through generator (2) and ft connection, absorbs Device (1), condenser (3) and heater (14) also have heated medium pipeline and ft connection, low temperature heat exchanger (15) respectively Also have low-temperature heat medium passage and ft connection, gas turbine (10), the second gas turbine (12) and the 3rd gas turbine (17) Connect compressor (8), the second compressor (11) and the 3rd compressor (13) and transmit power, formation first kind thermal drivers compression- Absorption heat pump.

7. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, choke valve, molten Liquid pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compressor, Heater, low temperature heat exchanger, the 3rd gas turbine and high temperature regenerator are formed；Absorber (1) has weak solution pipeline through molten Liquid pump (6) is connected with generator (2) with solution heat exchanger (7), and generator (2) also has concentrated solution pipeline through solution heat exchanger (7) connect with absorber (1), generator (2) also has refrigerant steam channel to connect with condenser (3), and condenser (3) also has cryogen Liquid pipeline is connected with evaporimeter (4) through choke valve (5), and evaporimeter (4) also has refrigerant steam channel to connect with absorber (1), outward Portion has air duct to connect with compressor (8), and compressor (8) also has compressed air channel through high temperature regenerator (18) and combustion chamber (9) connect, combustion chamber (9) also have fuel channel and ft connection, combustion chamber (9) also have blast tube with gas turbine (10) even Logical, gas turbine (10) also has blast tube to connect with the second gas turbine (12) through high temperature regenerator (18), the second combustion gas wheel Machine (12) also has blast tube to connect with the 3rd compressor (13) through low temperature heat exchanger (15), and the 3rd compressor (13) also has combustion Gas passage is connected with the 3rd gas turbine (17) through heater (14), and the 3rd gas turbine (17) also has blast tube through evaporimeter (4) connect with the second compressor (11), the second compressor (11) also has blast tube through generator (2) and ft connection, absorbs Device (1), condenser (3) and heater (14) also have heated medium pipeline and ft connection, low temperature heat exchanger (15) respectively Also have low-temperature heat medium passage and ft connection, gas turbine (10), the second gas turbine (12) and the 3rd gas turbine (17) Connect compressor (8), the second compressor (11) and the 3rd compressor (13) and transmit power, formation first kind thermal drivers compression- Absorption heat pump.

8. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, choke valve, molten Liquid pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compressor, Heater, low temperature heat exchanger, the 4th compressor and high temperature regenerator are formed；Absorber (1) has weak solution pipeline through solution Pump (6) is connected with generator (2) with solution heat exchanger (7), and generator (2) also has concentrated solution pipeline through solution heat exchanger (7) connect with absorber (1), generator (2) also has refrigerant steam channel to connect with condenser (3), and condenser (3) also has cryogen Liquid pipeline is connected with evaporimeter (4) through choke valve (5), and evaporimeter (4) also has refrigerant steam channel to connect with absorber (1), outward Portion has air duct to connect with compressor (8), and compressor (8) also has compressed air channel through high temperature regenerator (18) and combustion chamber (9) connect, combustion chamber (9) also have fuel channel and ft connection, combustion chamber (9) also have blast tube with gas turbine (10) even Logical, gas turbine (10) also has blast tube to connect with the second gas turbine (12) through high temperature regenerator (18), the second combustion gas wheel Machine (12) also has blast tube to connect with the 3rd compressor (13) through low temperature heat exchanger (15), and the 3rd compressor (13) also has combustion Gas passage is connected with the 4th compressor (16) through evaporimeter (4), and the 4th compressor (16) also has blast tube through heater (14) Connect with the second compressor (11), the second compressor (11) also has blast tube through generator (2) and ft connection, absorber (1), condenser (3) and heater (14) also have heated medium pipeline and ft connection respectively, and low temperature heat exchanger (15) is also Low-temperature heat medium passage and ft connection, gas turbine (10) and the second gas turbine (12) is had to connect compressor (8), the second pressure Contracting machine (11), the 3rd compressor (13) and the 4th compressor (16) simultaneously transmit power, form first kind thermal drivers compressing-absorbing type Heat pump.

9. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, choke valve, molten Liquid pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, heater, low temperature Heat exchanger, the 3rd gas turbine, high temperature regenerator and the 4th gas turbine are formed；Absorber (1) has weak solution pipeline warp Solution pump (6) is connected with generator (2) with solution heat exchanger (7), and generator (2) also has concentrated solution pipeline through solution heat exchange Device (7) is connected with absorber (1), and generator (2) also has refrigerant steam channel to connect with condenser (3), and condenser (3) is also cold Agent liquid pipeline is connected with evaporimeter (4) through choke valve (5), and evaporimeter (4) also has refrigerant steam channel to connect with absorber (1), Outside has air duct to connect with compressor (8), and compressor (8) also has compressed air channel through high temperature regenerator (18) and burning Room (9) connects, and combustion chamber (9) also have fuel channel and ft connection, and combustion chamber (9) also have blast tube and gas turbine (10) Connection, gas turbine (10) also has blast tube to connect with the second gas turbine (12) through high temperature regenerator (18), the second combustion gas Turbine (12) also has blast tube to connect with the 3rd gas turbine (17) through heater (14), and the 3rd gas turbine (17) also has combustion Gas passage is connected with the 4th gas turbine (19) through evaporimeter (4), and the 4th gas turbine (19) also has blast tube through Low Temperature Thermal Exchanger (15) is connected with the second compressor (11), and the second compressor (11) also has blast tube to connect with outside through generator (2) Logical, absorber (1), condenser (3) and heater (14) also have heated medium pipeline and ft connection, low temperature heat exchange respectively Device (15) also has low-temperature heat medium passage and ft connection, gas turbine (10), the second gas turbine (12), the 3rd gas turbine (17) connect compressor (8) and the second compressor (11) and transmit power with the 4th gas turbine (19), form first kind heat and drive Dynamic pressure contracting-absorption heat pump.

10. first kind thermal drivers compressing-absorbing type heat pump, mainly by absorber, generator, condenser, evaporimeter, choke valve, Solution pump, solution heat exchanger, compressor, combustion chamber, gas turbine, the second compressor, the second gas turbine, the 3rd compression Machine, heater, low temperature heat exchanger, the 3rd gas turbine and high temperature regenerator are formed；Absorber (1) has weak solution pipeline warp Solution pump (6) is connected with generator (2) with solution heat exchanger (7), and generator (2) also has concentrated solution pipeline through solution heat exchange Device (7) is connected with absorber (1), and generator (2) also has refrigerant steam channel to connect with condenser (3), and condenser (3) is also cold Agent liquid pipeline is connected with evaporimeter (4) through choke valve (5), and evaporimeter (4) also has refrigerant steam channel to connect with absorber (1), Outside has air duct to connect with compressor (8), and compressor (8) also has compressed air channel through high temperature regenerator (18) and burning Room (9) connects, and combustion chamber (9) also have fuel channel and ft connection, and combustion chamber (9) also have blast tube and gas turbine (10) Connection, gas turbine (10) also has blast tube to connect with the second gas turbine (12) through high temperature regenerator (18), the second combustion gas Turbine (12) also has blast tube to connect with the 3rd compressor (13) through evaporimeter (4), and the 3rd compressor (13) also has combustion gas to lead to Road is connected with the 3rd gas turbine (17) through heater (14), and the 3rd gas turbine (17) also has blast tube through low temperature heat exchange Device (15) is connected with the second compressor (11), and the second compressor (11) also has blast tube through generator (2) and ft connection, inhales Receiving device (1), condenser (3) and heater (14) also has heated medium pipeline and ft connection, low temperature heat exchanger respectively (15) also have low-temperature heat medium passage and ft connection, gas turbine (10), the second gas turbine (12) and the 3rd gas turbine (17) connect compressor (8), the second compressor (11) and the 3rd compressor (13) and transmit power, form first kind thermal drivers pressure Contracting-absorption heat pump.

11. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 1-10 In contracting-absorption heat pump, cancel the outside fuel channel connecting with combustion chamber (9), increase new compressor, outside has gaseous state to fire Material passage is connected with new compressor (20), and new compressor (20) also has compressed gaseous fuel channel to connect with combustion chamber (9), Gas turbine (10) connects new compressor (20) and transmits power, forms first kind thermal drivers compressing-absorbing type heat pump.

12. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 1-11 In contracting-absorption heat pump, increase by the second heater, the second compressor (11) is had blast tube to connect with outside through generator (2) Logical the second compressor (11) that is adjusted to has blast tube to be sequentially communicated the second heat supply after generator (2) and the second heater (21) Device (21) has blast tube and ft connection again, and the second heater (21) also has heated medium passage and ft connection, is formed First kind thermal drivers compressing-absorbing type heat pump.

13. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 1-11 In contracting-absorption heat pump, increase by the second heater, the second compressor (11) is had blast tube to connect with outside through generator (2) Logical be adjusted to the second compressor (11) have blast tube be sequentially communicated generator (2), the second heater (21) and evaporimeter (4) it Finisher (4) has blast tube and ft connection again, and the second heater (21) also has heated medium passage and ft connection, Form first kind thermal drivers compressing-absorbing type heat pump.

14. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 1-11 In contracting-absorption heat pump, increase the second generator, second throttle, the second solution pump and the second solution heat exchanger, absorber (1) set up weak solution pipeline to connect with the second generator (22) with the second solution heat exchanger (25) through the second solution pump (24), Second generator (22) also has concentrated solution pipeline to connect with absorber (1) through the second solution heat exchanger (25), by generator (2) There is refrigerant steam channel to connect with condenser (3) to be adjusted to generator (2) and have refrigerant steam channel and the second generator (22) even After logical, the second generator (22) has cryogen liquid pipeline to connect with condenser (3) through second throttle (23) again, the second generator (22) also have refrigerant steam channel to connect with condenser (3), form first kind thermal drivers compressing-absorbing type heat pump.

15. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 1-11 In contracting-absorption heat pump, increase the second generator, second throttle and the second solution heat exchanger, absorber (1) is had dilute molten Liquid pipeline is connected with generator (2) through solution pump (6) and solution heat exchanger (7) and is adjusted to absorber (1) and has weak solution pipeline Connect with generator (2) with the second solution heat exchanger (25) through solution pump (6), solution heat exchanger (7), by generator (2) There is concentrated solution pipeline to connect with absorber (1) through solution heat exchanger (7) to be adjusted to generator (2) and have concentrated solution pipeline through second Solution heat exchanger (25) is connected with the second generator (22), and the second generator (22) has concentrated solution pipeline again through solution heat exchange Device (7) is connected with absorber (1), generator (2) is had refrigerant steam channel to connect with condenser (3) and is adjusted to generator (2) After having refrigerant steam channel to connect with the second generator (22), the second generator (22) has cryogen liquid pipeline again through the second throttling Valve (23) is connected with condenser (3), and the second generator (22) also has refrigerant steam channel to connect with condenser (3), forms first Class thermal drivers compressing-absorbing type heat pump.

16. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 1-11 In contracting-absorption heat pump, increase the second generator, second throttle, the second solution pump and the second solution heat exchanger, will absorb Device (1) has weak solution pipeline to connect with generator (2) through solution pump (6) and solution heat exchanger (7) to be adjusted to absorber (1) and have Weak solution pipeline is connected with the second generator (22) with solution heat exchanger (7) through solution pump (6), and the second generator (22) has again Concentrated solution pipeline is connected with generator (2) with the second solution heat exchanger (25) through the second solution pump (24), and generator (2) is had Concentrated solution pipeline is connected with absorber (1) through solution heat exchanger (7) and is adjusted to generator (2) and has concentrated solution pipeline molten through second Liquid heat exchanger (25) is connected with absorber (1) with solution heat exchanger (7), by generator (2) have refrigerant steam channel with cold Condenser (3) connection is adjusted to the second generator after generator (2) has refrigerant steam channel to connect with the second generator (22) (22) cryogen liquid pipeline is had to connect with condenser (3) through second throttle (23) again, the second generator (22) also has refrigerant vapour Passage is connected with condenser (3), forms first kind thermal drivers compressing-absorbing type heat pump.

17. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 14-16 In contracting-absorption heat pump, increase by the second heater, the second compressor (11) is had blast tube to connect with outside through generator (2) Logical the second compressor (11) that is adjusted to has blast tube to be sequentially communicated the second heat supply after generator (2) and the second heater (21) Device (21) has blast tube and outside, the second heater (21) also heated medium passage and ft connection again, forms first Class thermal drivers compressing-absorbing type heat pump.

18. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 14-16 In contracting-absorption heat pump, increase by the second heater, the second compressor (11) is had blast tube to connect with outside through generator (2) Logical be adjusted to the second compressor (11) have blast tube be sequentially communicated generator (2), the second heater (21) and evaporimeter (4) it Finisher (4) has blast tube and outside, the second heater (21) also heated medium passage and ft connection again, is formed First kind thermal drivers compressing-absorbing type heat pump.

19. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 14-16 In contracting-absorption heat pump, the second compressor (11) there is is blast tube to be adjusted to the second compression through generator (2) and ft connection After machine (11) has blast tube to be sequentially communicated generator (2) and the second generator (22), the second generator (22) has combustion gas to lead to again Road and outside, formation first kind thermal drivers compressing-absorbing type heat pump.

20. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 14-16 In contracting-absorption heat pump, increase by the second heater, the second compressor (11) is had blast tube to connect with outside through generator (2) Logical it is adjusted to the second compressor (11) and has blast tube to be sequentially communicated generator (2), the second generator (22) and the second heater (21) the second heater (21) has blast tube and outside more afterwards, and the second heater (21) also has heated medium passage with outward Portion connects, and forms first kind thermal drivers compressing-absorbing type heat pump.

21. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 14-16 In contracting-absorption heat pump, increase by the second heater, the second compressor (11) is had blast tube to connect with outside through generator (2) Logical it is adjusted to the second compressor (11) and has blast tube to be sequentially communicated generator (2), the second generator (22), the second heater (21) and evaporimeter (4) finisher (4) have again blast tube with outside, the second heater (21) also has heated medium to lead to Road and ft connection, form first kind thermal drivers compressing-absorbing type heat pump.

22. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 1-11 In contracting-absorption heat pump, increase the second generator, the second absorber, the second solution pump and the second solution heat exchanger, will evaporate Device (4) has refrigerant steam channel to connect with absorber (1) to be adjusted to evaporimeter (4) and have refrigerant steam channel and the second absorber (26) connect, the second absorber (26) also have weak solution pipeline through the second solution pump (24) and the second solution heat exchanger (25) and Second generator (22) connects, and the second generator (22) also has concentrated solution pipeline through the second solution heat exchanger (25) and the second suction Receive device (26) connection, the second generator (22) also has refrigerant steam channel to connect with absorber (1), and the second compressor (11) is had Blast tube is adjusted to the second compressor (11) through generator (2) road and ft connection has blast tube to be sequentially communicated generator (2) after and the second generator (22), the second generator (22) has blast tube and ft connection again, and the second absorber (26) is also There are heated medium passage and ft connection, form first kind thermal drivers compressing-absorbing type heat pump.

23. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 1-11 In contracting-absorption heat pump, increase the second generator, the second absorber, the second solution pump, solution choke valve, the second solution throttling Valve and point steam chest, absorber (1) is had weak solution pipeline to connect with generator (2) with solution heat exchanger (7) through solution pump (6) Being adjusted to absorber (1) has weak solution pipeline to connect with the second absorber (26) with solution heat exchanger (7) through solution pump (6), Second absorber (26) also has weak solution pipeline to connect with the second generator (22) through solution choke valve (27), the second generator (22) there is concentrated solution pipeline to connect with generator (2) through the second solution pump (24) again, generator (2) is had concentrated solution pipeline through molten Liquid heat exchanger (7) connect with absorber (1) be adjusted to generator (2) have concentrated solution pipeline through the second solution choke valve (28) and Second absorber (26) is connected with a point steam chest (29), and a point steam chest (29) has concentrated solution pipeline again through solution heat exchanger (7) and suction Receive device (1) connection, generator (2) is had refrigerant steam channel to connect with condenser (3) and is adjusted to generator (2) and has refrigerant vapour Passage is connected with the second absorber (26), and the second generator (22) and a point steam chest (29) also have refrigerant steam channel and condensation respectively Device (3) connects, and the second compressor (11) is had blast tube to be adjusted to the second compressor (11) through generator (2) and ft connection After having blast tube to be sequentially communicated generator (2) and the second generator (22), the second generator (22) has blast tube again with outward Portion connects, and forms first kind thermal drivers compressing-absorbing type heat pump.

24. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 1-23 In contracting-absorption heat pump, increase engine, engine connects the second compressor (11) and moves to the second compressor (11) transmission Power, forms additional external power-actuated first kind thermal drivers compressing-absorbing type heat pump.

25. first kind thermal drivers compressing-absorbing type heat pumps, are the arbitrary first kind thermal drivers pressures described in claim 1-23 In contracting-absorption heat pump, increase working machine, gas turbine (10) connects working machine and transmits power to working machine, is formed additional The first kind thermal drivers compressing-absorbing type heat pump of living load is externally provided.