CN106403372A - Second-type thermally-driven compression heat pump - Google Patents

Abstract

The invention provides a second-type thermally-driven compression heat pump and belongs to the technical field of power, heating and heat pumps. A compressor communicates with a heater through a circulating working medium channel. The heater communicates with an evaporator through a circulating working medium channel and a throttle valve. The evaporator communicates with an expansion machine through a circulating working medium channel. The expansion machine communicates with a condenser through a circulating working medium channel. The condenser communicates with the compressor through a circulating working medium channel and communicates with the evaporator through a circulating working medium channel and a booster pump. The heater communicates with the outside through a heated medium channel. The evaporator communicates with the outside through a heat source medium channel. The condenser communicates with the outside through a cooling medium channel. The expansion machine is connected with the compressor and transmits power, so that the second-type thermally-driven compression heat pump is formed.

Description

Equations of The Second Kind thermal drivers compression heat pump

Technical field：

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

Background technology：

Heat demand and power demand, central with production common by human lives.The temperature of heat energy is higher, and it is obtained by Probability higher, using also more convenient.In reality, for the relatively low thermic load of temperature, people need using necessary technology Lift its temperature.During stating purpose in realization, many considerations will be faced or condition will limit, including the class of the energy Type, grade and quantity, the type of user's request, grade and quantity, ambient temperature, the type of working media, the flow process of equipment, knot Structure Manufacturing cost etc..

Heat energy (temperature difference) with absorption heat pump technology as representative utilizes technology, using the temperature between thermic load and cold environment Differ from and to realize the lifting of part heat load temperature；But because the property by working media (solution and refrigerant medium) is affected, and no Method realizes heat energy to mechanical transformation of energy while heat supply, and its application and range of application are subject to larger restriction.

The present invention is starting point it is also considered that to profit simultaneously from fully realizing between thermic load and cold environment temperature difference efficient utilization With power drive, or considering to take into account power output it is proposed that carrying out effectively utilizes to the temperature difference between thermic load and cold environment, having The vapor compression types Equations of The Second Kind thermal drivers compression heat pump of quick-reading flow sheets and structure.

Content of the invention：

Present invention is primarily intended to Equations of The Second Kind thermal drivers compression heat pump will be provided, concrete content of the invention subitem illustrates such as Under：

1. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, heater, vaporizer and cold Condenser is formed；Compressor has cycle fluid passage to connect with heater, heater also have cycle fluid passage through the hydraulic turbine with Vaporizer connects, and vaporizer also has cycle fluid passage to connect with decompressor, and decompressor also has cycle fluid passage and condenser Connection, condenser also has cycle fluid passage to connect with compressor, and heater also has heated medium passage and ft connection, steams Send out device and also have heat source medium passage and ft connection, condenser also has coolant guiding channel and ft connection, decompressor and water wheels Machine connects compressor and transmits power, forms Equations of The Second Kind thermal drivers compression heat pump.

2. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, heater, vaporizer, condenser and section Stream valve is formed；Compressor has cycle fluid passage to connect with heater, heater also have cycle fluid passage through choke valve with Vaporizer connects, and vaporizer also has cycle fluid passage to connect with decompressor, and decompressor also has cycle fluid passage and condenser Connection, condenser also has cycle fluid passage to connect with compressor, and heater also has heated medium passage and ft connection, steams Send out device and also have heat source medium passage and ft connection, condenser also has coolant guiding channel and ft connection, decompressor connects pressure Contracting machine simultaneously transmits power, forms Equations of The Second Kind thermal drivers compression heat pump.

3. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, heater, vaporizer, cold Condenser and the second decompressor are formed；Compressor has cycle fluid passage to connect with heater, and heater also has cycle fluid to lead to Road is connected with vaporizer through the hydraulic turbine, and heater also has cycle fluid passage to connect with the second decompressor, and the second decompressor also has Cycle fluid passage is connected with vaporizer, and vaporizer also has cycle fluid passage to connect with decompressor, and decompressor also has circulation industrial Matter passage is connected with condenser, and condenser also has cycle fluid passage to connect with compressor, and heater also has heated medium to lead to Road and ft connection, vaporizer also has heat source medium passage and ft connection, and condenser also has coolant guiding channel to connect with outside Logical, decompressor, the hydraulic turbine and the second decompressor connect compressor and transmit power, form Equations of The Second Kind thermal drivers compression heat pump.

4. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, heater, vaporizer, condenser, section Stream valve and the second decompressor are formed；Compressor has cycle fluid passage to connect with heater, and heater also has cycle fluid to lead to Road is connected with vaporizer through choke valve, and heater also has cycle fluid passage to connect with the second decompressor, and the second decompressor also has Cycle fluid passage is connected with vaporizer, and vaporizer also has cycle fluid passage to connect with decompressor, and decompressor also has circulation industrial Matter passage is connected with condenser, and condenser also has cycle fluid passage to connect with compressor, and heater also has heated medium to lead to Road and ft connection, vaporizer also has heat source medium passage and ft connection, and condenser also has coolant guiding channel to connect with outside Lead to, decompressor and the second decompressor connect compressor and transmit power, form Equations of The Second Kind thermal drivers compression heat pump.

5. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, heater, vaporizer, cold Condenser and booster are formed；Compressor has cycle fluid passage to connect with heater, and heater also has cycle fluid passage warp The hydraulic turbine is connected with vaporizer, and vaporizer also has cycle fluid passage to connect with decompressor, and decompressor also has cycle fluid passage Connect with condenser, condenser also has cycle fluid passage to connect with compressor, condenser also has cycle fluid passage boosted Pump is connected with vaporizer, and heater also has heated medium passage and ft connection, and vaporizer also has heat source medium passage with outward Portion connects, and condenser also has coolant guiding channel and ft connection, decompressor and the hydraulic turbine to connect compressor and transmit power, shape Become Equations of The Second Kind thermal drivers compression heat pump；Wherein, or decompressor and the hydraulic turbine connect compressor and booster and transmit power.

6. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, heater, vaporizer, condenser, section Stream valve and booster are formed；Compressor has cycle fluid passage to connect with heater, and heater also has cycle fluid passage warp Choke valve is connected with vaporizer, and vaporizer also has cycle fluid passage to connect with decompressor, and decompressor also has cycle fluid passage Connect with condenser, condenser also has cycle fluid passage to connect with compressor, condenser also has cycle fluid passage boosted Pump is connected with vaporizer, and heater also has heated medium passage and ft connection, and vaporizer also has heat source medium passage with outward Portion connects, and condenser also has coolant guiding channel and ft connection, and decompressor connects compressor and transmits power, forms Equations of The Second Kind Thermal drivers compression heat pump；Wherein, or decompressor connects compressor and booster and transmits power.

7. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, heater, vaporizer, cold Condenser, the second decompressor and booster are formed；Compressor has cycle fluid passage to connect with heater, and heater also has circulation Working medium passage is connected with vaporizer through the hydraulic turbine, and heater also has cycle fluid passage to connect with the second decompressor, the second expansion Machine also has cycle fluid passage to connect with vaporizer, and vaporizer also has cycle fluid passage to connect with decompressor, and decompressor also has Cycle fluid passage is connected with condenser, and condenser also has cycle fluid passage to connect with compressor, and condenser also has circulation industrial The boosted pump of matter passage is connected with vaporizer, and heater also has heated medium passage and ft connection, and vaporizer also has thermal source Medium channel and ft connection, condenser also has coolant guiding channel and ft connection, decompressor, the hydraulic turbine and the second decompressor Connect compressor and transmit power, form Equations of The Second Kind thermal drivers compression heat pump；Wherein, or decompressor, the hydraulic turbine and second are swollen Swollen machine connects compressor and booster and transmits power.

8. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, heater, vaporizer, condenser, section Stream valve, the second decompressor and booster are formed；Compressor has cycle fluid passage to connect with heater, and heater also has circulation Working medium passage is connected with vaporizer through choke valve, and heater also has cycle fluid passage to connect with the second decompressor, the second expansion Machine also has cycle fluid passage to connect with vaporizer, and vaporizer also has cycle fluid passage to connect with decompressor, and decompressor also has Cycle fluid passage is connected with condenser, and condenser also has cycle fluid passage to connect with compressor, and condenser also has circulation industrial The boosted pump of matter passage is connected with vaporizer, and heater also has heated medium passage and ft connection, and vaporizer also has thermal source Medium channel and ft connection, condenser also has coolant guiding channel and ft connection, decompressor and the second decompressor to connect pressure Contracting machine simultaneously transmits power, forms Equations of The Second Kind thermal drivers compression heat pump；Wherein, or decompressor and the second decompressor connect compressor With booster and transmit power.

9. Equations of The Second Kind thermal drivers compression heat pump, is in the 1st, 3,5,7 described arbitrary Equations of The Second Kind thermal drivers compression type heats In pump, increase regenerator, heater is had cycle fluid passage to connect with vaporizer through the hydraulic turbine and is adjusted to heater and has circulation Working medium passage is connected with vaporizer with the hydraulic turbine through regenerator, vaporizer is had cycle fluid passage to connect with decompressor and is adjusted to Vaporizer has cycle fluid passage to connect with decompressor through regenerator, forms Equations of The Second Kind thermal drivers compression heat pump.

10. Equations of The Second Kind thermal drivers compression heat pump, is in the 2nd, 4,6,8 described arbitrary Equations of The Second Kind thermal drivers compression type heats In pump, increase regenerator, heater is had cycle fluid passage to connect with vaporizer through choke valve and is adjusted to heater and has circulation Working medium passage is connected with vaporizer with choke valve through regenerator, vaporizer is had cycle fluid passage to connect with decompressor and is adjusted to Vaporizer has cycle fluid passage to connect with decompressor through regenerator, forms Equations of The Second Kind thermal drivers compression heat pump.

11. Equations of The Second Kind thermal drivers compression heat pumps, are arbitrary Equations of The Second Kind thermal drivers compression heat pumps described in 1-8 item In, increase regenerator, compressor is had cycle fluid passage to connect with heater and is adjusted to compressor and has cycle fluid passage warp Regenerator is connected with heater, vaporizer is had cycle fluid passage to connect with decompressor and is adjusted to vaporizer and has cycle fluid to lead to Road is connected with decompressor through regenerator, forms Equations of The Second Kind thermal drivers compression heat pump.

12. Equations of The Second Kind thermal drivers compression heat pumps, are in the 1st, 3,5,7 described arbitrary Equations of The Second Kind thermal drivers compression type heats In pump, increase regenerator and the second regenerator, heater is had cycle fluid passage to connect with vaporizer through the hydraulic turbine and is adjusted to Heater has cycle fluid passage to connect with vaporizer with the hydraulic turbine through regenerator, and compressor is had cycle fluid passage and heat supply Device connection is adjusted to compressor has cycle fluid passage to connect with heater through the second regenerator, and vaporizer is had cycle fluid to lead to Road is connected with decompressor and is adjusted to vaporizer and has cycle fluid passage to be connected with decompressor through regenerator and the second regenerator, is formed Equations of The Second Kind thermal drivers compression heat pump.

13. Equations of The Second Kind thermal drivers compression heat pumps, are in the 2nd, 4,6,8 described arbitrary Equations of The Second Kind thermal drivers compression type heats In pump, increase regenerator and the second regenerator, heater is had cycle fluid passage to connect with vaporizer through choke valve and is adjusted to Heater has cycle fluid passage to connect with vaporizer with choke valve through regenerator, and compressor is had cycle fluid passage and heat supply Device connection is adjusted to compressor has cycle fluid passage to connect with heater through the second regenerator, and vaporizer is had cycle fluid to lead to Road is connected with decompressor and is adjusted to vaporizer and has cycle fluid passage to be connected with decompressor through regenerator and the second regenerator, is formed Equations of The Second Kind thermal drivers compression heat pump.

14. Equations of The Second Kind thermal drivers compression heat pumps, are in the 1st, 3,5,7 described arbitrary Equations of The Second Kind thermal drivers compression type heats In pump, increase regenerator, condenser is had cycle fluid passage to connect with compressor and is adjusted to condenser and has cycle fluid passage Connect with compressor through regenerator, heater is had cycle fluid passage to connect with vaporizer through the hydraulic turbine and is adjusted to heater and has Cycle fluid passage is connected with vaporizer with the hydraulic turbine through regenerator, forms Equations of The Second Kind thermal drivers compression heat pump.

15. Equations of The Second Kind thermal drivers compression heat pumps, are in the 2nd, 4,6,8 described arbitrary Equations of The Second Kind thermal drivers compression type heats In pump, increase regenerator, condenser is had cycle fluid passage to connect with compressor and is adjusted to condenser and has cycle fluid passage Connect with compressor through regenerator, heater is had cycle fluid passage to connect with vaporizer through choke valve and is adjusted to heater and has Cycle fluid passage is connected with vaporizer with choke valve through regenerator, forms Equations of The Second Kind thermal drivers compression heat pump.

16. Equations of The Second Kind thermal drivers compression heat pumps, are in the 1st, 3,5,7 described arbitrary Equations of The Second Kind thermal drivers compression type heats In pump, increase regenerator and the second regenerator, heater is had cycle fluid passage to connect with vaporizer through the hydraulic turbine and is adjusted to Heater has cycle fluid passage to connect with vaporizer with the hydraulic turbine through regenerator, the second regenerator, and condenser is had circulation industrial Matter passage is connected with compressor and is adjusted to condenser and has cycle fluid passage to be connected with compressor through the second regenerator, by vaporizer There is cycle fluid passage to connect with decompressor to be adjusted to vaporizer and have cycle fluid passage to connect with decompressor through regenerator, formed Equations of The Second Kind thermal drivers compression heat pump.

17. Equations of The Second Kind thermal drivers compression heat pumps, are in the 2nd, 4,6,8 described arbitrary Equations of The Second Kind thermal drivers compression type heats In pump, cancel choke valve, increase regenerator and the second regenerator, heater is had cycle fluid passage through choke valve and vaporizer Connection is adjusted to heater has cycle fluid passage to connect with vaporizer through regenerator and the second regenerator, and condenser is had circulation Working medium passage is connected with compressor and is adjusted to condenser and has cycle fluid passage to be connected with compressor through the second regenerator, will evaporate Device has cycle fluid passage to connect with decompressor to be adjusted to vaporizer and have cycle fluid passage to connect with decompressor through regenerator, shape Become Equations of The Second Kind thermal drivers compression heat pump.

18. Equations of The Second Kind thermal drivers compression heat pumps, are arbitrary Equations of The Second Kind thermal drivers compression heat pumps described in 1-8 item In, increase by the second compressor, compressor is had cycle fluid passage to connect with heater and is adjusted to compressor and has cycle fluid to lead to Road is connected with the second compressor through heater, and the second compressor has cycle fluid passage to connect with heater again, and decompressor connects Second compressor simultaneously transmits power, forms Equations of The Second Kind thermal drivers compression heat pump.

19. Equations of The Second Kind thermal drivers compression heat pumps, are arbitrary Equations of The Second Kind thermal drivers compression heat pumps described in 5-6 item In, increase the second compressor, the second heater and the newly-increased hydraulic turbine, compressor is had cycle fluid passage to connect tune with heater Whole have cycle fluid passage to connect with the second heater for compressor, and the second heater also has cycle fluid passage and the second compression Machine connects, and the second compressor has cycle fluid passage to connect with heater again, and the second heater also has cycle fluid passage through new Turbine of surging is connected with vaporizer, and the second heater also has heated medium passage and ft connection, decompressor and newly-increased water wheels Machine connects the second compressor and transmits power, forms Equations of The Second Kind thermal drivers compression heat pump.

20. Equations of The Second Kind thermal drivers compression heat pumps, are arbitrary Equations of The Second Kind thermal drivers compression heat pumps described in 5-6 item In, increase the second compressor, the second heater and newly-increased choke valve, compressor is had cycle fluid passage to connect tune with heater Whole have cycle fluid passage to connect with the second heater for compressor, and the second heater also has cycle fluid passage and the second compression Machine connects, and the second compressor has cycle fluid passage to connect with heater again, and the second heater also has cycle fluid passage through new Increase choke valve to connect with vaporizer, the second heater also has heated medium passage and ft connection, decompressor connects the second pressure Contracting machine simultaneously transmits power, forms Equations of The Second Kind thermal drivers compression heat pump.

21. Equations of The Second Kind thermal drivers compression heat pumps, are arbitrary Equations of The Second Kind thermal drivers compression heat pumps described in 5-6 item In, increase the second compressor, the second heater and the newly-increased hydraulic turbine, cycle fluid passage set up by condenser and the second compressor connects Logical, the second compressor also has cycle fluid passage to connect with the second heater, and the second heater also has cycle fluid passage through new Turbine of surging is connected with vaporizer, and the second heater also has heated medium passage and ft connection, decompressor and newly-increased water wheels Machine connects the second compressor and transmits power, forms Equations of The Second Kind thermal drivers compression heat pump.

22. Equations of The Second Kind thermal drivers compression heat pumps, are arbitrary Equations of The Second Kind thermal drivers compression heat pumps described in 5-6 item In, increase the second compressor, the second heater and newly-increased choke valve, cycle fluid passage set up by condenser and the second compressor connects Logical, the second compressor also has cycle fluid passage to connect with the second heater, and the second heater also has cycle fluid passage through new Increase choke valve to connect with vaporizer, the second heater also has heated medium passage and ft connection, decompressor connects the second pressure Contracting machine simultaneously transmits power, forms Equations of The Second Kind thermal drivers compression heat pump.

23. Equations of The Second Kind thermal drivers compression heat pumps, are arbitrary Equations of The Second Kind thermal drivers compression heat pumps described in 5-6 item In, increase the second decompressor, the second vaporizer and newly-increased choke valve, vaporizer set up cycle fluid passage through newly-increased choke valve with Second vaporizer connection, the second vaporizer also has cycle fluid passage to connect with the second decompressor, and the second decompressor also has circulation Working medium passage is connected with condenser, and the second vaporizer also has heat source medium passage and ft connection, and the second decompressor connects compression Machine simultaneously transmits power, forms Equations of The Second Kind thermal drivers compression heat pump.

24. Equations of The Second Kind thermal drivers compression heat pumps, are arbitrary Equations of The Second Kind thermal drivers compression heat pumps described in 5-6 item In, increase the second decompressor, the second vaporizer and the second booster, vaporizer set up cycle fluid passage through the second booster with Second vaporizer connection, the second vaporizer also has cycle fluid passage to connect with the second decompressor, and the second decompressor also has circulation Working medium passage is connected with condenser, and the second vaporizer also has heat source medium passage and ft connection, and the second decompressor connects compression Machine simultaneously transmits power or the second decompressor connection compressor and the second booster and transmits power, forms the compression of Equations of The Second Kind thermal drivers Formula heat pump.

25. Equations of The Second Kind thermal drivers compression heat pumps, are arbitrary Equations of The Second Kind thermal drivers compression heat pumps described in 5-6 item In, increase the second decompressor, the second booster and the second condenser, cycle fluid passage set up by vaporizer and the second decompressor connects Logical, the second decompressor also has cycle fluid passage to connect with the second condenser, and the second condenser also has cycle fluid passage through the Two boosters are connected with vaporizer, and the second condenser also has coolant guiding channel and ft connection, and the second decompressor connects compression Machine simultaneously transmits power or the second decompressor connection compressor and the second booster and transmits power, forms the compression of Equations of The Second Kind thermal drivers Formula heat pump.

26. Equations of The Second Kind thermal drivers compression heat pumps, are arbitrary Equations of The Second Kind thermal drivers compression heat pumps described in 5-6 item In, increase the second decompressor, the second compressor, the second booster and the second condenser, vaporizer set up cycle fluid passage with Second decompressor connection, the second decompressor also has cycle fluid passage to connect with the second condenser, and the second condenser also has circulation Working medium passage is connected with the second compressor, and the second compressor also has cycle fluid passage to connect with heater, and the second condenser is also Cycle fluid passage is had to connect with vaporizer through the second booster, the second condenser also has coolant guiding channel and ft connection, Decompressor and the second decompressor connect compressor and the second compressor and transmit power, form Equations of The Second Kind thermal drivers compression type heat Pump；Wherein, or decompressor and the second decompressor connect compressor, the second compressor and the second booster and transmit power.

27. Equations of The Second Kind thermal drivers compression heat pumps, are arbitrary Equations of The Second Kind thermal drivers compression heat pumps described in 1-26 item In, increase engine, engine connects compressor and provides power to compressor, forms the power-actuated Equations of The Second Kind of additional external Thermal drivers compression heat pump.

28. Equations of The Second Kind thermal drivers compression heat pumps, are arbitrary Equations of The Second Kind thermal drivers compression heat pumps described in 1-26 item In, increase working machine, decompressor connects working machine simultaneously provides power to working machine. being formed additional externally provides the of living load Two class thermal drivers compression heat pumps.

Brief description：

Fig. 1 is according to the 1st kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Fig. 2 is according to the 2nd kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Fig. 3 is according to the 3rd kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Fig. 4 is according to the 4th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Fig. 5 is according to the 5th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Fig. 6 is according to the 6th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Fig. 7 is according to the 7th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Fig. 8 is according to the 8th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Fig. 9 is according to the 9th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Figure 10 is according to the 10th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Figure 11 is according to the 11st kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Figure 12 is according to the 12nd kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Figure 13 is according to the 13rd kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Figure 14 is according to the 14th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Figure 15 is according to the 15th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Figure 16 is according to the 16th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Figure 17 is according to the 17th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Figure 18 is according to the 18th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Figure 19 is according to the 19th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Figure 20 is according to the 20th kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

Figure 21 is according to the 21st kind of principled thermal system figure of Equations of The Second Kind thermal drivers compression heat pump provided by the present invention.

In figure, 1- compressor, 2- decompressor, the 3- hydraulic turbine, 4- heater, 5- vaporizer, 6- condenser, 7- choke valve, 8- second decompressor, 9- booster, 10- regenerator, 11- second regenerator, 12- second compressor, 13- second heater, 14- Second booster, 15- second vaporizer, 16- second condenser；A- increases the hydraulic turbine newly, and B- increases choke valve newly.

Specific embodiment：

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

The compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 1 is realized in：

(1), in structure, it is mainly made up of compressor, decompressor, the hydraulic turbine, heater, vaporizer and condenser；Pressure Contracting machine 1 has cycle fluid passage to connect with heater 4, and heater 4 also has cycle fluid passage through the hydraulic turbine 3 with vaporizer 5 even Logical, vaporizer 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also has cycle fluid passage to connect with condenser 6, Condenser 6 also has cycle fluid passage to connect with compressor 1, and heater 4 also has heated medium passage and ft connection, evaporation Device 5 also has heat source medium passage and ft connection, and condenser 6 also has coolant guiding channel and ft connection, decompressor 2 and water wheels Machine 3 connects compressor 1 and transmits power.

(2), in flow process, the cycle fluid of compressor 1 discharge enters heater 4, heat release becomes in heated medium and condenses, The liquid circulation working medium of heater 4 discharge enters vaporizer 5 after flowing through the hydraulic turbine 3 blood pressure lowering work done；Enter the circulation of vaporizer 5 Working medium is absorbed heat and is vaporized, and flows through decompressor 2 blood pressure lowering work done afterwards；The cycle fluid of decompressor 2 discharge enters condenser 6 heat release simultaneously Partial condensation, enters compressor 1 boosting afterwards and heats up；The work(of decompressor 2 and the hydraulic turbine 3 output is supplied to compressor 1 and is used as power, Form Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 2 is realized in：

(1), in structure, it is mainly made up of compressor, decompressor, heater, vaporizer, condenser and choke valve；Pressure Contracting machine 1 has cycle fluid passage to connect with heater 4, and heater 4 also has cycle fluid passage through choke valve 7 with vaporizer 5 even Logical, vaporizer 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also has cycle fluid passage to connect with condenser 6, Condenser 6 also has cycle fluid passage to connect with compressor 1, and heater 4 also has heated medium passage and ft connection, evaporation Device 5 also has heat source medium passage and ft connection, and condenser 6 also has coolant guiding channel and ft connection, and decompressor 2 connects pressure Contracting machine 1 simultaneously transmits power.

(2), in flow process, the cycle fluid of compressor 1 discharge enters heater 4, heat release becomes in heated medium and condenses, The liquid circulation working medium of heater 4 discharge is through entering vaporizer 5 after choke valve 7 reducing pressure by regulating flow；Enter the circulation industrial of vaporizer 5 Matter is absorbed heat and is vaporized, and flows through decompressor 2 blood pressure lowering work done afterwards；The cycle fluid of decompressor 2 discharge enters condenser 6 heat release portion Divide condensation, enter compressor 1 boosting afterwards and heat up；The work(of decompressor 2 output is supplied to compressor 1 and is used as power, and forms Equations of The Second Kind Thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 3 is realized in：

(1), in structure, it is mainly by compressor, decompressor, the hydraulic turbine, heater, vaporizer, condenser and the second expansion Machine is formed；Compressor 1 has cycle fluid passage to connect with heater 4, and heater 4 also has cycle fluid passage through the hydraulic turbine 3 Connect with vaporizer 5, heater 4 also has cycle fluid passage to connect with the second decompressor 8, the second decompressor 8 also has circulation industrial Matter passage is connected with vaporizer 5, and vaporizer 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also has cycle fluid Passage is connected with condenser 6, and condenser 6 also has cycle fluid passage to connect with compressor 1, and heater 4 also has heated medium Passage and ft connection, vaporizer 5 also has heat source medium passage and ft connection, and condenser 6 also has coolant guiding channel with outward Portion connects, and decompressor 2, the hydraulic turbine 3 and the second decompressor 8 connect compressor 1 and transmit power.

(2), in flow process, the cycle fluid of compressor 1 discharge enters heater 4, heat release becomes and partly cold in heated medium Solidifying, the cycle fluid of heater 4 discharge is divided into two-way, and liquid circulation working medium enters evaporation after flowing through the hydraulic turbine 3 blood pressure lowering work done Device 5, gaseous recycle working medium enters vaporizer 5 after flowing through the second decompressor 8 blood pressure lowering work done；Enter the cycle fluid of vaporizer 5 Absorb heat and vaporize, flow through decompressor 2 blood pressure lowering work done afterwards；The cycle fluid of decompressor 2 discharge enters condenser 6 heat release part Condensation, enters compressor 1 boosting afterwards and heats up；The work(of decompressor 2, the hydraulic turbine 3 and the second decompressor 8 output is supplied to compressor 1 is used as power, and forms Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 4 is realized in：

(1), in structure, it is mainly by compressor, decompressor, heater, vaporizer, condenser, choke valve and the second expansion Machine is formed；Compressor 1 has cycle fluid passage to connect with heater 4, and heater 4 also has cycle fluid passage through choke valve 7 Connect with vaporizer 5, heater 4 also has cycle fluid passage to connect with the second decompressor 8, the second decompressor 8 also has circulation industrial Matter passage is connected with vaporizer 5, and vaporizer 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also has cycle fluid Passage is connected with condenser 6, and condenser 6 also has cycle fluid passage to connect with compressor 1, and heater 4 also has heated medium Passage and ft connection, vaporizer 5 also has heat source medium passage and ft connection, and condenser 6 also has coolant guiding channel with outward Portion connects, and decompressor 2 and the second decompressor 8 connect compressor 1 and transmit power.

(2), in flow process, the cycle fluid of compressor 1 discharge enters heater 4, heat release becomes and partly cold in heated medium Solidifying, the cycle fluid of heater 4 discharge is divided into two-way, and liquid circulation working medium is through entering vaporizer after choke valve 7 reducing pressure by regulating flow 5, gaseous recycle working medium enters vaporizer 5 after flowing through the second decompressor 8 blood pressure lowering work done；The cycle fluid entering vaporizer 5 is inhaled Heat simultaneously vaporizes, and flows through decompressor 2 blood pressure lowering work done afterwards；Cycle fluid entrance condenser 6 heat release of decompressor 2 discharge is simultaneously partly cold Solidifying, enter compressor 1 boosting afterwards and heat up；The work(of decompressor 2 and the second decompressor 8 output is supplied to compressor 1 and is used as power, shape Become Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 5 is realized in：

(1), in structure, it is mainly by compressor, decompressor, the hydraulic turbine, heater, vaporizer, condenser and booster institute Composition；Compressor 1 has cycle fluid passage to connect with heater 4, and heater 4 also has cycle fluid passage through the hydraulic turbine 3 and steaming Send out device 5 to connect, vaporizer 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also has cycle fluid passage and condensation Device 6 connects, and condenser 6 also has cycle fluid passage to connect with compressor 1, and condenser 6 also has the boosted pump of cycle fluid passage 9 Connect with vaporizer 5, heater 4 also has heated medium passage and ft connection, vaporizer 5 also has heat source medium passage with outward Portion connects, and condenser 6 also has coolant guiding channel and ft connection, decompressor 2 and the hydraulic turbine 3 to connect compressor 1 and transmit dynamic Power.

(2) in flow process, after the cycle fluid of condenser 6 is divided into the pressurization of two-way liquid circulation working medium boosted pump 9 Enter vaporizer 5, gaseous recycle working medium enters compressor 1 boosting and heats up；The cycle fluid entrance heater 4 of compressor 1 discharge, Heat release becomes in heated medium and condenses, and the liquid circulation working medium of heater 4 discharge enters after flowing through the hydraulic turbine 3 blood pressure lowering work done Vaporizer 5；The cycle fluid entering vaporizer 5 absorbs heat and vaporizes, and flows through decompressor 2 blood pressure lowering work done afterwards；Decompressor 2 discharge Cycle fluid enters condenser 6 heat release partial condensation；The work(of decompressor 2 and the hydraulic turbine 3 output is supplied to compressor 1 start Power, forms Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 6 is realized in：

(1), in structure, it is mainly by compressor, decompressor, heater, vaporizer, condenser, choke valve and booster institute Composition；Compressor 1 has cycle fluid passage to connect with heater 4, and heater 4 also has cycle fluid passage through choke valve 7 and steaming Send out device 5 to connect, vaporizer 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also has cycle fluid passage and condensation Device 6 connects, and condenser 6 also has cycle fluid passage to connect with compressor 1, and condenser 6 also has the boosted pump of cycle fluid passage 9 Connect with vaporizer 5, heater 4 also has heated medium passage and ft connection, vaporizer 5 also has heat source medium passage with outward Portion connects, and condenser 6 also has coolant guiding channel and ft connection, and decompressor 2 connects compressor 1 and booster 9 and transmits dynamic Power.

(2) in flow process, after the cycle fluid of condenser 6 is divided into the pressurization of two-way liquid circulation working medium boosted pump 9 Enter vaporizer 5, gaseous recycle working medium enters compressor 1 boosting and heats up；The cycle fluid entrance heater 4 of compressor 1 discharge, Heat release becomes in heated medium and condenses, and the liquid circulation working medium of heater 4 discharge is steamed through entering after choke valve 7 reducing pressure by regulating flow Send out device 5；The cycle fluid entering vaporizer 5 absorbs heat and vaporizes, and flows through decompressor 2 blood pressure lowering work done afterwards；What decompressor 2 discharged follows Ring working medium enters condenser 6 heat release partial condensation；The work(of decompressor 2 output is supplied to compressor 1 and booster 9 is used as power, Form Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 7 is realized in：

(1), in structure, it is mainly by compressor, decompressor, the hydraulic turbine, heater, vaporizer, condenser, the second expansion Machine and booster are formed；Compressor 1 has cycle fluid passage to connect with heater 4, and heater 4 also has cycle fluid passage warp The hydraulic turbine 3 is connected with vaporizer 5, and heater 4 also has cycle fluid passage to connect with the second decompressor 8, and the second decompressor 8 also has Cycle fluid passage is connected with vaporizer 5, and vaporizer 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also follows Ring working medium passage is connected with condenser 6, and condenser 6 also has cycle fluid passage to connect with compressor 1, and condenser 6 also has circulation The boosted pump of working medium passage 9 is connected with vaporizer 5, and heater 4 also has heated medium passage and ft connection, and vaporizer 5 is also There are heat source medium passage and ft connection, condenser 6 also has coolant guiding channel and ft connection, decompressor 2, the hydraulic turbine 3 and Second decompressor 8 connects compressor 1 and transmits power.

(2) in flow process, after the cycle fluid of condenser 6 is divided into the pressurization of two-way liquid circulation working medium boosted pump 9 Enter vaporizer 5, gaseous recycle working medium enters compressor 1 boosting and heats up；The cycle fluid of compressor 1 discharge enters heater 4, Heat release becomes and partial condensation in heated medium；The cycle fluid of heater 4 discharge is divided into two-way, and liquid circulation working medium flows through water Vaporizer 5 is entered, gaseous recycle working medium enters evaporation after flowing through the second decompressor 8 blood pressure lowering work done after turbine 3 blood pressure lowering work done Device 5；The cycle fluid entering vaporizer 5 absorbs heat and vaporizes, and flows through decompressor 2 blood pressure lowering work done afterwards；The circulation of decompressor 2 discharge Working medium enters condenser 6 heat release partial condensation；The work(of decompressor 2, the hydraulic turbine 3 and the second decompressor 8 output is supplied to compression Machine 1 is used as power, and forms Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 8 is realized in：

(1), in structure, it is mainly by compressor, decompressor, heater, vaporizer, condenser, choke valve, the second expansion Machine and booster are formed；Compressor 1 has cycle fluid passage to connect with heater 4, and heater 4 also has cycle fluid passage warp Choke valve 7 is connected with vaporizer 5, and heater 4 also has cycle fluid passage to connect with the second decompressor 8, and the second decompressor 8 also has Cycle fluid passage is connected with vaporizer 5, and vaporizer 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also follows Ring working medium passage is connected with condenser 6, and condenser 6 also has cycle fluid passage to connect with compressor 1, and condenser 6 also has circulation The boosted pump of working medium passage 9 is connected with vaporizer 5, and heater 4 also has heated medium passage and ft connection, and vaporizer 5 is also There are heat source medium passage and ft connection, condenser 6 also has coolant guiding channel and ft connection, decompressor 2 and the second expansion Machine 8 connects compressor 1 and transmits power.

(2) in flow process, after the cycle fluid of condenser 6 is divided into the pressurization of two-way liquid circulation working medium boosted pump 9 Enter vaporizer 5, gaseous recycle working medium enters compressor 1 boosting and heats up；The cycle fluid of compressor 1 discharge enters heater 4, Heat release becomes and partial condensation in heated medium；The cycle fluid of heater 4 discharge is divided into two-way, and liquid circulation working medium is through throttling Vaporizer 5 is entered, gaseous recycle working medium enters vaporizer after flowing through the second decompressor 8 blood pressure lowering work done after valve 7 reducing pressure by regulating flow 5；The cycle fluid entering vaporizer 5 absorbs heat and vaporizes, and flows through decompressor 2 blood pressure lowering work done afterwards；The circulation industrial of decompressor 2 discharge Matter enters condenser 6 heat release partial condensation；The work(of decompressor 2 and the second decompressor 8 output is supplied to compressor 1 and is used as power, Form Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 9 is realized in：

(1) in structure, in the compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 5, increase regenerator, heater 4 is followed Ring working medium passage is connected with vaporizer 5 through the hydraulic turbine 3 and is adjusted to heater 4 and has cycle fluid passage through regenerator 10 and the hydraulic turbine 3 are connected with vaporizer 5, vaporizer 5 is had cycle fluid passage to connect with decompressor 2 and is adjusted to vaporizer 5 and has cycle fluid to lead to Road is connected with decompressor 2 through regenerator 10.

(2), in flow process, compared with the compression heat pump workflow of Equations of The Second Kind thermal drivers shown in Fig. 5, increase or change The cycle fluid of heater 4 discharge that is performed such of flow process flow through regenerator 10 heat release successively, flow through the hydraulic turbine 3 Blood pressure lowering work done, enters vaporizer 5 afterwards；The cycle fluid of vaporizer 5 discharge flows through regenerator 10 and absorbs heat, and enters afterwards and expands Machine 2 blood pressure lowering work done, forms Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Figure 10 is realized in：

(1) in structure, in the compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 6, increase regenerator, heater 4 is followed Ring working medium passage is connected with vaporizer 5 through choke valve 7 and is adjusted to heater 4 and has cycle fluid passage through regenerator 10 and choke valve 7 are connected with vaporizer 5, vaporizer 5 is had cycle fluid passage to connect with decompressor 2 and is adjusted to vaporizer 5 and has cycle fluid to lead to Road is connected with decompressor 2 through regenerator 10.

(2), in flow process, compared with the compression heat pump workflow of Equations of The Second Kind thermal drivers shown in Fig. 6, increase or change The cycle fluid of heater 4 discharge that is performed such of flow process flow through regenerator 10 heat release successively, flow through choke valve 7 Reducing pressure by regulating flow, enters vaporizer 5 afterwards；The cycle fluid of vaporizer 5 discharge flows through regenerator 10 and absorbs heat, and enters afterwards and expands Machine 2 blood pressure lowering work done, forms Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Figure 11 is realized in：

(1) in structure, in the compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 2, increase regenerator, compressor 1 is followed Ring working medium passage is connected with heater 4 and is adjusted to compressor 1 and has cycle fluid passage to be connected with heater 4 through regenerator 10, will Vaporizer 5 have cycle fluid passage connect with decompressor 2 be adjusted to vaporizer 5 have cycle fluid passage through regenerator 10 with expand Machine 2 connects.

(2), in flow process, compared with the compression heat pump workflow of Equations of The Second Kind thermal drivers shown in Fig. 2, increase or change The cycle fluid of compressor 1 discharge that is performed such of flow process flow through regenerator 10 heat release, enter heater afterwards 4；The cycle fluid of vaporizer 5 discharge flows through regenerator 10 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards, forms Equations of The Second Kind Thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Figure 12 is realized in：

(1) in structure, in the compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 6, increase regenerator, compressor 1 is followed Ring working medium passage is connected with heater 4 and is adjusted to compressor 1 and has cycle fluid passage to be connected with heater 4 through regenerator 10, will Vaporizer 5 have cycle fluid passage connect with decompressor 2 be adjusted to vaporizer 5 have cycle fluid passage through regenerator 10 with expand Machine 2 connects.

(2), in flow process, compared with the compression heat pump workflow of Equations of The Second Kind thermal drivers shown in Fig. 6, increase or change The cycle fluid of compressor 1 discharge that is performed such of flow process flow through regenerator 10 heat release, enter heater afterwards 4；The cycle fluid of vaporizer 5 discharge flows through regenerator 10 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards, forms Equations of The Second Kind Thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Figure 13 is realized in：

(1) in structure, in the compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 6, regenerator and the second regenerator are increased, will Heater 4 has cycle fluid passage to connect with vaporizer 5 through choke valve 7 to be adjusted to heater 4 and have cycle fluid passage through backheat Device 10 is connected with vaporizer 5 with choke valve 7, compressor 1 is had cycle fluid passage to connect with heater 4 and is adjusted to compressor 1 There is cycle fluid passage to connect with heater 4 through the second regenerator 11, vaporizer 5 is had cycle fluid passage with decompressor 2 even Logical it is adjusted to vaporizer 5 and has cycle fluid passage to connect with decompressor 2 with the second regenerator 11 through regenerator 10.

(2), in flow process, compared with the compression heat pump workflow of Equations of The Second Kind thermal drivers shown in Fig. 6, increase or change The cycle fluid of compressor 1 discharge that is performed such of flow process flow through regenerator 10 heat release, enter heater afterwards 4；The cycle fluid of heater 4 discharge flows through regenerator 10 heat release successively, flows through choke valve 7 reducing pressure by regulating flow, enters afterwards and steams Send out device 5；The cycle fluid of vaporizer 5 discharge flows through regenerator 10 and the second regenerator 11 successively and progressively absorbs heat, and enters afterwards Decompressor 2 blood pressure lowering work done, forms Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Figure 14 is realized in：

(1) in structure, in the compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 6, increase regenerator, condenser 6 is followed Ring working medium passage is connected with compressor 1 and is adjusted to condenser 6 and has cycle fluid passage to be connected with compressor 1 through regenerator 10, will Heater 4 has cycle fluid passage to connect with vaporizer 5 through choke valve 7 to be adjusted to heater 4 and have cycle fluid passage through backheat Device 10 is connected with vaporizer 5 with choke valve 7.

(2), in flow process, compared with the compression heat pump workflow of Equations of The Second Kind thermal drivers shown in Fig. 6, increase or change The liquid circulation working medium of heater 4 discharge that is performed such of flow process flow through regenerator 10 heat release successively, flow through section Stream valve 7 reducing pressure by regulating flow, enters vaporizer 5 afterwards；The gaseous recycle working medium of condenser 6 discharge flows through regenerator 10 and absorbs heat, it Enter compressor 1 boosting intensification afterwards and form Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Figure 15 is realized in：

(1) in structure, in the compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 6, cancel choke valve, increase regenerator and the Two regenerators, heater 4 are had cycle fluid passage to connect with vaporizer 5 through choke valve 7 and are adjusted to heater 4 and have cycle fluid Passage is connected with vaporizer 5 with the second regenerator 11 through regenerator 10, and condenser 6 is had cycle fluid passage with compressor 1 even Logical be adjusted to condenser 6 and have cycle fluid passage to connect with compressor 1 through the second regenerator 11, vaporizer 5 is had cycle fluid Passage is connected with decompressor 2 and is adjusted to vaporizer 5 and has cycle fluid passage to be connected with decompressor 2 through regenerator 10.

(2), in flow process, compared with the compression heat pump workflow of Equations of The Second Kind thermal drivers shown in Fig. 6, increase or change Flow process be performed such heater 4 discharge liquid circulation working medium flow through regenerator 10 and the second regenerator 11 successively And progressively heat release, enter vaporizer 5 afterwards；Condenser 6 discharge gaseous recycle working medium flow through regenerator 10 and absorb heat, laggard Enter compressor 1 boosting to heat up；The cycle fluid of vaporizer 5 discharge flows through regenerator 10 and absorbs heat, and enters decompressor 2 blood pressure lowering afterwards Work done, forms Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Figure 16 is realized in：

(1) in structure, in the compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 6, increase by the second compressor, by compressor 1 There is cycle fluid passage to connect with heater 4 and heater 4 has cycle fluid passage to connect adjustment through choke valve 7 with vaporizer 5 Cycle fluid passage is had to connect with the second compressor 12 through heater 4 for compressor 1, the second compressor 12 has cycle fluid to lead to again Road is connected with vaporizer 5 with choke valve 7 through heater 4, and decompressor 2 connects the second compressor 12 and transmits power.

(2), in flow process, compared with the compression heat pump workflow of Equations of The Second Kind thermal drivers shown in Fig. 6, increase or change Flow process be performed such contracting machine 1 discharge cycle fluid flow through heater 5 heat release after enter the second compressor 12 Boosting heats up, and the cycle fluid of the second compressor 12 discharge flows through heater 4 exothermic condensation；Liquid circulation working medium flows through throttling Valve 7 reducing pressure by regulating flow, enters vaporizer 5 afterwards, forms Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Figure 17 is realized in：

(1) in structure, in the compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 5, the second compressor, the second heater are increased With the newly-increased hydraulic turbine, compressor 1 there is is cycle fluid passage to connect with heater 4 and is adjusted to compressor 1 and has cycle fluid passage Connect with the second heater 13, the second heater 13 also has cycle fluid passage to connect with the second compressor 12, the second compressor 12 have cycle fluid passage to connect with heater 4 again, and the second heater 13 also has cycle fluid passage through newly-increased hydraulic turbine A and steaming Send out device 5 to connect, the second heater 13 also has heated medium passage and ft connection, decompressor 2 and newly-increased hydraulic turbine A to connect the Two compressors 12 simultaneously transmit power.

(2), in flow process, compared with the compression heat pump workflow of Equations of The Second Kind thermal drivers shown in Fig. 5, increase or change The cycle fluid of compressor 1 discharge that is performed such of flow process enter the second heater 13 heat release partial condensation, the The gaseous recycle working medium of two heater 13 discharge flows through the second compressor 2 boosting and heats up, and enters heater 4 afterwards；Second heat supply The liquid circulation working medium of device 13 discharge flows through newly-increased hydraulic turbine A blood pressure lowering work done, enters vaporizer 5 afterwards；Decompressor 2 and newly surging Turbine A provides power to the second compressor 12, forms Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Figure 18 is realized in：

(1) in structure, in the compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 5, the second compressor, the second heater are increased With the newly-increased hydraulic turbine, condenser 6 set up cycle fluid passage and connected with the second compressor 12, and the second compressor 12 also has circulation industrial Matter passage is connected with the second heater 13, and the second heater 13 also has cycle fluid passage through newly-increased hydraulic turbine A with vaporizer 5 even Logical, the second heater 13 also has heated medium passage and ft connection, decompressor 2 and newly-increased hydraulic turbine A to connect the second compression Machine 12 simultaneously transmits power.

(2), in flow process, compared with the compression heat pump workflow of Equations of The Second Kind thermal drivers shown in Fig. 5, increase or change Flow process be performed such condenser 6 discharge cycle fluid be divided into three tunnels, the boosted pump of liquid circulation working medium 9 pressurizes Enter vaporizer 5 afterwards, a part of gaseous recycle working medium flows through after compressor 1 boosting heats up and enters heater 4, then a part Gaseous recycle working medium enters the second compressor 12 boosting and heats up；The cycle fluid of the second compressor 12 discharge enters the second heater 13 heat releases simultaneously condense, and the liquid circulation working medium of the second heater 13 discharge enters after flowing through newly-increased hydraulic turbine A blood pressure lowering work done steams Send out device 5；Decompressor 2 and newly-increased hydraulic turbine A provide power to the second compressor 12, form Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Figure 19 is realized in：

(1) in structure, in the compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 5, the second decompressor, the second vaporizer are increased With newly-increased choke valve, vaporizer 5 sets up cycle fluid passage and connects with the second vaporizer 15 through newly-increased choke valve B, and second evaporates Device 15 also has cycle fluid passage to connect with the second decompressor 8, and the second decompressor 8 also has cycle fluid passage with condenser 6 even Logical, the second vaporizer 15 also has heat source medium passage and ft connection, and the second decompressor 8 connects compressor 1 and transmits power.

(2), in flow process, compared with the compression heat pump workflow of Equations of The Second Kind thermal drivers shown in Fig. 5, increase or change The liquid circulation working medium heat absorption of entrance vaporizer 5 that is performed such of flow process and part vaporize, the gaseous state of vaporizer 5 follows Ring working medium flows through decompressor 2 blood pressure lowering work done, and the liquid circulation working medium of vaporizer 5 enters through after newly-increased choke valve B reducing pressure by regulating flow Second vaporizer 15；Heat source medium flows through the second vaporizer 15, and heating enters its interior liquid circulation working medium and becomes steam；Second steaming The cycle fluid sending out device 15 discharge flows through the second decompressor 8 blood pressure lowering work done, enters condenser 6 exothermic condensation afterwards；Second expansion The work(of machine 8 output is supplied to compressor 1 and is used as power, and forms Equations of The Second Kind thermal drivers compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Figure 20 is realized in：

(1) in structure, in the compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 5, the second decompressor, the second booster are increased With the second condenser, vaporizer 5 set up cycle fluid passage and connected with the second decompressor 8, and the second decompressor 8 also has cycle fluid Passage is connected with the second condenser 16, and the second condenser 16 also has cycle fluid passage through the second booster 14 with vaporizer 5 even Logical, the second condenser 16 also has coolant guiding channel and ft connection, and the second decompressor 8 connects compressor 1 and the second booster 14 and transmit power.

(2), in flow process, compared with the compression heat pump workflow of Equations of The Second Kind thermal drivers shown in Fig. 5, increase or change Flow process be performed such vaporizer 5 discharge cycle fluid be divided into two-way, the first via flows through decompressor 2 blood pressure lowering work done Enter condenser 6 afterwards, the second road enters the second condenser 16 after flowing through the second decompressor 8 blood pressure lowering work done；Enter second cold The cycle fluid heat release of condenser 16 in cooling medium and condenses, and the cycle fluid of the second condenser 16 pressurizes through the second booster 14 Enter vaporizer 5；The work(of the second decompressor 8 output is supplied to compressor 1 and the second booster 14 is used as power, and forms Equations of The Second Kind heat Drive compression heat pump.

The compression heat pump of Equations of The Second Kind thermal drivers shown in Figure 21 is realized in：

(1) in structure, in the compression heat pump of Equations of The Second Kind thermal drivers shown in Fig. 5, the second decompressor, the second compression are increased Machine, the second booster and the second condenser, vaporizer 5 is set up cycle fluid passage and is connected with the second decompressor 8, the second decompressor 8 also have cycle fluid passage to connect with the second condenser 16, and the second condenser 16 also has cycle fluid passage and the second compressor 12 connections, the second compressor 12 also has cycle fluid passage to connect with heater 4, and the second condenser 16 also has cycle fluid passage Connect with vaporizer 5 through the second booster 14, the second condenser 16 also has coolant guiding channel and ft connection, decompressor 2 He Second decompressor 8 connects compressor 1 and the second compressor 12 and transmits power.

(2), in flow process, compared with the compression heat pump workflow of Equations of The Second Kind thermal drivers shown in Fig. 5, increase or change Flow process be performed such vaporizer 5 discharge cycle fluid be divided into two-way, the first via flows through decompressor 2 blood pressure lowering work done Enter condenser 6 afterwards, the second road enters the second condenser 16 after flowing through the second decompressor 8 blood pressure lowering work done；Enter second cold The cycle fluid heat release of condenser 16 is in cooling medium and partial condensation；The gaseous recycle working medium of the second condenser 16 discharge flows through the Two compressor 12 boosting heats up, and enters heater 4 afterwards；Second condenser 16 discharge liquid cycle fluid is through the second booster 14 Vaporizer 5 is entered after pressurization；Decompressor 2 and the second decompressor 8 provide power to compressor 1 and the second compressor 12 simultaneously, Form Equations of The Second Kind thermal drivers compression heat pump.

Effect that the technology of the present invention can be realized Equations of The Second Kind thermal drivers compression heat pump proposed by the invention, has Following effect and advantage：

(1) heat energy (temperature difference) drives, and realizes heat generating temperature lifting, or may be selected externally to provide power simultaneously.

(2) flow process rationally, is capable of the abundant of heat energy (temperature difference) and efficient utilization.

(3) if necessary, or by portion of external power realize heat generating temperature lifting, flexibly, adaptability is good for mode.

(4) with compressor, decompressor and heat exchanger for compression heat pump building block, structure is simple.

(5) the working medium range of choice is wide, can mate with running parameter in various temperature scope endoadaptation heat demand, working medium Flexibly.

(6) single working medium is can be utilized to complete two-way heating power circulation, operating cost is low.

(7) conversion between heat energy and mechanical energy, dual-use are realized while carrying out efficient heat supply, purposes is wide.

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

(9) extend heat pump techniques, enrich the type of compression heat pump, be conducive to being better achieved the efficient profit of heat energy With.

Claims (28)

1. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, heater, vaporizer and condenser Formed；Compressor (1) has cycle fluid passage to connect with heater (4), and heater (4) also has cycle fluid passage through water wheels Machine (3) is connected with vaporizer (5), and vaporizer (5) also has cycle fluid passage to connect with decompressor (2), and decompressor (2) also follows Ring working medium passage is connected with condenser (6), and condenser (6) also has cycle fluid passage to connect with compressor (1), heater (4) Also have heated medium passage and ft connection, vaporizer (5) also has heat source medium passage and ft connection, condenser (6) is also There are coolant guiding channel and ft connection, decompressor (2) and the hydraulic turbine (3) to connect compressor (1) and transmit power, form second Class thermal drivers compression heat pump.

2. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, heater, vaporizer, condenser and choke valve Formed；Compressor (1) has cycle fluid passage to connect with heater (4), and heater (4) also has cycle fluid passage through throttling Valve (7) is connected with vaporizer (5), and vaporizer (5) also has cycle fluid passage to connect with decompressor (2), and decompressor (2) also follows Ring working medium passage is connected with condenser (6), and condenser (6) also has cycle fluid passage to connect with compressor (1), heater (4) Also have heated medium passage and ft connection, vaporizer (5) also has heat source medium passage and ft connection, condenser (6) is also There are coolant guiding channel and ft connection, decompressor (2) connects compressor (1) and transmits power, form Equations of The Second Kind thermal drivers pressure Contracting formula heat pump.

3. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, heater, vaporizer, condenser Formed with the second decompressor；Compressor (1) has cycle fluid passage to connect with heater (4), and heater (4) also has circulation industrial Matter passage is connected with vaporizer (5) through the hydraulic turbine (3), and heater (4) also has cycle fluid passage and the second decompressor (8) even Logical, the second decompressor (8) also has cycle fluid passage to connect with vaporizer (5), vaporizer (5) also cycle fluid passage with swollen Swollen machine (2) connection, decompressor (2) also has cycle fluid passage to connect with condenser (6), and condenser (6) also has cycle fluid to lead to Road is connected with compressor (1), and heater (4) also has heated medium passage and ft connection, and vaporizer (5) also has heat source medium Passage and ft connection, condenser (6) also has coolant guiding channel and ft connection, decompressor (2), the hydraulic turbine (3) and second Decompressor (8) connects compressor (1) and transmits power, forms Equations of The Second Kind thermal drivers compression heat pump.

4. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, heater, vaporizer, condenser, choke valve Formed with the second decompressor；Compressor (1) has cycle fluid passage to connect with heater (4), and heater (4) also has circulation industrial Matter passage is connected with vaporizer (5) through choke valve (7), and heater (4) also has cycle fluid passage and the second decompressor (8) even Logical, the second decompressor (8) also has cycle fluid passage to connect with vaporizer (5), vaporizer (5) also cycle fluid passage with swollen Swollen machine (2) connection, decompressor (2) also has cycle fluid passage to connect with condenser (6), and condenser (6) also has cycle fluid to lead to Road is connected with compressor (1), and heater (4) also has heated medium passage and ft connection, and vaporizer (5) also has heat source medium Passage and ft connection, condenser (6) also has coolant guiding channel and ft connection, decompressor (2) and the second decompressor (8) even Connect compressor (1) and transmit power, form Equations of The Second Kind thermal drivers compression heat pump.

5. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, heater, vaporizer, condenser Formed with booster；Compressor (1) has cycle fluid passage to connect with heater (4), and heater (4) also has cycle fluid to lead to Road is connected with vaporizer (5) through the hydraulic turbine (3), and vaporizer (5) also has cycle fluid passage to connect with decompressor (2), decompressor (2) cycle fluid passage is also had to connect with condenser (6), condenser (6) also has cycle fluid passage to connect with compressor (1), Condenser (6) also has the boosted pump of cycle fluid passage (9) to connect with vaporizer (5), and heater (4) also has heated medium to lead to Road and ft connection, vaporizer (5) also have heat source medium passage and ft connection, condenser (6) also have coolant guiding channel with Ft connection, decompressor (2) and the hydraulic turbine (3) connect compressor (1) and transmit power, form Equations of The Second Kind thermal drivers compression type heat Pump；Wherein, or decompressor (2) and the hydraulic turbine (3) connect compressor (1) and booster (9) and transmit power.

6. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, heater, vaporizer, condenser, choke valve Formed with booster；Compressor (1) has cycle fluid passage to connect with heater (4), and heater (4) also has cycle fluid to lead to Road is connected with vaporizer (5) through choke valve (7), and vaporizer (5) also has cycle fluid passage to connect with decompressor (2), decompressor (2) cycle fluid passage is also had to connect with condenser (6), condenser (6) also has cycle fluid passage to connect with compressor (1), Condenser (6) also has the boosted pump of cycle fluid passage (9) to connect with vaporizer (5), and heater (4) also has heated medium to lead to Road and ft connection, vaporizer (5) also have heat source medium passage and ft connection, condenser (6) also have coolant guiding channel with Ft connection, decompressor (2) connects compressor (1) and transmits power, forms Equations of The Second Kind thermal drivers compression heat pump；Wherein, or Decompressor (2) connects compressor (1) and booster (9) and transmits power.

7. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, heater, vaporizer, condenser, Second decompressor and booster are formed；Compressor (1) has cycle fluid passage to connect with heater (4), and heater (4) also has Cycle fluid passage is connected with vaporizer (5) through the hydraulic turbine (3), and heater (4) also has cycle fluid passage and the second decompressor (8) connect, the second decompressor (8) also has cycle fluid passage to connect with vaporizer (5), vaporizer (5) also has cycle fluid to lead to Road is connected with decompressor (2), and decompressor (2) also has cycle fluid passage to connect with condenser (6), and condenser (6) also has circulation Working medium passage is connected with compressor (1), and condenser (6) also has the boosted pump of cycle fluid passage (9) to connect with vaporizer (5), Heater (4) also has heated medium passage and ft connection, and vaporizer (5) also has heat source medium passage and ft connection, cold Condenser (6) also has coolant guiding channel and ft connection, and decompressor (2), the hydraulic turbine (3) and the second decompressor (8) connect compression Machine (1) simultaneously transmits power, forms Equations of The Second Kind thermal drivers compression heat pump；Wherein, or decompressor (2), the hydraulic turbine (3) and second are swollen Swollen machine (8) connects compressor (1) and booster (9) and transmits power.

8. Equations of The Second Kind thermal drivers compression heat pump, mainly by compressor, decompressor, heater, vaporizer, condenser, choke valve, Second decompressor and booster are formed；Compressor (1) has cycle fluid passage to connect with heater (4), and heater (4) also has Cycle fluid passage is connected with vaporizer (5) through choke valve (7), and heater (4) also has cycle fluid passage and the second decompressor (8) connect, the second decompressor (8) also has cycle fluid passage to connect with vaporizer (5), vaporizer (5) also has cycle fluid to lead to Road is connected with decompressor (2), and decompressor (2) also has cycle fluid passage to connect with condenser (6), and condenser (6) also has circulation Working medium passage is connected with compressor (1), and condenser (6) also has the boosted pump of cycle fluid passage (9) to connect with vaporizer (5), Heater (4) also has heated medium passage and ft connection, and vaporizer (5) also has heat source medium passage and ft connection, cold Condenser (6) also has coolant guiding channel and ft connection, decompressor (2) and the second decompressor (8) to connect compressor (1) and transmit Power, forms Equations of The Second Kind thermal drivers compression heat pump；Wherein, or decompressor (2) and the second decompressor (8) connect compressor (1) With booster (9) and transmit power.

9. Equations of The Second Kind thermal drivers compression heat pump, is in Equations of The Second Kind thermal drivers compression type heat arbitrary described in claim 1,3,5,7 In pump, increase regenerator, heater (4) is had cycle fluid passage to connect with vaporizer (5) through the hydraulic turbine (3) and is adjusted to heat supply Device (4) has cycle fluid passage to connect with vaporizer (5) with the hydraulic turbine (3) through regenerator (10), and vaporizer (5) is had circulation industrial Matter passage is connected with decompressor (2) and is adjusted to vaporizer (5) and has cycle fluid passage through regenerator (10) and decompressor (2) even Logical, form Equations of The Second Kind thermal drivers compression heat pump.

10. Equations of The Second Kind thermal drivers compression heat pump, is in Equations of The Second Kind thermal drivers compression type heat arbitrary described in claim 2,4,6,8 In pump, increase regenerator, heater (4) is had cycle fluid passage to connect with vaporizer (5) through choke valve (7) and is adjusted to heat supply Device (4) has cycle fluid passage to connect with vaporizer (5) with choke valve (7) through regenerator (10), and vaporizer (5) is had circulation industrial Matter passage is connected with decompressor (2) and is adjusted to vaporizer (5) and has cycle fluid passage through regenerator (10) and decompressor (2) even Logical, form Equations of The Second Kind thermal drivers compression heat pump.

11. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression heat pump arbitrary described in claim 1-8 In, increase regenerator, compressor (1) is had cycle fluid passage to connect with heater (4) and is adjusted to compressor (1) and has circulation industrial Matter passage is connected with heater (4) through regenerator (10), and vaporizer (5) is had cycle fluid passage to connect tune with decompressor (2) Whole have cycle fluid passage to connect with decompressor (2) through regenerator (10) for vaporizer (5), forms Equations of The Second Kind thermal drivers compression Heat pump.

12. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression type heat arbitrary described in claim 1,3,5,7 In pump, increase regenerator and the second regenerator, heater (4) is had cycle fluid passage through the hydraulic turbine (3) with vaporizer (5) even Logical be adjusted to heater (4) and have cycle fluid passage to connect with vaporizer (5) with the hydraulic turbine (3) through regenerator (10), will compress Machine (1) has cycle fluid passage to connect with heater (4) to be adjusted to compressor (1) and have cycle fluid passage through the second regenerator (11) connect with heater (4), vaporizer (5) is had cycle fluid passage to connect with decompressor (2) and is adjusted to vaporizer (5) and has Cycle fluid passage is connected with decompressor (2) with the second regenerator (11) through regenerator (10), forms the compression of Equations of The Second Kind thermal drivers Formula heat pump.

13. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression type heat arbitrary described in claim 2,4,6,8 In pump, increase regenerator and the second regenerator, heater (4) is had cycle fluid passage through choke valve (7) with vaporizer (5) even Logical be adjusted to heater (4) and have cycle fluid passage to connect with vaporizer (5) with choke valve (7) through regenerator (10), will compress Machine (1) has cycle fluid passage to connect with heater (4) to be adjusted to compressor (1) and have cycle fluid passage through the second regenerator (11) connect with heater (4), vaporizer (5) is had cycle fluid passage to connect with decompressor (2) and is adjusted to vaporizer (5) and has Cycle fluid passage is connected with decompressor (2) with the second regenerator (11) through regenerator (10), forms the compression of Equations of The Second Kind thermal drivers Formula heat pump.

14. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression type heat arbitrary described in claim 1,3,5,7 In pump, increase regenerator, condenser (6) is had cycle fluid passage to connect with compressor (1) and is adjusted to condenser (6) and has circulation Working medium passage is connected with compressor (1) through regenerator (10), and heater (4) is had cycle fluid passage through the hydraulic turbine (3) and steaming Sending out device (5) connection and being adjusted to heater (4) has cycle fluid passage through regenerator (10) and the hydraulic turbine (3) and vaporizer (5) company Logical, form Equations of The Second Kind thermal drivers compression heat pump.

15. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression type heat arbitrary described in claim 2,4,6,8 In pump, increase regenerator, condenser (6) is had cycle fluid passage to connect with compressor (1) and is adjusted to condenser (6) and has circulation Working medium passage is connected with compressor (1) through regenerator (10), and heater (4) is had cycle fluid passage through choke valve (7) and steaming Sending out device (5) connection and being adjusted to heater (4) has cycle fluid passage through regenerator (10) and choke valve (7) and vaporizer (5) company Logical, form Equations of The Second Kind thermal drivers compression heat pump.

16. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression type heat arbitrary described in claim 1,3,5,7 In pump, increase regenerator and the second regenerator, heater (4) is had cycle fluid passage through the hydraulic turbine (3) with vaporizer (5) even Logical it is adjusted to heater (4) and has cycle fluid passage through regenerator (10), the second regenerator (11) and the hydraulic turbine (3) and vaporizer (5) connect, condenser (6) is had cycle fluid passage to connect with compressor (1) and is adjusted to condenser (6) and has cycle fluid passage Connect with compressor (1) through the second regenerator (11), vaporizer (5) is had cycle fluid passage to connect adjustment with decompressor (2) There is cycle fluid passage to connect with decompressor (2) through regenerator (10) for vaporizer (5), form Equations of The Second Kind thermal drivers compression type heat Pump.

17. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression type heat arbitrary described in claim 2,4,6,8 In pump, cancel choke valve, increase regenerator and the second regenerator, by heater (4) have cycle fluid passage through choke valve (7) with Vaporizer (5) connection is adjusted to heater (4) has cycle fluid passage through regenerator (10) and the second regenerator (11) and evaporation Device (5) connects, and condenser (6) is had cycle fluid passage to connect with compressor (1) and is adjusted to condenser (6) and has cycle fluid logical Road second regenerator (11) is connected with compressor (1), and vaporizer (5) is had cycle fluid passage to connect tune with decompressor (2) Whole have cycle fluid passage to connect with decompressor (2) through regenerator (10) for vaporizer (5), forms Equations of The Second Kind thermal drivers compression Heat pump.

18. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression heat pump arbitrary described in claim 1-8 In, increase by the second compressor, compressor (1) is had cycle fluid passage to connect with heater (4) and is adjusted to compressor (1) and follows Ring working medium passage is connected with the second compressor (12) through heater (4), and the second compressor (12) has cycle fluid passage and confession again Hot device (4) connection, decompressor (2) connects the second compressor (12) and transmits power, forms Equations of The Second Kind thermal drivers compression heat pump.

19. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression heat pump arbitrary described in claim 5-6 In, increase the second compressor, the second heater and the newly-increased hydraulic turbine, compressor (1) is had cycle fluid passage and heater (4) Connection is adjusted to compressor (1) has cycle fluid passage to connect with the second heater (13), and the second heater (13) also has circulation Working medium passage is connected with the second compressor (12), and the second compressor (12) has cycle fluid passage to connect with heater (4) again, the Two heaters (13) also have cycle fluid passage to connect with vaporizer (5) through the newly-increased hydraulic turbine (A), and the second heater (13) also has Heated medium passage and ft connection, decompressor (2) and the newly-increased hydraulic turbine (A) connect the second compressor (12) and transmit dynamic Power, forms Equations of The Second Kind thermal drivers compression heat pump.

20. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression heat pump arbitrary described in claim 5-6 In, increase the second compressor, the second heater and newly-increased choke valve, compressor (1) is had cycle fluid passage and heater (4) Connection is adjusted to compressor (1) has cycle fluid passage to connect with the second heater (13), and the second heater (13) also has circulation Working medium passage is connected with the second compressor (12), and the second compressor (12) has cycle fluid passage to connect with heater (4) again, the Two heaters (13) also have cycle fluid passage to connect with vaporizer (5) through newly-increased choke valve (B), and the second heater (13) also has Heated medium passage and ft connection, decompressor (2) connects the second compressor (12) and transmits power, forms Equations of The Second Kind heat and drives Dynamic compression heat pump.

21. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression heat pump arbitrary described in claim 5-6 In, increase the second compressor, the second heater and the newly-increased hydraulic turbine, condenser (6) sets up cycle fluid passage and the second compression Machine (12) connects, and the second compressor (12) also has cycle fluid passage to connect with the second heater (13), the second heater (13) Cycle fluid passage is also had to connect with vaporizer (5) through the newly-increased hydraulic turbine (A), the second heater (13) also has heated medium to lead to Road and ft connection, decompressor (2) and the newly-increased hydraulic turbine (A) connect the second compressor (12) and transmit power, form Equations of The Second Kind Thermal drivers compression heat pump.

22. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression heat pump arbitrary described in claim 5-6 In, increase the second compressor, the second heater and newly-increased choke valve, condenser (6) sets up cycle fluid passage and the second compression Machine (12) connects, and the second compressor (12) also has cycle fluid passage to connect with the second heater (13), the second heater (13) Cycle fluid passage is also had to connect with vaporizer (5) through newly-increased choke valve (B), the second heater (13) also has heated medium to lead to Road and ft connection, decompressor (2) connects the second compressor (12) and transmits power, forms Equations of The Second Kind thermal drivers compression type heat Pump.

23. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression heat pump arbitrary described in claim 5-6 In, increase the second decompressor, the second vaporizer and newly-increased choke valve, vaporizer (5) sets up cycle fluid passage through newly-increased throttling Valve (B) is connected with the second vaporizer (15), and the second vaporizer (15) also has cycle fluid passage to connect with the second decompressor (8), Second decompressor (8) also has cycle fluid passage connect with condenser (6), the second vaporizer (15) also heat source medium passage and Ft connection, the second decompressor (8) connects compressor (1) and transmits power, forms Equations of The Second Kind thermal drivers compression heat pump.

24. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression heat pump arbitrary described in claim 5-6 In, increase the second decompressor, the second vaporizer and the second booster, vaporizer (5) sets up cycle fluid passage through the second boosting Pump (14) is connected with the second vaporizer (15), and the second vaporizer (15) also has cycle fluid passage to connect with the second decompressor (8), Second decompressor (8) also has cycle fluid passage connect with condenser (6), the second vaporizer (15) also heat source medium passage and Ft connection, the second decompressor (8) connects compressor (1) and transmits power or the second decompressor (8) and connect compressor (1) and the Two boosters (14) simultaneously transmit power, form Equations of The Second Kind thermal drivers compression heat pump.

25. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression heat pump arbitrary described in claim 5-6 In, increase the second decompressor, the second booster and the second condenser, vaporizer (5) sets up cycle fluid passage and the second expansion Machine (8) connects, and the second decompressor (8) also has cycle fluid passage to connect with the second condenser (16), and the second condenser (16) is also Cycle fluid passage is had to connect with vaporizer (5) through the second booster (14), the second condenser (16) also has coolant guiding channel With ft connection, the second decompressor (8) connect compressor (1) and transmit power or the second decompressor (8) connect compressor (1) and Second booster (14) simultaneously transmits power, forms Equations of The Second Kind thermal drivers compression heat pump.

26. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression heat pump arbitrary described in claim 5-6 In, increase the second decompressor, the second compressor, the second booster and the second condenser, cycle fluid passage set up by vaporizer (5) Connect with the second decompressor (8), the second decompressor (8) also has cycle fluid passage to connect with the second condenser (16), and second is cold Condenser (16) also has cycle fluid passage connect with the second compressor (12), the second compressor (12) also cycle fluid passage and Heater (4) connects, and the second condenser (16) also has cycle fluid passage to connect with vaporizer (5) through the second booster (14), Second condenser (16) also has coolant guiding channel and ft connection, decompressor (2) and the second decompressor (8) to connect compressor (1) and the second compressor (12) simultaneously transmits power, forms Equations of The Second Kind thermal drivers compression heat pump；Wherein, or decompressor (2) and Two decompressors (8) connect compressor (1), the second compressor (12) and the second booster (14) and transmit power.

27. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression heat pump arbitrary described in claim 1-26 In, increase engine, engine connects compressor (1) and provides power to compressor (1), forms additional external power-actuated Equations of The Second Kind thermal drivers compression heat pump.

28. Equations of The Second Kind thermal drivers compression heat pumps, are in Equations of The Second Kind thermal drivers compression heat pump arbitrary described in claim 1-26 In, increase working machine, decompressor (2) connects working machine and provides power to working machine, being formed to add externally provides living load Equations of The Second Kind thermal drivers compression heat pump.