CN106440509A - Third-class thermally driven compression heat pump - Google Patents
Third-class thermally driven compression heat pump Download PDFInfo
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- CN106440509A CN106440509A CN201610814960.0A CN201610814960A CN106440509A CN 106440509 A CN106440509 A CN 106440509A CN 201610814960 A CN201610814960 A CN 201610814960A CN 106440509 A CN106440509 A CN 106440509A
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- decompressor
- condenser
- cycle fluid
- temperature
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B30/00—Heat pumps
- F25B30/02—Heat pumps of the compression type
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Abstract
The invention provides a third-class thermally driven compression heat pump, and belongs to the technical field of power, refrigeration and heat pumps. A low temperature condenser communicates with a high temperature heat exchanger through a cycle fluid channel via a compressor. The low temperature condenser further communicates with the high temperature heat exchanger through the cycle fluid channel via a booster pump and communicates with an evaporator via a second booster pump. The high temperature heat exchanger further communicates with a high temperature condenser through a cycle fluid channel via an expansion machine. The high temperature condenser further communicates with the evaporator through a cycle fluid channel via a throttling valve. The evaporator further communicates with the low temperature condenser through a cycle fluid channel via a second expansion machine. The high temperature heat exchanger further communicates with the outside through a high temperature thermal medium channel. The high temperature condenser further communicates with the outside through a heated medium channel. The evaporator further communicates with the outside through a low temperature thermal medium channel. The low temperature condenser further communicates with the outside through a cooling medium channel. The expansion machine and the second expansion machine are connected with the compressor and used for transmitting power, and accordingly the third-class thermally driven compression heat pump is formed.
Description
Technical field:
The invention belongs to power, heat supply and technical field of heat pumps.
Background technology:
Cold demand, heat demand and power demand, central with production common by human lives;In reality, people often need
To realize refrigeration, heat supply using high temperature heat or be converted into power it is also desirable to being freezed using power or being utilized power
And carry out heat supply with reference to low temperature heat energy.During stating purpose in realization, many considerations will be faced or condition will limit, bag
Include type, grade and the quantity of the energy, the type of user's request, grade and quantity, ambient temperature, the type of working media, if
Standby flow process, structure Manufacturing cost etc..
Heat energy (temperature difference) with absorption heat pump technology as representative utilizes technology, can be simultaneously by middle warm load and cold ring
The temperature difference between the temperature difference between border and high warm load and heated medium is used simultaneously, negative to realize different temperatures heat
The efficient utilization of lotus.But because the property by working media (solution and refrigerant medium) is affected, again cannot be real while heat supply
To mechanical transformation of energy, its application and range of application are subject to larger restriction to existing heat energy.
The present invention from simultaneously by the temperature difference between middle warm load and cold environment, and high warm load and heated medium it
Between the temperature difference carry out efficient utilization be starting point it is also considered that to simultaneously utilize power drive, or consider take into account power demand it is proposed that
There is vapor compression types the 3rd class thermal drivers compression heat pump of quick-reading flow sheets and structure.
Content of the invention:
Present invention is primarily intended to the 3rd class thermal drivers compression heat pump will be provided, concrete content of the invention subitem illustrates such as
Under:
1. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, the second decompressor, high warm
Exchanger, warm condenser, vaporizer and low-temperature condenser are formed;Compressor has cycle fluid passage and high-temperature heat exchanger
Connection, high-temperature heat exchanger also has cycle fluid passage to connect with decompressor, and decompressor also has cycle fluid passage and high temperature cold
Condenser connects, and warm condenser also has cycle fluid passage to connect with vaporizer through the hydraulic turbine, and vaporizer also has cycle fluid to lead to
Road is connected with the second decompressor, and the second decompressor also has cycle fluid passage to connect with low-temperature condenser, and low-temperature condenser also has
Cycle fluid passage is connected with compressor, and high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, warm condenser
Also have heated medium passage and ft connection, vaporizer also has low-temperature heat medium passage and ft connection, and low-temperature condenser is also
There are coolant guiding channel and a ft connection, decompressor, the hydraulic turbine and the second decompressor connect compressor and simultaneously transmit power, form the
Three class thermal drivers compression heat pumps.
2. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger,
Warm condenser, vaporizer, low-temperature condenser and choke valve are formed;Compressor has cycle fluid passage and high-temperature heat exchanger
Connection, high-temperature heat exchanger also has cycle fluid passage to connect with decompressor, and decompressor also has cycle fluid passage and high temperature cold
Condenser connects, and warm condenser also has cycle fluid passage to connect with vaporizer through choke valve, and vaporizer also has cycle fluid to lead to
Road is connected with the second decompressor, and the second decompressor also has cycle fluid passage to connect with low-temperature condenser, and low-temperature condenser also has
Cycle fluid passage is connected with compressor, and high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, warm condenser
Also have heated medium passage and ft connection, vaporizer also has low-temperature heat medium passage and ft connection, and low-temperature condenser is also
There are coolant guiding channel and ft connection, decompressor and the second decompressor to connect compressor and transmit power, form the 3rd class heat
Drive compression heat pump.
3. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, the second decompressor, high warm
Exchanger, warm condenser, vaporizer, low-temperature condenser and booster are formed;Low-temperature condenser have cycle fluid passage with
Compressor connects, and compressor also has cycle fluid passage to connect with high-temperature heat exchanger, and low-temperature condenser also has cycle fluid to lead to
The boosted pump in road is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage to connect with decompressor, decompressor
Cycle fluid passage is also had to connect with warm condenser, warm condenser also has cycle fluid passage through the hydraulic turbine with vaporizer even
Logical, vaporizer also has cycle fluid passage to connect with the second decompressor, and the second decompressor also has cycle fluid passage and low temperature cold
Condenser connects, and high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium to lead to
Road and ft connection, vaporizer also has low-temperature heat medium passage and ft connection, low-temperature condenser also have coolant guiding channel with
Ft connection, decompressor, the hydraulic turbine and the second decompressor connect compressor and transmit power, form the 3rd class thermal drivers compression
Heat pump;Wherein, or decompressor, the hydraulic turbine and the second decompressor connect compressor and booster and transmit power.
4. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger,
Warm condenser, vaporizer, low-temperature condenser, choke valve and booster are formed;Low-temperature condenser have cycle fluid passage with
Compressor connects, and compressor also has cycle fluid passage to connect with high-temperature heat exchanger, and low-temperature condenser also has cycle fluid to lead to
The boosted pump in road is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage to connect with decompressor, decompressor
Cycle fluid passage is also had to connect with warm condenser, warm condenser also has cycle fluid passage through choke valve with vaporizer even
Logical, vaporizer also has cycle fluid passage to connect with the second decompressor, and the second decompressor also has cycle fluid passage and low temperature cold
Condenser connects, and high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium to lead to
Road and ft connection, vaporizer also has low-temperature heat medium passage and ft connection, low-temperature condenser also have coolant guiding channel with
Ft connection, decompressor and the second decompressor connect compressor and transmit power, form the 3rd class thermal drivers compression heat pump;Its
In, or decompressor and the second decompressor connect compressor and booster and transmit power.
5. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, the second decompressor, high warm
Exchanger, warm condenser, vaporizer, low-temperature condenser, booster and the second booster are formed;Low-temperature condenser has circulation
Working medium passage is connected with compressor, and compressor also has cycle fluid passage to connect with high-temperature heat exchanger, and low-temperature condenser also has
The boosted pump of cycle fluid passage is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage with decompressor even
Logical, decompressor also has cycle fluid passage to connect with warm condenser, and warm condenser also has cycle fluid passage through the hydraulic turbine
Connect with vaporizer, low-temperature condenser also has cycle fluid passage to connect with vaporizer through the second booster, and vaporizer also follows
Ring working medium passage is connected with the second decompressor, and the second decompressor also has cycle fluid passage to connect with low-temperature condenser, high warm
Exchanger also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium passage and ft connection, steams
Send out device and also have low-temperature heat medium passage and ft connection, low-temperature condenser also has coolant guiding channel and ft connection, decompressor,
The hydraulic turbine and the second decompressor connect compressor and transmit power, form the 3rd class thermal drivers compression heat pump;Wherein, or expand
Machine, the hydraulic turbine and the second decompressor connect compressor, booster and the second booster and transmit power.
6. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger,
Warm condenser, vaporizer, low-temperature condenser, choke valve, booster and the second booster are formed;Low-temperature condenser has circulation
Working medium passage is connected with compressor, and compressor also has cycle fluid passage to connect with high-temperature heat exchanger, and low-temperature condenser also has
The boosted pump of cycle fluid passage is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage with decompressor even
Logical, decompressor also has cycle fluid passage to connect with warm condenser, and warm condenser also has cycle fluid passage through choke valve
Connect with vaporizer, low-temperature condenser also has cycle fluid passage to connect with vaporizer through the second booster, and vaporizer also follows
Ring working medium passage is connected with the second decompressor, and the second decompressor also has cycle fluid passage to connect with low-temperature condenser, high warm
Exchanger also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium passage and ft connection, steams
Send out device and also have low-temperature heat medium passage and ft connection, low-temperature condenser also has coolant guiding channel and ft connection, decompressor
Connect compressor with the second decompressor and transmit power, form the 3rd class thermal drivers compression heat pump;Wherein, or decompressor and
Two decompressors connect compressor, booster and the second booster and transmit power.
7. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, the second decompressor, high warm
Exchanger, warm condenser, vaporizer, low-temperature condenser and booster are formed;Low-temperature condenser has cycle fluid passage warp
Booster is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage to connect with decompressor, and decompressor also has
Cycle fluid passage is connected with warm condenser, and low-temperature condenser also has cycle fluid passage to connect with compressor, and compressor is also
Cycle fluid passage is had to connect with warm condenser, warm condenser also has cycle fluid passage through the hydraulic turbine with vaporizer even
Logical, vaporizer also has cycle fluid passage to connect with the second decompressor, and the second decompressor also has cycle fluid passage and low temperature cold
Condenser connects, and high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium to lead to
Road and ft connection, vaporizer also has low-temperature heat medium passage and ft connection, low-temperature condenser also have coolant guiding channel with
Ft connection, decompressor, the hydraulic turbine and the second decompressor connect compressor and transmit power, form the 3rd class thermal drivers compression
Heat pump;Wherein, or decompressor, the hydraulic turbine and the second decompressor connect compressor and booster and transmit power.
8. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger,
Warm condenser, vaporizer, low-temperature condenser, choke valve and booster are formed;Low-temperature condenser has cycle fluid passage warp
Booster is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage to connect with decompressor, and decompressor also has
Cycle fluid passage is connected with warm condenser, and low-temperature condenser also has cycle fluid passage to connect with compressor, and compressor is also
Cycle fluid passage is had to connect with warm condenser, warm condenser also has cycle fluid passage through choke valve with vaporizer even
Logical, vaporizer also has cycle fluid passage to connect with the second decompressor, and the second decompressor also has cycle fluid passage and low temperature cold
Condenser connects, and high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium to lead to
Road and ft connection, vaporizer also has low-temperature heat medium passage and ft connection, low-temperature condenser also have coolant guiding channel with
Ft connection, decompressor and the second decompressor connect compressor and transmit power, form the 3rd class thermal drivers compression heat pump;Its
In, or decompressor and the second decompressor connect compressor and booster and transmit power.
9. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, the second decompressor, high warm
Exchanger, warm condenser, vaporizer, low-temperature condenser, booster and the second booster are formed;Low-temperature condenser has circulation
The boosted pump of working medium passage is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage to connect with decompressor,
Decompressor also has cycle fluid passage to connect with warm condenser, and low-temperature condenser also has cycle fluid passage with compressor even
Logical, compressor also has cycle fluid passage to connect with warm condenser, and warm condenser also has cycle fluid passage through the hydraulic turbine
Connect with vaporizer, low-temperature condenser also has cycle fluid passage to connect with vaporizer through the second booster, and vaporizer also follows
Ring working medium passage is connected with the second decompressor, and the second decompressor also has cycle fluid passage to connect with low-temperature condenser, high warm
Exchanger also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium passage and ft connection, steams
Send out device and also have low-temperature heat medium passage and ft connection, low-temperature condenser also has coolant guiding channel and ft connection, decompressor,
The hydraulic turbine and the second decompressor connect compressor and transmit power, form the 3rd class thermal drivers compression heat pump;Wherein, or expand
Machine, the hydraulic turbine and the second decompressor connect compressor, booster and the second booster and transmit power.
10. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the second decompressor, high temperature heat exchange
Device, warm condenser, vaporizer, low-temperature condenser, choke valve, booster and the second booster are formed;Low-temperature condenser has
The boosted pump of cycle fluid passage is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage with decompressor even
Logical, decompressor also has cycle fluid passage to connect with warm condenser, and low-temperature condenser also has cycle fluid passage and compressor
Connection, compressor also has cycle fluid passage to connect with warm condenser, and warm condenser also has cycle fluid passage through throttling
Valve is connected with vaporizer, and low-temperature condenser also has cycle fluid passage to connect with vaporizer through the second booster, and vaporizer also has
Cycle fluid passage is connected with the second decompressor, and the second decompressor also has cycle fluid passage to connect with low-temperature condenser, high temperature
Heat exchanger also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium passage and ft connection,
Vaporizer also has low-temperature heat medium passage and ft connection, and low-temperature condenser also has coolant guiding channel and ft connection, expands
Machine and the second decompressor connect compressor and transmit power, form the 3rd class thermal drivers compression heat pump;Wherein, or decompressor and
Second decompressor connects compressor, booster and the second booster and transmits power.
11. the 3rd class thermal drivers compression heat pumps, mainly by compressor, decompressor, the hydraulic turbine, the second decompressor, high temperature
Heat exchanger, warm condenser, vaporizer, low-temperature condenser and booster are formed;Low-temperature condenser has cycle fluid passage
Boosted pump is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage to connect with decompressor, and decompressor is also
Cycle fluid passage is had to connect with warm condenser, warm condenser also has cycle fluid passage through the hydraulic turbine with vaporizer even
Logical, vaporizer also has cycle fluid passage to connect with the second decompressor, and the second decompressor also has cycle fluid passage and low temperature cold
Condenser connects, and vaporizer also has cycle fluid passage to connect with compressor, and compressor also has cycle fluid passage to condense with high temperature
Device connects, and high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium passage
With ft connection, vaporizer also has low-temperature heat medium passage and ft connection, low-temperature condenser also have coolant guiding channel with outer
Portion connects, and decompressor, the hydraulic turbine and the second decompressor connect compressor and transmit power, forms the 3rd class thermal drivers compression type heat
Pump;Wherein, or decompressor, the hydraulic turbine and the second decompressor connect compressor and booster and transmit power.
12. the 3rd class thermal drivers compression heat pumps, mainly by compressor, decompressor, the second decompressor, high temperature heat exchange
Device, warm condenser, vaporizer, low-temperature condenser, choke valve and booster are formed;Low-temperature condenser has cycle fluid passage
Boosted pump is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage to connect with decompressor, and decompressor is also
Cycle fluid passage is had to connect with warm condenser, warm condenser also has cycle fluid passage through choke valve with vaporizer even
Logical, vaporizer also has cycle fluid passage to connect with the second decompressor, and the second decompressor also has cycle fluid passage and low temperature cold
Condenser connects, and vaporizer also has cycle fluid passage to connect with compressor, and compressor also has cycle fluid passage to condense with high temperature
Device connects, and high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium passage
With ft connection, vaporizer also has low-temperature heat medium passage and ft connection, low-temperature condenser also have coolant guiding channel with outer
Portion connects, and decompressor and the second decompressor connect compressor and transmit power, form the 3rd class thermal drivers compression heat pump;Its
In, or decompressor and the second decompressor connect compressor and booster and transmit power.
13. the 3rd class thermal drivers compression heat pumps, mainly by compressor, decompressor, the hydraulic turbine, the second decompressor, high temperature
Heat exchanger, warm condenser, vaporizer, low-temperature condenser, booster and the second booster are formed;Low-temperature condenser follows
The boosted pump of ring working medium passage is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage with decompressor even
Logical, decompressor also has cycle fluid passage to connect with warm condenser, and warm condenser also has cycle fluid passage through the hydraulic turbine
Connect with vaporizer, low-temperature condenser also has cycle fluid passage to connect with vaporizer through the second booster, and vaporizer also follows
Ring working medium passage is connected with the second decompressor, and the second decompressor also has cycle fluid passage to connect with low-temperature condenser, vaporizer
Cycle fluid passage is also had to connect with compressor, compressor also has cycle fluid passage to connect with warm condenser, high warm is handed over
Parallel operation also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium passage and ft connection, evaporation
Device also has low-temperature heat medium passage and ft connection, and low-temperature condenser also has coolant guiding channel and ft connection, decompressor, water
Turbine and the second decompressor connect compressor and transmit power, form the 3rd class thermal drivers compression heat pump;Wherein, or expand
Machine, the hydraulic turbine and the second decompressor connect compressor, booster and the second booster and transmit power.
14. the 3rd class thermal drivers compression heat pumps, mainly by compressor, decompressor, the second decompressor, high temperature heat exchange
Device, warm condenser, vaporizer, low-temperature condenser, choke valve, booster and the second booster are formed;Low-temperature condenser has
The boosted pump of cycle fluid passage is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage with decompressor even
Logical, decompressor also has cycle fluid passage to connect with warm condenser, and warm condenser also has cycle fluid passage through choke valve
Connect with vaporizer, low-temperature condenser also has cycle fluid passage to connect with vaporizer through the second booster, and vaporizer also follows
Ring working medium passage is connected with the second decompressor, and the second decompressor also has cycle fluid passage to connect with low-temperature condenser, vaporizer
Cycle fluid passage is also had to connect with compressor, compressor also has cycle fluid passage to connect with warm condenser, high warm is handed over
Parallel operation also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium passage and ft connection, evaporation
Device also has low-temperature heat medium passage and ft connection, and low-temperature condenser also has coolant guiding channel and ft connection, decompressor and
Second decompressor connects compressor and transmits power, forms the 3rd class thermal drivers compression heat pump;Wherein, or decompressor and second
Decompressor connects compressor, booster and the second booster and transmits power.
15. the 3rd class thermal drivers compression heat pumps, mainly by compressor, decompressor, the hydraulic turbine, the second decompressor, high temperature
Heat exchanger, warm condenser, vaporizer, low-temperature condenser, booster and the second booster are formed;Warm condenser follows
The boosted pump of ring working medium passage is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage with decompressor even
Logical, decompressor also has cycle fluid passage to connect with warm condenser, and low-temperature condenser has cycle fluid passage with compressor even
Logical, compressor also has cycle fluid passage to connect with warm condenser, and warm condenser also has cycle fluid passage through the hydraulic turbine
Connect with vaporizer, low-temperature condenser also has cycle fluid passage to connect with vaporizer through the second booster, and vaporizer also follows
Ring working medium passage is connected with the second decompressor, and the second decompressor also has cycle fluid passage to connect with low-temperature condenser, high warm
Exchanger also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium passage and ft connection, steams
Send out device and also have low-temperature heat medium passage and ft connection, low-temperature condenser also has coolant guiding channel and ft connection, decompressor,
The hydraulic turbine and the second decompressor connect compressor and transmit power, form the 3rd class thermal drivers compression heat pump;Wherein, or expand
Machine, the hydraulic turbine and the second decompressor connect compressor, booster and the second booster and transmit power.
16. the 3rd class thermal drivers compression heat pumps, mainly by compressor, decompressor, the second decompressor, high temperature heat exchange
Device, warm condenser, vaporizer, low-temperature condenser, choke valve, booster and the second booster are formed;Warm condenser has
The boosted pump of cycle fluid passage is connected with high-temperature heat exchanger, and high-temperature heat exchanger also has cycle fluid passage with decompressor even
Logical, decompressor also has cycle fluid passage to connect with warm condenser, and low-temperature condenser has cycle fluid passage with compressor even
Logical, compressor also has cycle fluid passage to connect with warm condenser, and warm condenser also has cycle fluid passage through choke valve
Connect with vaporizer, low-temperature condenser also has cycle fluid passage to connect with vaporizer through the second booster, and vaporizer also follows
Ring working medium passage is connected with the second decompressor, and the second decompressor also has cycle fluid passage to connect with low-temperature condenser, high warm
Exchanger also has high temperature thermal medium passage and ft connection, and warm condenser also has heated medium passage and ft connection, steams
Send out device and also have low-temperature heat medium passage and ft connection, low-temperature condenser also has coolant guiding channel and ft connection, decompressor
Connect compressor with the second decompressor and transmit power, form the 3rd class thermal drivers compression heat pump;Wherein, or decompressor and
Two decompressors connect compressor, booster and the second booster and transmit power.
17. the 3rd class thermal drivers compression heat pumps, are in the 1st, 3,5,7,9,11,13,15 described arbitrary 3rd class heat
Drive in compression heat pump, increase regenerator, vaporizer is had cycle fluid passage to connect with the second decompressor and is adjusted to evaporation
Device has cycle fluid passage to connect with the second decompressor through regenerator, by warm condenser have cycle fluid passage through the hydraulic turbine with
Vaporizer connection is adjusted to warm condenser has cycle fluid passage to connect with vaporizer with the hydraulic turbine through regenerator, forms the 3rd
Class thermal drivers compression heat pump.
18. the 3rd class thermal drivers compression heat pumps, are in the 2nd, 4,6,8,10,12,14,16 described arbitrary 3rd class heat
Drive in compression heat pump, increase regenerator, vaporizer is had cycle fluid passage to connect with the second decompressor and is adjusted to evaporation
Device has cycle fluid passage to connect with the second decompressor through regenerator, by warm condenser have cycle fluid passage through choke valve with
Vaporizer connection is adjusted to warm condenser has cycle fluid passage to connect with vaporizer with choke valve through regenerator, forms the 3rd
Class thermal drivers compression heat pump.
19. the 3rd class thermal drivers compression heat pumps, are in the 3rd, 5,7,9,11,13 described arbitrary 3rd class thermal drivers pressures
In contracting formula heat pump, increase regenerator, low-temperature condenser is had the boosted pump of cycle fluid passage to connect tune with high-temperature heat exchanger
Whole have the boosted pump of cycle fluid passage to connect with high-temperature heat exchanger with regenerator for low-temperature condenser, and warm condenser is had
Cycle fluid passage is connected with vaporizer through the hydraulic turbine and is adjusted to warm condenser and has cycle fluid passage through regenerator and water wheels
Machine is connected with vaporizer, forms the 3rd class thermal drivers compression heat pump.
20. the 3rd class thermal drivers compression heat pumps, are in the 4th, 6,8,10,12,14 described arbitrary 3rd class thermal drivers
In compression heat pump, increase regenerator, low-temperature condenser is had the boosted pump of cycle fluid passage to connect with high-temperature heat exchanger
Being adjusted to low-temperature condenser has the boosted pump of cycle fluid passage to connect with high-temperature heat exchanger with regenerator, by warm condenser
There is cycle fluid passage to connect with vaporizer through choke valve to be adjusted to warm condenser and have cycle fluid passage through regenerator and section
Stream valve is connected with vaporizer, forms the 3rd class thermal drivers compression heat pump.
21. the 3rd class thermal drivers compression heat pumps, are arbitrary threeth class thermal drivers compressions described in 7-10,15-16 item
In formula heat pump, increase by the second compressor, low-temperature condenser is had cycle fluid passage to connect with compressor and is adjusted to condensation at low temperature
Device has cycle fluid passage to connect with the second compressor, and the second compressor has cycle fluid passage again through warm condenser and compression
Machine connects, and decompressor connects the second compressor and transmits power, forms the 3rd class thermal drivers compression heat pump.
22. the 3rd class thermal drivers compression heat pumps, are arbitrary threeth class thermal drivers compression heat pumps described in 11-14 item
In, increase by the second compressor, vaporizer is had cycle fluid passage to connect with compressor and is adjusted to vaporizer and has cycle fluid to lead to
Road is connected with the second compressor, and the second compressor has cycle fluid passage to connect with compressor through warm condenser again, decompressor
Connect the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.
23. the 3rd class thermal drivers compression heat pumps, are the arbitrary 3rd class thermal drivers compression type heats described in 1-22 item
In pump, increase engine, engine connects compressor and provides power to compressor, forms additional external the power-actuated 3rd
Class thermal drivers compression heat pump.
24. the 3rd class thermal drivers compression heat pumps, are the arbitrary 3rd class thermal drivers compression type heats described in 1-22 item
In pump, increase working machine, decompressor connects working machine and provides power to working machine, being formed to add externally provides living load
3rd class thermal drivers compression heat pump.
Brief description:
Fig. 1 is according to the 1st kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Fig. 2 is according to the 2nd kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Fig. 3 is according to the 3rd kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Fig. 4 is according to the 4th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Fig. 5 is according to the 5th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Fig. 6 is according to the 6th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Fig. 7 is according to the 7th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Fig. 8 is according to the 8th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Fig. 9 is according to the 9th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Figure 10 is according to the 10th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Figure 11 is according to the 11st kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Figure 12 is according to the 12nd kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Figure 13 is according to the 13rd kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Figure 14 is according to the 14th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Figure 15 is according to the 15th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Figure 16 is according to the 16th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Figure 17 is according to the 17th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Figure 18 is according to the 18th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
Figure 19 is according to the 19th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.
In figure, 1- compressor, 2- decompressor, the 3- hydraulic turbine, 4- second decompressor, 5- high-temperature heat exchanger, 6- high temperature is cold
Condenser, 7- vaporizer, 8- low-temperature condenser, 9- choke valve, 10- booster, 11- second booster, 12- regenerator, 13- second
Compressor.
Specific embodiment:
First it is noted that in the statement of structure and flow process, inessential in the case of do not repeat;To apparent
Flow process do not state.To describe the present invention with example in detail below in conjunction with the accompanying drawings.
Shown in Fig. 1, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly cold by compressor, decompressor, the hydraulic turbine, the second decompressor, high-temperature heat exchanger, high temperature
Condenser, vaporizer and low-temperature condenser are formed;Compressor 1 has cycle fluid passage to connect with high-temperature heat exchanger 5, high warm
Exchanger 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also has cycle fluid passage with warm condenser 6 even
Logical, warm condenser 6 also has cycle fluid passage to connect with vaporizer 7 through the hydraulic turbine 3, and vaporizer 7 also has cycle fluid passage
Connect with the second decompressor 4, the second decompressor 4 also has cycle fluid passage to connect with low-temperature condenser 8, and low-temperature condenser 8 is also
Cycle fluid passage is had to connect with compressor 1, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, high temperature is cold
Condenser 6 also has heated medium passage and ft connection, and vaporizer 7 also has low-temperature heat medium passage and ft connection, low temperature cold
Condenser 8 also has coolant guiding channel and ft connection, and decompressor 2, the hydraulic turbine 3 and the second decompressor 4 connect compressor 1 and transmit
Power.
(2), in flow process, the cycle fluid of compressor 1 discharge enters high-temperature heat exchanger 5 and absorbs heat and vaporize, and enters swollen afterwards
The blood pressure lowering work done of swollen machine 2;The cycle fluid of decompressor 2 discharge enters warm condenser 6 heat release and in heated medium and condenses, afterwards
Flow through the hydraulic turbine 3 blood pressure lowering work done and enter vaporizer 7;Low-temperature heat medium flows through vaporizer 7, heating enters its interior cycle fluid simultaneously
Vaporization, the cycle fluid of vaporizer 7 release flows through the second decompressor 4 blood pressure lowering work done;The cycle fluid of the second decompressor 4 discharge enters
Enter low-temperature condenser 8 heat release in cooling medium and partial condensation, enter compressor 1 boosting afterwards and heat up;Decompressor 2, the hydraulic turbine 3
It is supplied to compressor 1 with the work(of the second decompressor 4 output to be used as power, form the 3rd class thermal drivers compression heat pump.
Shown in Fig. 2, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, warm condenser, steaming
Send out device, low-temperature condenser and choke valve to be formed;Compressor 1 has cycle fluid passage to connect with high-temperature heat exchanger 5, high warm
Exchanger 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also has cycle fluid passage with warm condenser 6 even
Logical, warm condenser 6 also has cycle fluid passage to connect with vaporizer 7 through choke valve 9, and vaporizer 7 also has cycle fluid passage
Connect with the second decompressor 4, the second decompressor 4 also has cycle fluid passage to connect with low-temperature condenser 8, and low-temperature condenser 8 is also
Cycle fluid passage is had to connect with compressor 1, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, high temperature is cold
Condenser 6 also has heated medium passage and ft connection, and vaporizer 7 also has low-temperature heat medium passage and ft connection, low temperature cold
Condenser 8 also has coolant guiding channel and ft connection, decompressor 2 and the second decompressor 4 to connect compressor 1 and transmit power.
(2), in flow process, the cycle fluid of compressor 1 discharge enters high-temperature heat exchanger 5 and absorbs heat and vaporize, and enters swollen afterwards
The blood pressure lowering work done of swollen machine 2;The cycle fluid of decompressor 2 discharge enters warm condenser 6 heat release and in heated medium and condenses, afterwards
Flow through choke valve 9 blood pressure lowering and enter vaporizer 7;Low-temperature heat medium flows through vaporizer 7, heating enters its interior cycle fluid vapour
Change, the cycle fluid of vaporizer 7 release flows through the second decompressor 4 blood pressure lowering work done;The cycle fluid of the second decompressor 4 discharge enters
Low-temperature condenser 8 heat release in cooling medium and partial condensation, enters compressor 1 boosting afterwards and heats up;Decompressor 2 and the second expansion
The work(of machine 4 output is supplied to compressor 1 and is used as power, and forms the 3rd class thermal drivers compression heat pump.
Shown in Fig. 3, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly cold by compressor, decompressor, the hydraulic turbine, the second decompressor, high-temperature heat exchanger, high temperature
Condenser, vaporizer, low-temperature condenser and booster are formed;Low-temperature condenser 8 has cycle fluid passage to connect with compressor 1,
Compressor 1 also has cycle fluid passage to connect with high-temperature heat exchanger 5, and low-temperature condenser 8 also has cycle fluid passage boosted
Pump 10 is connected with high-temperature heat exchanger 5, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 is also
Cycle fluid passage is had to connect with warm condenser 6, warm condenser 6 also has cycle fluid passage through the hydraulic turbine 3 and vaporizer 7
Connection, vaporizer 7 also has cycle fluid passage to connect with the second decompressor 4, the second decompressor 4 also cycle fluid passage with low
Warm condenser 8 connects, and high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, and warm condenser 6 also has heated
Medium channel and ft connection, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has cooling to be situated between
Matter passage and ft connection, decompressor 2, the hydraulic turbine 3 and the second decompressor 4 connect compressor 1 and booster 10 and transmit power.
(2), in flow process, the gaseous recycle working medium of low-temperature condenser 8 flows through after compressor 1 boosting heats up and enters high warm
Exchanger 5, the boosted pump of liquid circulation working medium 10 pressurization of low-temperature condenser 8 enters high-temperature heat exchanger 5 and absorbs heat and vaporize;High
The cycle fluid of temperature heat exchanger 5 release flows through decompressor 2 blood pressure lowering work done, enters warm condenser 6 heat release afterwards in heated
Medium simultaneously condenses;The liquid circulation working medium of warm condenser 6 flows through the hydraulic turbine 3 blood pressure lowering work done, enters vaporizer 7 afterwards;Low temperature
Thermal medium flows through vaporizer 7, heating enters its interior cycle fluid and vaporizes, and the cycle fluid of vaporizer 7 release flows through second
Decompressor 4 blood pressure lowering work done, enters low-temperature condenser 8 heat release afterwards in cooling medium and partial condensation;Decompressor 2, the hydraulic turbine 3 and
The work(of the second decompressor 4 output is supplied to compressor 1 and booster 10 is used as power, and forms the 3rd class thermal drivers compression heat pump.
Shown in Fig. 4, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, warm condenser, steaming
Send out device, low-temperature condenser, choke valve and booster to be formed;Low-temperature condenser 8 has cycle fluid passage to connect with compressor 1,
Compressor 1 also has cycle fluid passage to connect with high-temperature heat exchanger 5, and low-temperature condenser 8 also has cycle fluid passage boosted
Pump 10 is connected with high-temperature heat exchanger 5, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 is also
Cycle fluid passage is had to connect with warm condenser 6, warm condenser 6 also has cycle fluid passage through choke valve 9 and vaporizer 7
Connection, vaporizer 7 also has cycle fluid passage to connect with the second decompressor 4, the second decompressor 4 also cycle fluid passage with low
Warm condenser 8 connects, and high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, and warm condenser 6 also has heated
Medium channel and ft connection, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has cooling to be situated between
Matter passage and ft connection, decompressor 2 and the second decompressor 4 connect compressor 1 and transmit power.
(2), in flow process, the gaseous recycle working medium of low-temperature condenser 8 flows through after compressor 1 boosting heats up and enters high warm
Exchanger 5, the boosted pump of liquid circulation working medium 10 pressurization of low-temperature condenser 8 enters high-temperature heat exchanger 5 and absorbs heat and vaporize;High
The cycle fluid of temperature heat exchanger 5 release flows through decompressor 2 blood pressure lowering work done, enters warm condenser 6 heat release afterwards in heated
Medium simultaneously condenses, and the liquid circulation working medium of warm condenser 6 enters vaporizer 7 after flowing through choke valve 9 blood pressure lowering;Low-temperature heat medium
Flow through vaporizer 7, heating enters its interior cycle fluid and vaporizes, the cycle fluid of vaporizer 7 release flows through the second decompressor 4
Blood pressure lowering work done, enters low-temperature condenser 8 heat release afterwards in cooling medium and partial condensation;Decompressor 2 and the second decompressor 4 export
Work(be supplied to compressor 1 and be used as power, form the 3rd class thermal drivers compression heat pump.
Shown in Fig. 5, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly cold by compressor, decompressor, the hydraulic turbine, the second decompressor, high-temperature heat exchanger, high temperature
Condenser, vaporizer, low-temperature condenser, booster and the second booster are formed;Low-temperature condenser 8 has cycle fluid passage and pressure
Contracting machine 1 connects, and compressor 1 also has cycle fluid passage to connect with high-temperature heat exchanger 5, and low-temperature condenser 8 also has cycle fluid
The boosted pump of passage 10 is connected with high-temperature heat exchanger 5, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2,
Decompressor 2 also has cycle fluid passage to connect with warm condenser 6, and warm condenser 6 also has cycle fluid passage through the hydraulic turbine 3
Connect with vaporizer 7, low-temperature condenser 8 also has cycle fluid passage to connect with vaporizer 7 through the second booster 11, vaporizer 7
Cycle fluid passage is also had to connect with the second decompressor 4, the second decompressor 4 also has cycle fluid passage with low-temperature condenser 8 even
Logical, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, warm condenser 6 also have heated medium passage with
Ft connection, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has coolant guiding channel with outward
Portion connects, and decompressor 2, the hydraulic turbine 3 and the second decompressor 4 connect compressor 1 and transmit power.
(2), in flow process, the cycle fluid of low-temperature condenser 8 is divided into three tunnels, and wherein gaseous recycle working medium flows through 1 liter of compressor
Pressure enters high-temperature heat exchanger 5, a part of liquid circulation working medium boosted pump 10 pressurization entrance high-temperature heat exchanger 5 after heating up
Absorb heat and vaporize, another part liquid circulation working medium is pressurizeed through the second booster 11 and entered vaporizer 7;High-temperature heat exchanger 5 is released
The cycle fluid put flows through decompressor 2 blood pressure lowering work done, enters warm condenser 6 heat release afterwards and in heated medium and condenses;High
The liquid circulation working medium of warm condenser 6 discharge flows through the hydraulic turbine 3 blood pressure lowering work done, enters vaporizer 7 afterwards;Low-temperature heat medium flows through
Vaporizer 7, heating enter its interior cycle fluid and vaporize, and the cycle fluid of vaporizer 7 release flows through the second decompressor 4 blood pressure lowering
Work done, enters low-temperature condenser 8 heat release afterwards in cooling medium and partial condensation;Decompressor 2, the hydraulic turbine 3 and the second decompressor 4
The work(of output is supplied to compressor 1 and is used as power, and forms the 3rd class thermal drivers compression heat pump.
Shown in Fig. 6, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, warm condenser, steaming
Send out device, low-temperature condenser, choke valve, booster and the second booster to be formed;Low-temperature condenser 8 has cycle fluid passage and pressure
Contracting machine 1 connects, and compressor 1 also has cycle fluid passage to connect with high-temperature heat exchanger 5, and low-temperature condenser 8 also has cycle fluid
The boosted pump of passage 10 is connected with high-temperature heat exchanger 5, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2,
Decompressor 2 also has cycle fluid passage to connect with warm condenser 6, and warm condenser 6 also has cycle fluid passage through choke valve 9
Connect with vaporizer 7, low-temperature condenser 8 also has cycle fluid passage to connect with vaporizer 7 through the second booster 11, vaporizer 7
Cycle fluid passage is also had to connect with the second decompressor 4, the second decompressor 4 also has cycle fluid passage with low-temperature condenser 8 even
Logical, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, warm condenser 6 also have heated medium passage with
Ft connection, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has coolant guiding channel with outward
Portion connects, and decompressor 2 and the second decompressor 4 connect compressor 1 and transmit power.
(2), in flow process, the cycle fluid of low-temperature condenser 8 is divided into three tunnels, and wherein gaseous recycle working medium flows through 1 liter of compressor
Pressure enters high-temperature heat exchanger 5, a part of liquid circulation working medium boosted pump 10 pressurization entrance high-temperature heat exchanger 5 after heating up
Absorb heat and vaporize, another part liquid circulation working medium is pressurizeed through the second booster 11 and entered vaporizer 7;High-temperature heat exchanger 5 is released
The cycle fluid put flows through decompressor 2 blood pressure lowering work done, enters warm condenser 6 heat release afterwards and in heated medium and condenses, high
The liquid circulation working medium of warm condenser 6 discharge is through entering vaporizer 7 after choke valve 9 blood pressure lowering;Low-temperature heat medium flows through vaporizer
7th, heating enters its interior cycle fluid and vaporizes, and the cycle fluid of vaporizer 7 release flows through the second decompressor 4 blood pressure lowering work done,
Enter low-temperature condenser 8 heat release afterwards in cooling medium and partial condensation;The work(of decompressor 2 and the second decompressor 4 output provides
It is used as power to compressor 1, form the 3rd class thermal drivers compression heat pump.
Shown in Fig. 7, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly cold by compressor, decompressor, the hydraulic turbine, the second decompressor, high-temperature heat exchanger, high temperature
Condenser, vaporizer, low-temperature condenser and booster are formed;Low-temperature condenser 8 has the boosted pump of cycle fluid passage 10 and height
Temperature heat exchanger 5 connects, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also has circulation industrial
Matter passage is connected with warm condenser 6, and low-temperature condenser 8 also has cycle fluid passage to connect with compressor 1, and compressor 1 also has
Cycle fluid passage is connected with warm condenser 6, and warm condenser 6 also has cycle fluid passage through the hydraulic turbine 3 with vaporizer 7 even
Logical, vaporizer 7 also has cycle fluid passage to connect with the second decompressor 4, and the second decompressor 4 also has cycle fluid passage and low temperature
Condenser 8 connects, and high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, and warm condenser 6 also has heated Jie
Matter passage and ft connection, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has cooling medium
Passage and ft connection, decompressor 2, the hydraulic turbine 3 and the second decompressor 4 connect compressor 1 and transmit power.
(2), in flow process, the boosted pump of liquid circulation working medium 10 pressurization of low-temperature condenser 8 enters high-temperature heat exchanger 5, inhales
Heat simultaneously vaporizes;The cycle fluid of high-temperature heat exchanger 5 release flows through decompressor 2 blood pressure lowering work done, enters warm condenser 6 afterwards and puts
Heat in heated medium and condenses;The gaseous recycle working medium of low-temperature condenser 8 flows through after compressor 1 boosting heats up and enters high temperature
Condenser 6, heat release in heated medium and condenses;The liquid circulation working medium of warm condenser 6 flows through the hydraulic turbine 3 blood pressure lowering work done,
Enter vaporizer 7 afterwards;Low-temperature heat medium flows through vaporizer 7, heating enters its interior cycle fluid and vaporizes, and vaporizer 7 is released
The cycle fluid put flows through the second decompressor 4 blood pressure lowering work done, enters low-temperature condenser 8 heat release afterwards in cooling medium and partly cold
Solidifying;The work(of decompressor 2, the hydraulic turbine 3 and the second decompressor 4 output is supplied to compressor 1 and is used as power, and forms the 3rd class thermal drivers pressure
Contracting formula heat pump.
Shown in Fig. 8, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, warm condenser, steaming
Send out device, low-temperature condenser, choke valve and booster to be formed;Low-temperature condenser 8 has the boosted pump of cycle fluid passage 10 and height
Temperature heat exchanger 5 connects, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also has circulation industrial
Matter passage is connected with warm condenser 6, and low-temperature condenser 8 also has cycle fluid passage to connect with compressor 1, and compressor 1 also has
Cycle fluid passage is connected with warm condenser 6, and warm condenser 6 also has cycle fluid passage through choke valve 9 with vaporizer 7 even
Logical, vaporizer 7 also has cycle fluid passage to connect with the second decompressor 4, and the second decompressor 4 also has cycle fluid passage and low temperature
Condenser 8 connects, and high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, and warm condenser 6 also has heated Jie
Matter passage and ft connection, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has cooling medium
Passage and ft connection, decompressor 2 and the second decompressor 4 connect compressor 1 and transmit power.
(2), in flow process, the boosted pump of liquid circulation working medium 10 pressurization of low-temperature condenser 8 enters high-temperature heat exchanger 5, inhales
Heat simultaneously vaporizes;The cycle fluid of high-temperature heat exchanger 5 release flows through decompressor 2 blood pressure lowering work done, enters warm condenser 6 afterwards and puts
Heat in heated medium and condenses;The gaseous recycle working medium of low-temperature condenser 8 flows through after compressor 1 boosting heats up and enters high temperature
Condenser 6, heat release in heated medium and condenses;The liquid circulation working medium of warm condenser 6 through choke valve 9 reducing pressure by regulating flow, it
Enter vaporizer 7 afterwards;Low-temperature heat medium flows through vaporizer 7, heating enters its interior cycle fluid and vaporizes, and vaporizer 7 discharges
Cycle fluid flow through the second decompressor 4 blood pressure lowering work done, afterwards enter low-temperature condenser 8 heat release in cooling medium and partly cold
Solidifying;The work(of decompressor 2 and the second decompressor 4 output is supplied to compressor 1 and is used as power, and forms the 3rd class thermal drivers compression type heat
Pump.
Shown in Fig. 9, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly cold by compressor, decompressor, the hydraulic turbine, the second decompressor, high-temperature heat exchanger, high temperature
Condenser, vaporizer, low-temperature condenser, booster and the second booster are formed;Low-temperature condenser 8 has cycle fluid passage through rising
Press pump 10 is connected with high-temperature heat exchanger 5, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2, decompressor 2
Cycle fluid passage is also had to connect with warm condenser 6, low-temperature condenser 8 also has cycle fluid passage to connect with compressor 1, pressure
Contracting machine 1 also has cycle fluid passage to connect with warm condenser 6, warm condenser 6 also have cycle fluid passage through the hydraulic turbine 3 and
Vaporizer 7 connects, and low-temperature condenser 8 also has cycle fluid passage to connect with vaporizer 7 through the second booster 11, and vaporizer 7 is also
Cycle fluid passage is had to connect with the second decompressor 4, the second decompressor 4 also has cycle fluid passage to connect with low-temperature condenser 8,
High-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, and warm condenser 6 also has heated medium passage and outside
Connection, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has coolant guiding channel to connect with outside
Logical, decompressor 2, the hydraulic turbine 3 and the second decompressor 4 connect compressor 1 and transmit power.
(2), in flow process, the boosted pump of operative liquid cycle fluid 10 pressurization of low-temperature condenser 8 enters high-temperature heat exchanger
5 absorb heat and vaporize, and the cycle fluid of high-temperature heat exchanger 5 release flows through decompressor 2 blood pressure lowering work done, enter warm condenser afterwards
6 heat releases in heated medium and condense;The gaseous recycle working medium of low-temperature condenser 8 flows through compressor 1 boosting and heats up, and enters afterwards
Warm condenser 6 heat release in heated medium and condenses;The liquid circulation working medium of warm condenser 6 flows through the hydraulic turbine 3 blood pressure lowering and makees
Work(, enters vaporizer 7 afterwards;Another part liquid circulation working medium of low-temperature condenser 8 flows through the second booster 11 and boosts, it
Enter vaporizer 7 afterwards;Low-temperature heat medium flows through vaporizer 7, heating enters its interior cycle fluid and vaporizes, and vaporizer 7 discharges
Cycle fluid flow through the second decompressor 4 blood pressure lowering work done;The cycle fluid of the second decompressor 4 discharge enters low-temperature condenser 8 and puts
Heat is in cooling medium and partial condensation;The work(of decompressor 2, the hydraulic turbine 3 and the second decompressor 4 output is supplied to compressor 1 start
Power, forms the 3rd class thermal drivers compression heat pump.
Shown in Figure 10, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, warm condenser, steaming
Send out device, low-temperature condenser, choke valve, booster and the second booster to be formed;Low-temperature condenser 8 has cycle fluid passage through rising
Press pump 10 is connected with high-temperature heat exchanger 5, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2, decompressor 2
Cycle fluid passage is also had to connect with warm condenser 6, low-temperature condenser 8 also has cycle fluid passage to connect with compressor 1, pressure
Contracting machine 1 also has cycle fluid passage to connect with warm condenser 6, warm condenser 6 also have cycle fluid passage through choke valve 9 and
Vaporizer 7 connects, and low-temperature condenser 8 also has cycle fluid passage to connect with vaporizer 7 through the second booster 11, and vaporizer 7 is also
Cycle fluid passage is had to connect with the second decompressor 4, the second decompressor 4 also has cycle fluid passage to connect with low-temperature condenser 8,
High-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, and warm condenser 6 also has heated medium passage and outside
Connection, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has coolant guiding channel to connect with outside
Lead to, decompressor 2 and the second decompressor 4 connect compressor 1 and transmit power.
(2), in flow process, the boosted pump of operative liquid cycle fluid 10 pressurization of low-temperature condenser 8 enters high-temperature heat exchanger
5 absorb heat and vaporize, and the cycle fluid of high-temperature heat exchanger 5 release flows through decompressor 2 blood pressure lowering work done, enter warm condenser afterwards
6 heat releases in heated medium and condense;The gaseous recycle working medium of low-temperature condenser 8 flows through compressor 1 boosting and heats up, and enters afterwards
Warm condenser 6 heat release in heated medium and condenses;The liquid circulation working medium of warm condenser 6 flows through choke valve 9 blood pressure lowering, it
Enter vaporizer 7 afterwards;Another part liquid circulation working medium of low-temperature condenser 8 flows through the second booster 11 and boosts, laggard
Enter vaporizer 7;Low-temperature heat medium flows through vaporizer 7, heating enters its interior cycle fluid and vaporizes, and what vaporizer 7 discharged follows
Ring working medium flows through the second decompressor 4 blood pressure lowering work done, enters low-temperature condenser 8 heat release afterwards in cooling medium and partial condensation;Swollen
The work(of swollen machine 2 and the second decompressor 4 output is supplied to compressor 1 and is used as power, and forms the 3rd class thermal drivers compression heat pump.
Shown in Figure 11, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly cold by compressor, decompressor, the hydraulic turbine, the second decompressor, high-temperature heat exchanger, high temperature
Condenser, vaporizer, low-temperature condenser and booster are formed;Low-temperature condenser 8 has the boosted pump of cycle fluid passage 10 and height
Temperature heat exchanger 5 connects, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also has circulation industrial
Matter passage is connected with warm condenser 6, and warm condenser 6 also has cycle fluid passage to connect with vaporizer 7 through the hydraulic turbine 3, steams
Sending out device 7 also has cycle fluid passage to connect with the second decompressor 4, and the second decompressor 4 also has cycle fluid passage and condensation at low temperature
Device 8 connects, and vaporizer 7 also has cycle fluid passage to connect with compressor 1, and compressor 1 also has cycle fluid passage cold with high temperature
Condenser 6 connects, and high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, and warm condenser 6 also has heated medium
Passage and ft connection, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has cooling medium to lead to
Road and ft connection, decompressor 2, the hydraulic turbine 3 and the second decompressor 4 connect compressor 1 and transmit power.
(2), in flow process, the boosted pump of liquid circulation working medium 10 pressurization of low-temperature condenser 8 enters high-temperature heat exchanger 5 and inhales
Heat simultaneously vaporizes, and enters decompressor 2 blood pressure lowering work done afterwards;The cycle fluid of compressor 1 and decompressor 2 discharge enters warm condenser
6, heat release in heated medium and condenses;The liquid circulation working medium of warm condenser 6 flows through the hydraulic turbine 3 blood pressure lowering work done, laggard
Enter vaporizer 7;Low-temperature heat medium flows through vaporizer 7, heating enters its interior cycle fluid and vaporizes, and what vaporizer 7 discharged follows
Ring working medium is divided into two-way, and a road enters the second decompressor 4 blood pressure lowering work done, and another road enters compressor 1 boosting and heats up;Second expansion
The cycle fluid of machine 4 discharge enters low-temperature condenser 8, and heat release in cooling medium and condenses;Decompressor 2, the hydraulic turbine 3 and second are swollen
The work(of swollen machine 4 output is supplied to compressor 1 and is used as power, and forms the 3rd class thermal drivers compression heat pump.
Shown in Figure 12, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, warm condenser, steaming
Send out device, low-temperature condenser, choke valve and booster to be formed;Low-temperature condenser 8 has the boosted pump of cycle fluid passage 10 and height
Temperature heat exchanger 5 connects, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2, and decompressor 2 also has circulation industrial
Matter passage is connected with warm condenser 6, and warm condenser 6 also has cycle fluid passage to connect with vaporizer 7 through choke valve 9, steams
Sending out device 7 also has cycle fluid passage to connect with the second decompressor 4, and the second decompressor 4 also has cycle fluid passage and condensation at low temperature
Device 8 connects, and vaporizer 7 also has cycle fluid passage to connect with compressor 1, and compressor 1 also has cycle fluid passage cold with high temperature
Condenser 6 connects, and high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, and warm condenser 6 also has heated medium
Passage and ft connection, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has cooling medium to lead to
Road and ft connection, decompressor 2 and the second decompressor 4 connect compressor 1 and transmit power.
(2), in flow process, the boosted pump of liquid circulation working medium 10 pressurization of low-temperature condenser 8 enters high-temperature heat exchanger 5 and inhales
Heat simultaneously vaporizes, and enters decompressor 2 blood pressure lowering work done afterwards;The cycle fluid of compressor 1 and decompressor 2 discharge enters warm condenser
6, heat release in heated medium and condenses;The liquid circulation working medium of warm condenser 6 flows through choke valve 9 blood pressure lowering, enters afterwards and steams
Send out device 7;Low-temperature heat medium flows through vaporizer 7, heating enters its interior cycle fluid and vaporizes, the circulation industrial of vaporizer 7 release
Matter is divided into two-way, and a road enters the second decompressor 4 blood pressure lowering work done, and another road enters compressor 1 boosting and heats up;Second decompressor 4
The cycle fluid of discharge enters low-temperature condenser 8, and heat release in cooling medium and condenses;Decompressor 2 and the second decompressor 4 output
Work(is supplied to compressor 1 and is used as power, and forms the 3rd class thermal drivers compression heat pump.
Shown in Figure 13, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly cold by compressor, decompressor, the hydraulic turbine, the second decompressor, high-temperature heat exchanger, high temperature
Condenser, vaporizer, low-temperature condenser, booster and the second booster are formed;Low-temperature condenser 8 has cycle fluid passage through rising
Press pump 10 is connected with high-temperature heat exchanger 5, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2, decompressor 2
Cycle fluid passage is also had to connect with warm condenser 6, warm condenser 6 also has cycle fluid passage through the hydraulic turbine 3 and evaporation
Device 7 connects, and low-temperature condenser 8 also has cycle fluid passage to connect with vaporizer 7 through the second booster 11, and vaporizer 7 also follows
Ring working medium passage is connected with the second decompressor 4, and the second decompressor 4 also has cycle fluid passage to connect with low-temperature condenser 8, evaporation
Device 7 also has cycle fluid passage to connect with compressor 1, and compressor 1 also has cycle fluid passage to connect with warm condenser 6, high
Temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, and warm condenser 6 also has heated medium passage to connect with outside
Logical, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has coolant guiding channel and ft connection,
Decompressor 2, the hydraulic turbine 3 and the second decompressor 4 connect compressor 1 and transmit power.
(2), in flow process, the cycle fluid of booster 10 discharge enters high-temperature heat exchanger 5 and absorbs heat and vaporize, and enters afterwards
Decompressor 2 blood pressure lowering work done;The cycle fluid of compressor 1 and decompressor 2 discharge enters warm condenser 6, and heat release is in heated Jie
Matter simultaneously condenses;The liquid circulation working medium of warm condenser 6 enters vaporizer 7, the second boosting after flowing through the hydraulic turbine 3 blood pressure lowering work done
The cycle fluid of pump 11 discharge enters vaporizer 7;Low-temperature heat medium flows through vaporizer 7, heating enters its interior cycle fluid simultaneously
Vaporization, the cycle fluid of vaporizer 7 release is divided into two-way, and a road enters the second decompressor 4 blood pressure lowering work done, and another road enters compression
Machine 1 boosting heats up;The cycle fluid of the second decompressor 4 discharge enters low-temperature condenser 8, and heat release in cooling medium and condenses, low
The liquid circulation working medium of warm condenser 8 is respectively supplied to booster 10 and the second booster 11;Decompressor 2, the hydraulic turbine 3 and second
The work(of decompressor 4 output is supplied to compressor 1 and is used as power, and forms the 3rd class thermal drivers compression heat pump.
Shown in Figure 14, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, warm condenser, steaming
Send out device, low-temperature condenser, choke valve, booster and the second booster to be formed;Low-temperature condenser 8 has cycle fluid passage through rising
Press pump 10 is connected with high-temperature heat exchanger 5, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2, decompressor 2
Cycle fluid passage is also had to connect with warm condenser 6, warm condenser 6 also has cycle fluid passage through choke valve 9 and evaporation
Device 7 connects, and low-temperature condenser 8 also has cycle fluid passage to connect with vaporizer 7 through the second booster 11, and vaporizer 7 also follows
Ring working medium passage is connected with the second decompressor 4, and the second decompressor 4 also has cycle fluid passage to connect with low-temperature condenser 8, evaporation
Device 7 also has cycle fluid passage to connect with compressor 1, and compressor 1 also has cycle fluid passage to connect with warm condenser 6, high
Temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, and warm condenser 6 also has heated medium passage to connect with outside
Logical, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has coolant guiding channel and ft connection,
Decompressor 2 and the second decompressor 4 connect compressor 1 and transmit power.
(2), in flow process, the cycle fluid of booster 10 discharge enters high-temperature heat exchanger 5 and absorbs heat and vaporize, and enters afterwards
Decompressor 2 blood pressure lowering work done;The cycle fluid of compressor 1 and decompressor 2 discharge enters warm condenser 6, and heat release is in heated Jie
Matter simultaneously condenses;The liquid circulation working medium of warm condenser 6 is through entering vaporizer 7, the second booster after choke valve 9 reducing pressure by regulating flow
The cycle fluid of 11 discharges enters vaporizer 7;Low-temperature heat medium flows through vaporizer 7, heating enters its interior cycle fluid vapour
Change, the cycle fluid of vaporizer 7 release is divided into two-way, a road enters the second decompressor 4 blood pressure lowering work done, another road enters compressor
1 boosting heats up;The cycle fluid of the second decompressor 4 discharge enters low-temperature condenser 8 heat release and in cooling medium and condenses, low temperature cold
The liquid circulation working medium of condenser 8 is respectively supplied to booster 10 and the second booster 11;Decompressor 2 and the second decompressor 4 export
Work(be supplied to compressor 1 and be used as power, form the 3rd class thermal drivers compression heat pump.
Shown in Figure 15, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly cold by compressor, decompressor, the hydraulic turbine, the second decompressor, high-temperature heat exchanger, high temperature
Condenser, vaporizer, low-temperature condenser, booster and the second booster are formed;Warm condenser 6 has cycle fluid passage through rising
Press pump 10 is connected with high-temperature heat exchanger 5, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2, decompressor 2
Cycle fluid passage is also had to connect with warm condenser 6, low-temperature condenser 8 has cycle fluid passage to connect with compressor 1, compression
Machine 1 also has cycle fluid passage to connect with warm condenser 6, and warm condenser 6 also has cycle fluid passage through the hydraulic turbine 3 and steaming
Send out device 7 to connect, low-temperature condenser 8 also has cycle fluid passage to connect with vaporizer 7 through the second booster 11, and vaporizer 7 also has
Cycle fluid passage is connected with the second decompressor 4, and the second decompressor 4 also has cycle fluid passage to connect with low-temperature condenser 8, high
Temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, and warm condenser 6 also has heated medium passage to connect with outside
Logical, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has coolant guiding channel and ft connection,
Decompressor 2, the hydraulic turbine 3 and the second decompressor 4 connect compressor 1 and transmit power.
(2), in flow process, the boosted pump of operative liquid cycle fluid 10 pressurization of warm condenser 6 enters high-temperature heat exchanger
5 absorb heat and vaporize, and enter decompressor 2 blood pressure lowering work done afterwards;It is cold that the cycle fluid of decompressor 2 and compressor 1 discharge enters high temperature
Condenser 6 heat release in heated medium and condenses, and the cycle fluid of warm condenser 6 is divided into two-way, and the first via flows through the hydraulic turbine 3 and drops
Vaporizer 7 is entered, the second tunnel is supplied to booster 10 after pressure work done;The liquid circulation working medium of low-temperature condenser 8 flows through second
Vaporizer 7 is entered, low-temperature heat medium flows through vaporizer 7, heating enters its interior cycle fluid vapour after booster 11 boosting
Change, the cycle fluid of vaporizer 7 release flows through the second decompressor 4 blood pressure lowering work done;The cycle fluid of the second decompressor 4 discharge enters
Low-temperature condenser 8 heat release in cooling medium and partial condensation, is divided into two-way gaseous state cycle fluid afterwards and enters 1 liter of compressor
Pressure heats up, and liquid circulation working medium is supplied to the second booster 11;The work(of decompressor 2, the hydraulic turbine 3 and the second decompressor 4 output carries
Supply compressor 1 is used as power, and forms the 3rd class thermal drivers compression heat pump.
Shown in Figure 16, the 3rd class thermal drivers compression heat pump is realized in:
(1), in structure, it is mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, warm condenser, steaming
Send out device, low-temperature condenser, choke valve, booster and the second booster to be formed;Warm condenser 6 has cycle fluid passage through rising
Press pump 10 is connected with high-temperature heat exchanger 5, and high-temperature heat exchanger 5 also has cycle fluid passage to connect with decompressor 2, decompressor 2
Cycle fluid passage is also had to connect with warm condenser 6, low-temperature condenser 8 has cycle fluid passage to connect with compressor 1, compression
Machine 1 also has cycle fluid passage to connect with warm condenser 6, and warm condenser 6 also has cycle fluid passage through choke valve 9 and steaming
Send out device 7 to connect, low-temperature condenser 8 also has cycle fluid passage to connect with vaporizer 7 through the second booster 11, and vaporizer 7 also has
Cycle fluid passage is connected with the second decompressor 4, and the second decompressor 4 also has cycle fluid passage to connect with low-temperature condenser 8, high
Temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, and warm condenser 6 also has heated medium passage to connect with outside
Logical, vaporizer 7 also has low-temperature heat medium passage and ft connection, and low-temperature condenser 8 also has coolant guiding channel and ft connection,
Decompressor 2 and the second decompressor 4 connect compressor 1 and transmit power.
(2), in flow process, the boosted pump of operative liquid cycle fluid 10 pressurization of warm condenser 6 enters high-temperature heat exchanger
5 absorb heat and vaporize, and enter decompressor 2 blood pressure lowering work done afterwards;It is cold that the cycle fluid of decompressor 2 and compressor 1 discharge enters high temperature
Condenser 6 heat release in heated medium and condenses, and the cycle fluid of warm condenser 6 is divided into two-way, and the first via flows through choke valve 9 and saves
Vaporizer 7 is entered, the second tunnel is supplied to booster 10 after stream blood pressure lowering;The liquid circulation working medium of low-temperature condenser 8 flows through second
Vaporizer 7 is entered, low-temperature heat medium flows through vaporizer 7, heating enters its interior cycle fluid vapour after booster 11 boosting
Change, the cycle fluid of vaporizer 7 release flows through the second decompressor 4 blood pressure lowering work done;The cycle fluid of the second decompressor 4 discharge enters
Low-temperature condenser 8 heat release in cooling medium and partial condensation, is divided into two-way gaseous state cycle fluid afterwards and carries entrance compressor 1
Boosting heats up, and liquid circulation working medium is supplied to the second booster 11;The work(of decompressor 2 and the second decompressor 4 output is supplied to pressure
Contracting machine 1 is used as power, and forms the 3rd class thermal drivers compression heat pump.
Shown in Figure 17, the 3rd class thermal drivers compression heat pump is realized in:
(1) in structure, in the 3rd class thermal drivers compression heat pump shown in Fig. 7, increase regenerator, vaporizer 7 is followed
Ring working medium passage is connected with the second decompressor 4 and is adjusted to vaporizer 7 and has cycle fluid passage through regenerator 12 and the second decompressor 4
Connection, warm condenser 6 is had cycle fluid passage to connect with vaporizer 7 through the hydraulic turbine 3 and is adjusted to warm condenser 6 and has circulation
Working medium passage is connected with vaporizer 7 with the hydraulic turbine 3 through regenerator 12.
(2), in flow process, compared with the 3rd class thermal drivers compression heat pump workflow shown in Fig. 7, increase or change
The cycle fluid of warm condenser 6 discharge that flow process is performed such flows through regenerator 12 heat release, flows through water wheels afterwards
Machine 3 blood pressure lowering work done enters vaporizer 7;The cycle fluid of vaporizer 7 discharge flows through regenerator 12 and absorbs heat, and enters second afterwards swollen
The blood pressure lowering work done of swollen machine 4, forms the 3rd class thermal drivers compression heat pump.
Shown in Figure 18, the 3rd class thermal drivers compression heat pump is realized in:
(1) in structure, in the 3rd class thermal drivers compression heat pump shown in Fig. 7, increase regenerator, by low-temperature condenser 8
There is the boosted pump of cycle fluid passage 10 to connect with high-temperature heat exchanger 5 to be adjusted to low-temperature condenser 8 and have cycle fluid passage warp
Booster 10 is connected with high-temperature heat exchanger 5 with regenerator 12, by warm condenser 6 have cycle fluid passage through the hydraulic turbine 3 with
Vaporizer 7 connection is adjusted to warm condenser 6 has cycle fluid passage to connect with vaporizer 7 with the hydraulic turbine 3 through regenerator 12.
(2), in flow process, compared with the 3rd class thermal drivers compression heat pump workflow shown in Fig. 7, increase or change
The cycle fluid of warm condenser 6 discharge that flow process is performed such flows through regenerator 12 heat release, flows through water wheels afterwards
Machine 3 blood pressure lowering work done enters vaporizer 7;The cycle fluid of booster 10 discharge enters high warm and hands over after flowing through regenerator 12 heat absorption
Parallel operation 5, forms the 3rd class thermal drivers compression heat pump.
Shown in Figure 19, the 3rd class thermal drivers compression heat pump is realized in:
(1) in structure, in the 3rd class thermal drivers compression heat pump shown in Fig. 8, increase by the second compressor, by condensation at low temperature
Device 8 has cycle fluid passage to connect with compressor 1 to be adjusted to low-temperature condenser 8 and have cycle fluid passage and the second compressor 13 even
Logical, the second compressor 13 has cycle fluid passage to connect with compressor 1 through warm condenser 6 again, and decompressor 2 connects the second compression
Machine 13 simultaneously transmits power.
(2), in flow process, compared with the 3rd class thermal drivers compression heat pump workflow shown in Fig. 8, increase or change
The cycle fluid of low-temperature condenser 8 release that flow process is performed such sequentially enters the second compressor 13 boosting and heats up, stream
Through warm condenser 6 simultaneously heat release, enter compressor 1 afterwards;Decompressor 2 provides power to the second compressor 13, forms the 3rd class
Thermal drivers compression heat pump.
Effect that the technology of the present invention can be realized the 3rd class thermal drivers compression heat pump proposed by the invention, has
Following effect and advantage:
(1) new approaches and the new technique of temperature difference utilization are proposed.
(2) heat energy (temperature difference) drives, and realizes heat generating temperature lifting, or may be selected externally to provide power simultaneously.
(3) flow process rationally, is capable of the abundant of the two class temperature difference and efficient utilization.
(4) if necessary, or by external impetus realize heat generating temperature lifting, flexibly, adaptability is good for mode.
(5) with compressor, decompressor, booster and heat exchanger for the main building block of compression heat pump, structure is simple.
(6) working medium is applied widely, can be well adapted for heat demand, mates flexibly between working medium and running parameter.
(7) cope with and adapt to low temperature thermic load, improve the effective rate of utilization of low temperature thermic load.
(8) cope with and adapt to high warm load, improve the effective rate of utilization of high warm load.
(9) provide multiple concrete technical schemes, cope with numerous different actual states, have the wider scope of application.
(10) extend heat pump techniques, enrich the type of compression heat pump, be conducive to heat energy efficient is better achieved
Using.
Claims (24)
1. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, the second decompressor, high temperature heat exchange
Device, warm condenser, vaporizer and low-temperature condenser are formed;Compressor (1) has cycle fluid passage and high-temperature heat exchanger
(5) connect, high-temperature heat exchanger (5) also has cycle fluid passage to connect with decompressor (2), and decompressor (2) also has cycle fluid
Passage is connected with warm condenser (6), and warm condenser (6) also has cycle fluid passage through the hydraulic turbine (3) with vaporizer (7) even
Logical, vaporizer (7) also has cycle fluid passage to connect with the second decompressor (4), and the second decompressor (4) also has cycle fluid passage
Connect with low-temperature condenser (8), low-temperature condenser (8) also has cycle fluid passage to connect with compressor (1), high-temperature heat exchanger
(5) also have high temperature thermal medium passage and ft connection, warm condenser (6) also has heated medium passage and ft connection, steams
Send out device (7) and also have low-temperature heat medium passage and ft connection, low-temperature condenser (8) also has coolant guiding channel and ft connection,
Decompressor (2), the hydraulic turbine (3) and the second decompressor (4) connect compressor (1) and transmit power, form the 3rd class thermal drivers pressure
Contracting formula heat pump.
2. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, high temperature
Condenser, vaporizer, low-temperature condenser and choke valve are formed;Compressor (1) has cycle fluid passage and high-temperature heat exchanger
(5) connect, high-temperature heat exchanger (5) also has cycle fluid passage to connect with decompressor (2), and decompressor (2) also has cycle fluid
Passage is connected with warm condenser (6), and warm condenser (6) also has cycle fluid passage through choke valve (9) with vaporizer (7) even
Logical, vaporizer (7) also has cycle fluid passage to connect with the second decompressor (4), and the second decompressor (4) also has cycle fluid passage
Connect with low-temperature condenser (8), low-temperature condenser (8) also has cycle fluid passage to connect with compressor (1), high-temperature heat exchanger
(5) also have high temperature thermal medium passage and ft connection, warm condenser (6) also has heated medium passage and ft connection, steams
Send out device (7) and also have low-temperature heat medium passage and ft connection, low-temperature condenser (8) also has coolant guiding channel and ft connection,
Decompressor (2) and the second decompressor (4) connect compressor (1) and transmit power, form the 3rd class thermal drivers compression heat pump.
3. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, the second decompressor, high temperature heat exchange
Device, warm condenser, vaporizer, low-temperature condenser and booster are formed;Low-temperature condenser (8) has cycle fluid passage and pressure
Contracting machine (1) connects, and compressor (1) also has cycle fluid passage to connect with high-temperature heat exchanger (5), and low-temperature condenser (8) also has
The boosted pump of cycle fluid passage (10) is connected with high-temperature heat exchanger (5), and high-temperature heat exchanger (5) also has cycle fluid passage
Connect with decompressor (2), decompressor (2) also has cycle fluid passage to connect with warm condenser (6), warm condenser (6) is also
Cycle fluid passage is had to connect with vaporizer (7) through the hydraulic turbine (3), vaporizer (7) also has cycle fluid passage and the second expansion
Machine (4) connects, and the second decompressor (4) also has cycle fluid passage to connect with low-temperature condenser (8), and high-temperature heat exchanger (5) is also
There are high temperature thermal medium passage and ft connection, warm condenser (6) also has heated medium passage and ft connection, vaporizer
(7) also have low-temperature heat medium passage and ft connection, low-temperature condenser (8) also has coolant guiding channel and ft connection, expands
Machine (2), the hydraulic turbine (3) and the second decompressor (4) connect compressor (1) and transmit power, form the 3rd class thermal drivers compression
Heat pump;Wherein, or decompressor (2), the hydraulic turbine (3) and the second decompressor (4) connect compressor (1) and booster (10) and transmit
Power.
4. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, high temperature
Condenser, vaporizer, low-temperature condenser, choke valve and booster are formed;Low-temperature condenser (8) has cycle fluid passage and pressure
Contracting machine (1) connects, and compressor (1) also has cycle fluid passage to connect with high-temperature heat exchanger (5), and low-temperature condenser (8) also has
The boosted pump of cycle fluid passage (10) is connected with high-temperature heat exchanger (5), and high-temperature heat exchanger (5) also has cycle fluid passage
Connect with decompressor (2), decompressor (2) also has cycle fluid passage to connect with warm condenser (6), warm condenser (6) is also
Cycle fluid passage is had to connect with vaporizer (7) through choke valve (9), vaporizer (7) also has cycle fluid passage and the second expansion
Machine (4) connects, and the second decompressor (4) also has cycle fluid passage to connect with low-temperature condenser (8), and high-temperature heat exchanger (5) is also
There are high temperature thermal medium passage and ft connection, warm condenser (6) also has heated medium passage and ft connection, vaporizer
(7) also have low-temperature heat medium passage and ft connection, low-temperature condenser (8) also has coolant guiding channel and ft connection, expands
Machine (2) and the second decompressor (4) connect compressor (1) and transmit power, form the 3rd class thermal drivers compression heat pump;Wherein,
Or decompressor (2) and the second decompressor (4) connect compressor (1) and booster (10) and transmit power.
5. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, the second decompressor, high temperature heat exchange
Device, warm condenser, vaporizer, low-temperature condenser, booster and the second booster are formed;Low-temperature condenser (8) has circulation
Working medium passage is connected with compressor (1), and compressor (1) also has cycle fluid passage to connect with high-temperature heat exchanger (5), low temperature cold
Condenser (8) also has the boosted pump of cycle fluid passage (10) to connect with high-temperature heat exchanger (5), and high-temperature heat exchanger (5) also has
Cycle fluid passage is connected with decompressor (2), and decompressor (2) also has cycle fluid passage to connect with warm condenser (6), high temperature
Condenser (6) also has cycle fluid passage to connect with vaporizer (7) through the hydraulic turbine (3), and low-temperature condenser (8) also has cycle fluid
Passage is connected with vaporizer (7) through the second booster (11), and vaporizer (7) also has cycle fluid passage and the second decompressor (4)
Connection, the second decompressor (4) also has cycle fluid passage to connect with low-temperature condenser (8), and high-temperature heat exchanger (5) also has high temperature
Hot media channel and ft connection, warm condenser (6) also has heated medium passage and ft connection, and vaporizer (7) also has
Low-temperature heat medium passage and ft connection, low-temperature condenser (8) also has coolant guiding channel and ft connection, decompressor (2), water
Turbine (3) and the second decompressor (4) connect compressor (1) and transmit power, form the 3rd class thermal drivers compression heat pump;Its
In, or decompressor (2), the hydraulic turbine (3) and the second decompressor (4) connection compressor (1), booster (10) and the second booster
And transmit power (11).
6. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, high temperature
Condenser, vaporizer, low-temperature condenser, choke valve, booster and the second booster are formed;Low-temperature condenser (8) has circulation
Working medium passage is connected with compressor (1), and compressor (1) also has cycle fluid passage to connect with high-temperature heat exchanger (5), low temperature cold
Condenser (8) also has the boosted pump of cycle fluid passage (10) to connect with high-temperature heat exchanger (5), and high-temperature heat exchanger (5) also has
Cycle fluid passage is connected with decompressor (2), and decompressor (2) also has cycle fluid passage to connect with warm condenser (6), high temperature
Condenser (6) also has cycle fluid passage to connect with vaporizer (7) through choke valve (9), and low-temperature condenser (8) also has cycle fluid
Passage is connected with vaporizer (7) through the second booster (11), and vaporizer (7) also has cycle fluid passage and the second decompressor (4)
Connection, the second decompressor (4) also has cycle fluid passage to connect with low-temperature condenser (8), and high-temperature heat exchanger (5) also has high temperature
Hot media channel and ft connection, warm condenser (6) also has heated medium passage and ft connection, and vaporizer (7) also has
Low-temperature heat medium passage and ft connection, low-temperature condenser (8) also have coolant guiding channel and ft connection, decompressor (2) and
Second decompressor (4) connects compressor (1) and transmits power, forms the 3rd class thermal drivers compression heat pump;Wherein, or decompressor
(2) and the second decompressor (4) connects compressor (1), booster (10) and the second booster (11) and transmits power.
7. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, the second decompressor, high temperature heat exchange
Device, warm condenser, vaporizer, low-temperature condenser and booster are formed;Low-temperature condenser (8) has cycle fluid passage through rising
Press pump (10) is connected with high-temperature heat exchanger (5), and high-temperature heat exchanger (5) also has cycle fluid passage to connect with decompressor (2),
Decompressor (2) also has cycle fluid passage connect with warm condenser (6), low-temperature condenser (8) also cycle fluid passage and
Compressor (1) connects, and compressor (1) also has cycle fluid passage to connect with warm condenser (6), and warm condenser (6) also has
Cycle fluid passage is connected with vaporizer (7) through the hydraulic turbine (3), and vaporizer (7) also has cycle fluid passage and the second decompressor
(4) connect, the second decompressor (4) also has cycle fluid passage to connect with low-temperature condenser (8), and high-temperature heat exchanger (5) also has
High temperature thermal medium passage and ft connection, warm condenser (6) also has heated medium passage and ft connection, vaporizer (7)
Also have low-temperature heat medium passage and ft connection, low-temperature condenser (8) also has coolant guiding channel and ft connection, decompressor
(2), the hydraulic turbine (3) and the second decompressor (4) connect compressor (1) and transmit power, form the 3rd class thermal drivers compression type heat
Pump;Wherein, or decompressor (2), the hydraulic turbine (3) and the second decompressor (4) connect compressor (1) and booster (10) and transmit dynamic
Power.
8. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, high temperature
Condenser, vaporizer, low-temperature condenser, choke valve and booster are formed;Low-temperature condenser (8) has cycle fluid passage through rising
Press pump (10) is connected with high-temperature heat exchanger (5), and high-temperature heat exchanger (5) also has cycle fluid passage to connect with decompressor (2),
Decompressor (2) also has cycle fluid passage connect with warm condenser (6), low-temperature condenser (8) also cycle fluid passage and
Compressor (1) connects, and compressor (1) also has cycle fluid passage to connect with warm condenser (6), and warm condenser (6) also has
Cycle fluid passage is connected with vaporizer (7) through choke valve (9), and vaporizer (7) also has cycle fluid passage and the second decompressor
(4) connect, the second decompressor (4) also has cycle fluid passage to connect with low-temperature condenser (8), and high-temperature heat exchanger (5) also has
High temperature thermal medium passage and ft connection, warm condenser (6) also has heated medium passage and ft connection, vaporizer (7)
Also have low-temperature heat medium passage and ft connection, low-temperature condenser (8) also has coolant guiding channel and ft connection, decompressor
(2) and the second decompressor (4) connects compressor (1) and transmits power, forms the 3rd class thermal drivers compression heat pump;Wherein, or
Decompressor (2) and the second decompressor (4) connect compressor (1) and booster (10) and transmit power.
9. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the hydraulic turbine, the second decompressor, high temperature heat exchange
Device, warm condenser, vaporizer, low-temperature condenser, booster and the second booster are formed;Low-temperature condenser (8) has circulation
The boosted pump of working medium passage (10) is connected with high-temperature heat exchanger (5), high-temperature heat exchanger (5) also have cycle fluid passage with swollen
Swollen machine (2) connection, decompressor (2) also has cycle fluid passage to connect with warm condenser (6), and low-temperature condenser (8) also follows
Ring working medium passage is connected with compressor (1), and compressor (1) also has cycle fluid passage to connect with warm condenser (6), and high temperature is cold
Condenser (6) also has cycle fluid passage to connect with vaporizer (7) through the hydraulic turbine (3), and low-temperature condenser (8) also has cycle fluid to lead to
Road second booster (11) is connected with vaporizer (7), and vaporizer (7) also has cycle fluid passage and the second decompressor (4) even
Logical, the second decompressor (4) also has cycle fluid passage to connect with low-temperature condenser (8), and high-temperature heat exchanger (5) also has high warm
Medium channel and ft connection, warm condenser (6) also has heated medium passage and ft connection, and vaporizer (7) is also low
Warm passage and ft connection, low-temperature condenser (8) also has coolant guiding channel and ft connection, decompressor (2), water wheels
Machine (3) and the second decompressor (4) connect compressor (1) and transmit power, form the 3rd class thermal drivers compression heat pump;Wherein,
Or decompressor (2), the hydraulic turbine (3) and the second decompressor (4) connect compressor (1), booster (10) and the second booster (11)
And transmit power.
10. the 3rd class thermal drivers compression heat pump, mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, height
Warm condenser, vaporizer, low-temperature condenser, choke valve, booster and the second booster are formed;Low-temperature condenser (8) follows
The boosted pump of ring working medium passage (10) is connected with high-temperature heat exchanger (5), high-temperature heat exchanger (5) also have cycle fluid passage with
Decompressor (2) connects, and decompressor (2) also has cycle fluid passage to connect with warm condenser (6), and low-temperature condenser (8) also has
Cycle fluid passage is connected with compressor (1), and compressor (1) also has cycle fluid passage to connect with warm condenser (6), high temperature
Condenser (6) also has cycle fluid passage to connect with vaporizer (7) through choke valve (9), and low-temperature condenser (8) also has cycle fluid
Passage is connected with vaporizer (7) through the second booster (11), and vaporizer (7) also has cycle fluid passage and the second decompressor (4)
Connection, the second decompressor (4) also has cycle fluid passage to connect with low-temperature condenser (8), and high-temperature heat exchanger (5) also has high temperature
Hot media channel and ft connection, warm condenser (6) also has heated medium passage and ft connection, and vaporizer (7) also has
Low-temperature heat medium passage and ft connection, low-temperature condenser (8) also have coolant guiding channel and ft connection, decompressor (2) and
Second decompressor (4) connects compressor (1) and transmits power, forms the 3rd class thermal drivers compression heat pump;Wherein, or decompressor
(2) and the second decompressor (4) connects compressor (1), booster (10) and the second booster (11) and transmits power.
11. the 3rd class thermal drivers compression heat pumps, are mainly handed over by compressor, decompressor, the hydraulic turbine, the second decompressor, high warm
Parallel operation, warm condenser, vaporizer, low-temperature condenser and booster are formed;Low-temperature condenser (8) has cycle fluid passage warp
Booster (10) is connected with high-temperature heat exchanger (5), and high-temperature heat exchanger (5) also has cycle fluid passage with decompressor (2) even
Logical, decompressor (2) also has cycle fluid passage to connect with warm condenser (6), and warm condenser (6) also has cycle fluid passage
Connect with vaporizer (7) through the hydraulic turbine (3), vaporizer (7) also has cycle fluid passage to connect with the second decompressor (4), second
Decompressor (4) also has cycle fluid passage to connect with low-temperature condenser (8), and vaporizer (7) also has cycle fluid passage and compression
Machine (1) connects, and compressor (1) also has cycle fluid passage to connect with warm condenser (6), and high-temperature heat exchanger (5) also has height
Warm passage and ft connection, warm condenser (6) also has heated medium passage and ft connection, and vaporizer (7) is also
There are low-temperature heat medium passage and ft connection, low-temperature condenser (8) also coolant guiding channel and ft connection, decompressor (2),
The hydraulic turbine (3) and the second decompressor (4) connect compressor (1) and transmit power, form the 3rd class thermal drivers compression heat pump;Its
In, or decompressor (2), the hydraulic turbine (3) and the second decompressor (4) connect compressor (1) and booster (10) and transmit power.
12. the 3rd class thermal drivers compression heat pumps, mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, height
Warm condenser, vaporizer, low-temperature condenser, choke valve and booster are formed;Low-temperature condenser (8) has cycle fluid passage warp
Booster (10) is connected with high-temperature heat exchanger (5), and high-temperature heat exchanger (5) also has cycle fluid passage with decompressor (2) even
Logical, decompressor (2) also has cycle fluid passage to connect with warm condenser (6), and warm condenser (6) also has cycle fluid passage
Connect with vaporizer (7) through choke valve (9), vaporizer (7) also has cycle fluid passage to connect with the second decompressor (4), second
Decompressor (4) also has cycle fluid passage to connect with low-temperature condenser (8), and vaporizer (7) also has cycle fluid passage and compression
Machine (1) connects, and compressor (1) also has cycle fluid passage to connect with warm condenser (6), and high-temperature heat exchanger (5) also has height
Warm passage and ft connection, warm condenser (6) also has heated medium passage and ft connection, and vaporizer (7) is also
There are low-temperature heat medium passage and ft connection, low-temperature condenser (8) also has coolant guiding channel and ft connection, decompressor (2)
Connect compressor (1) with the second decompressor (4) and transmit power, form the 3rd class thermal drivers compression heat pump;Wherein, or expand
Machine (2) and the second decompressor (4) connect compressor (1) and booster (10) and transmit power.
13. the 3rd class thermal drivers compression heat pumps, are mainly handed over by compressor, decompressor, the hydraulic turbine, the second decompressor, high warm
Parallel operation, warm condenser, vaporizer, low-temperature condenser, booster and the second booster are formed;Low-temperature condenser (8) follows
The boosted pump of ring working medium passage (10) is connected with high-temperature heat exchanger (5), high-temperature heat exchanger (5) also have cycle fluid passage with
Decompressor (2) connects, and decompressor (2) also has cycle fluid passage to connect with warm condenser (6), and warm condenser (6) also has
Cycle fluid passage is connected with vaporizer (7) through the hydraulic turbine (3), and low-temperature condenser (8) also has cycle fluid passage through second liter
Press pump (11) is connected with vaporizer (7), and vaporizer (7) also has cycle fluid passage to connect with the second decompressor (4), the second expansion
Machine (4) also has cycle fluid passage to connect with low-temperature condenser (8), and vaporizer (7) also has cycle fluid passage and compressor (1)
Connection, compressor (1) also has cycle fluid passage to connect with warm condenser (6), and high-temperature heat exchanger (5) also has high warm to be situated between
Matter passage and ft connection, warm condenser (6) also has heated medium passage and ft connection, and vaporizer (7) also has low temperature
Hot media channel and ft connection, low-temperature condenser (8) also has coolant guiding channel and ft connection, decompressor (2), the hydraulic turbine
(3) and the second decompressor (4) connects compressor (1) and transmits power, forms the 3rd class thermal drivers compression heat pump;Wherein, or
Decompressor (2), the hydraulic turbine (3) and the second decompressor (4) connect compressor (1), booster (10) and the second booster (11) and
Transmission power.
14. the 3rd class thermal drivers compression heat pumps, mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, height
Warm condenser, vaporizer, low-temperature condenser, choke valve, booster and the second booster are formed;Low-temperature condenser (8) follows
The boosted pump of ring working medium passage (10) is connected with high-temperature heat exchanger (5), high-temperature heat exchanger (5) also have cycle fluid passage with
Decompressor (2) connects, and decompressor (2) also has cycle fluid passage to connect with warm condenser (6), and warm condenser (6) also has
Cycle fluid passage is connected with vaporizer (7) through choke valve (9), and low-temperature condenser (8) also has cycle fluid passage through second liter
Press pump (11) is connected with vaporizer (7), and vaporizer (7) also has cycle fluid passage to connect with the second decompressor (4), the second expansion
Machine (4) also has cycle fluid passage to connect with low-temperature condenser (8), and vaporizer (7) also has cycle fluid passage and compressor (1)
Connection, compressor (1) also has cycle fluid passage to connect with warm condenser (6), and high-temperature heat exchanger (5) also has high warm to be situated between
Matter passage and ft connection, warm condenser (6) also has heated medium passage and ft connection, and vaporizer (7) also has low temperature
Hot media channel and ft connection, low-temperature condenser (8) also has coolant guiding channel and ft connection, decompressor (2) and second
Decompressor (4) connects compressor (1) and transmits power, forms the 3rd class thermal drivers compression heat pump;Wherein, or decompressor (2)
Connect compressor (1), booster (10) and the second booster (11) with the second decompressor (4) and transmit power.
15. the 3rd class thermal drivers compression heat pumps, are mainly handed over by compressor, decompressor, the hydraulic turbine, the second decompressor, high warm
Parallel operation, warm condenser, vaporizer, low-temperature condenser, booster and the second booster are formed;Warm condenser (6) follows
The boosted pump of ring working medium passage (10) is connected with high-temperature heat exchanger (5), high-temperature heat exchanger (5) also have cycle fluid passage with
Decompressor (2) connects, and decompressor (2) also has cycle fluid passage to connect with warm condenser (6), and low-temperature condenser (8) follows
Ring working medium passage is connected with compressor (1), and compressor (1) also has cycle fluid passage to connect with warm condenser (6), and high temperature is cold
Condenser (6) also has cycle fluid passage to connect with vaporizer (7) through the hydraulic turbine (3), and low-temperature condenser (8) also has cycle fluid to lead to
Road second booster (11) is connected with vaporizer (7), and vaporizer (7) also has cycle fluid passage and the second decompressor (4) even
Logical, the second decompressor (4) also has cycle fluid passage to connect with low-temperature condenser (8), and high-temperature heat exchanger (5) also has high warm
Medium channel and ft connection, warm condenser (6) also has heated medium passage and ft connection, and vaporizer (7) is also low
Warm passage and ft connection, low-temperature condenser (8) also has coolant guiding channel and ft connection, decompressor (2), water wheels
Machine (3) and the second decompressor (4) connect compressor (1) and transmit power, form the 3rd class thermal drivers compression heat pump;Wherein,
Or decompressor (2), the hydraulic turbine (3) and the second decompressor (4) connect compressor (1), booster (10) and the second booster (11)
And transmit power.
16. the 3rd class thermal drivers compression heat pumps, mainly by compressor, decompressor, the second decompressor, high-temperature heat exchanger, height
Warm condenser, vaporizer, low-temperature condenser, choke valve, booster and the second booster are formed;Warm condenser (6) follows
The boosted pump of ring working medium passage (10) is connected with high-temperature heat exchanger (5), high-temperature heat exchanger (5) also have cycle fluid passage with
Decompressor (2) connects, and decompressor (2) also has cycle fluid passage to connect with warm condenser (6), and low-temperature condenser (8) follows
Ring working medium passage is connected with compressor (1), and compressor (1) also has cycle fluid passage to connect with warm condenser (6), and high temperature is cold
Condenser (6) also has cycle fluid passage to connect with vaporizer (7) through choke valve (9), and low-temperature condenser (8) also has cycle fluid to lead to
Road second booster (11) is connected with vaporizer (7), and vaporizer (7) also has cycle fluid passage and the second decompressor (4) even
Logical, the second decompressor (4) also has cycle fluid passage to connect with low-temperature condenser (8), and high-temperature heat exchanger (5) also has high warm
Medium channel and ft connection, warm condenser (6) also has heated medium passage and ft connection, and vaporizer (7) is also low
Warm passage and ft connection, low-temperature condenser (8) also has coolant guiding channel and ft connection, decompressor (2) and the
Two decompressors (4) connect compressor (1) and transmit power, form the 3rd class thermal drivers compression heat pump;Wherein, or decompressor
(2) and the second decompressor (4) connects compressor (1), booster (10) and the second booster (11) and transmits power.
17. the 3rd class thermal drivers compression heat pumps, are in the 3rd class heat arbitrary described in claim 1,3,5,7,9,11,13,15
Drive in compression heat pump, increase regenerator, vaporizer (7) is had cycle fluid passage to connect adjustment with the second decompressor (4)
There is cycle fluid passage to connect with the second decompressor (4) through regenerator (12) for vaporizer (7), warm condenser (6) is followed
Ring working medium passage is connected with vaporizer (7) through the hydraulic turbine (3) and is adjusted to warm condenser (6) and has cycle fluid passage through regenerator
(12) connect with vaporizer (7) with the hydraulic turbine (3), form the 3rd class thermal drivers compression heat pump.
18. the 3rd class thermal drivers compression heat pumps, are in the 3rd class heat arbitrary described in claim 2,4,6,8,10,12,14,16
Drive in compression heat pump, increase regenerator, vaporizer (7) is had cycle fluid passage to connect adjustment with the second decompressor (4)
There is cycle fluid passage to connect with the second decompressor (4) through regenerator (12) for vaporizer (7), warm condenser (6) is followed
Ring working medium passage is connected with vaporizer (7) through choke valve (9) and is adjusted to warm condenser (6) and has cycle fluid passage through regenerator
(12) connect with vaporizer (7) with choke valve (9), form the 3rd class thermal drivers compression heat pump.
19. the 3rd class thermal drivers compression heat pumps, are in the 3rd class thermal drivers pressure arbitrary described in claim 3,5,7,9,11,13
In contracting formula heat pump, increase regenerator, low-temperature condenser (8) is had the boosted pump of cycle fluid passage (10) and high-temperature heat exchanger
(5) connection is adjusted to low-temperature condenser (8) the boosted pump of cycle fluid passage (10) and regenerator (12) and high temperature heat exchange
Device (5) connects, and warm condenser (6) is had cycle fluid passage to connect with vaporizer (7) through the hydraulic turbine (3), and to be adjusted to high temperature cold
Condenser (6) has cycle fluid passage to connect with vaporizer (7) with the hydraulic turbine (3) through regenerator (12), forms the 3rd class thermal drivers
Compression heat pump.
20. the 3rd class thermal drivers compression heat pumps, are in the 3rd class thermal drivers arbitrary described in claim 4,6,8,10,12,14
In compression heat pump, increase regenerator, low-temperature condenser (8) is had the boosted pump of cycle fluid passage (10) and high temperature heat exchange
Device (5) connection is adjusted to low-temperature condenser (8) has the boosted pump of cycle fluid passage (10) and regenerator (12) to hand over high warm
Parallel operation (5) connects, and warm condenser (6) is had cycle fluid passage to connect with vaporizer (7) through choke valve (9) and is adjusted to high temperature
Condenser (6) has cycle fluid passage to connect with vaporizer (7) with choke valve (9) through regenerator (12), forms the 3rd class heat and drives
Dynamic compression heat pump.
21. the 3rd class thermal drivers compression heat pumps, are in the 3rd class thermal drivers compression arbitrary described in claim 7-10,15-16
In formula heat pump, increase by the second compressor, low-temperature condenser (8) is had cycle fluid passage to connect with compressor (1) and is adjusted to low
Warm condenser (8) has cycle fluid passage to connect with the second compressor (13), and the second compressor (13) has cycle fluid passage again
Connect with compressor (1) through warm condenser (6), decompressor (2) connects the second compressor (13) and transmits power, form the 3rd
Class thermal drivers compression heat pump.
22. the 3rd class thermal drivers compression heat pumps, are in the 3rd class thermal drivers compression heat pump arbitrary described in claim 11-14
In, increase by the second compressor, vaporizer (7) is had cycle fluid passage to connect with compressor (1) and is adjusted to vaporizer (7) and follows
Ring working medium passage is connected with the second compressor (13), and the second compressor (13) has cycle fluid passage again through warm condenser (6)
Connect with compressor (1), decompressor (2) connects the second compressor (13) and transmits power, form the 3rd class thermal drivers compression
Heat pump.
23. the 3rd class thermal drivers compression heat pumps, are the arbitrary 3rd class thermal drivers compression type heats described in claim 1-22
In pump, increase engine, engine connects compressor (1) and provides power to compressor (1), forms additional external power drive
The 3rd class thermal drivers compression heat pump.
24. the 3rd class thermal drivers compression heat pumps, are the arbitrary 3rd class thermal drivers compression type heats described in claim 1-22
In pump, increase working machine, decompressor (2) connects working machine and provides power to working machine, being formed to add externally provides power to bear
The 3rd class thermal drivers compression heat pump of lotus.
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CN109059346A (en) * | 2018-06-20 | 2018-12-21 | 李华玉 | Third class thermal drivers compression heat pump |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE3001315A1 (en) * | 1980-01-16 | 1981-07-23 | Hellmuth 1000 Berlin Butenuth | Heat-pump or energy management system - uses energy recovered from environment to drive heat pump by turbine |
CN1786622A (en) * | 2005-10-27 | 2006-06-14 | 王锦胜 | Multi-step combined energy exchanger and method of energy exchanging |
CN105823253A (en) * | 2015-04-13 | 2016-08-03 | 李华玉 | First-kind thermally driven compression heat pump |
CN108953121A (en) * | 2018-06-29 | 2018-12-07 | 山东大学 | From back pressure constant pressure compressed-air energy-storage system and method |
-
2016
- 2016-08-30 CN CN201610814960.0A patent/CN106440509B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE3001315A1 (en) * | 1980-01-16 | 1981-07-23 | Hellmuth 1000 Berlin Butenuth | Heat-pump or energy management system - uses energy recovered from environment to drive heat pump by turbine |
CN1786622A (en) * | 2005-10-27 | 2006-06-14 | 王锦胜 | Multi-step combined energy exchanger and method of energy exchanging |
CN105823253A (en) * | 2015-04-13 | 2016-08-03 | 李华玉 | First-kind thermally driven compression heat pump |
CN108953121A (en) * | 2018-06-29 | 2018-12-07 | 山东大学 | From back pressure constant pressure compressed-air energy-storage system and method |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109059346A (en) * | 2018-06-20 | 2018-12-21 | 李华玉 | Third class thermal drivers compression heat pump |
CN109059346B (en) * | 2018-06-20 | 2021-10-01 | 李华玉 | Third-class thermally-driven compression heat pump |
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