CN110345664A - Combined cycle heat pump assembly - Google Patents
Combined cycle heat pump assembly Download PDFInfo
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- CN110345664A CN110345664A CN201910617468.8A CN201910617468A CN110345664A CN 110345664 A CN110345664 A CN 110345664A CN 201910617468 A CN201910617468 A CN 201910617468A CN 110345664 A CN110345664 A CN 110345664A
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- compressor
- internal combustion
- combustion engine
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- expanding machine
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- 238000002485 combustion reaction Methods 0.000 claims abstract description 347
- 239000000446 fuel Substances 0.000 claims abstract description 70
- 239000002826 coolant Substances 0.000 claims abstract description 68
- 230000015572 biosynthetic process Effects 0.000 claims abstract description 5
- 239000000567 combustion gas Substances 0.000 claims description 18
- 230000006835 compression Effects 0.000 claims description 12
- 238000007906 compression Methods 0.000 claims description 12
- 239000000463 material Substances 0.000 claims description 7
- 238000009434 installation Methods 0.000 claims description 5
- 239000007788 liquid Substances 0.000 claims description 4
- 239000002737 fuel gas Substances 0.000 claims description 3
- 239000007789 gas Substances 0.000 claims 2
- 238000009833 condensation Methods 0.000 claims 1
- 230000005494 condensation Effects 0.000 claims 1
- 238000005057 refrigeration Methods 0.000 abstract description 8
- 238000000034 method Methods 0.000 description 52
- 238000010438 heat treatment Methods 0.000 description 32
- 238000010521 absorption reaction Methods 0.000 description 15
- 238000001816 cooling Methods 0.000 description 12
- 238000005516 engineering process Methods 0.000 description 7
- 230000006837 decompression Effects 0.000 description 5
- 235000006508 Nelumbo nucifera Nutrition 0.000 description 3
- 240000002853 Nelumbo nucifera Species 0.000 description 3
- 235000006510 Nelumbo pentapetala Nutrition 0.000 description 3
- 238000000262 chemical ionisation mass spectrometry Methods 0.000 description 3
- 230000000694 effects Effects 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 238000013459 approach Methods 0.000 description 1
- 230000002457 bidirectional effect Effects 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 239000000498 cooling water Substances 0.000 description 1
- 235000013399 edible fruits Nutrition 0.000 description 1
- 239000003507 refrigerant Substances 0.000 description 1
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B11/00—Compression machines, plants or systems, using turbines, e.g. gas turbines
- F25B11/02—Compression machines, plants or systems, using turbines, e.g. gas turbines as expanders
-
- 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
-
- 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
- F25B2327/00—Refrigeration system using an engine for driving a compressor
- F25B2327/001—Refrigeration system using an engine for driving a compressor of the internal combustion type
Abstract
The present invention provides combined cycle heat pump assembly, belongs to power, refrigeration and technical field of heat pumps.Outside has air and fuel channel to be connected to internal combustion engine, and there are also cooling medium channels be connected to outside for internal combustion engine, and there are also blast tubes to be connected to through high-temperature heat exchanger with external for internal combustion engine;Outside has heat source medium channel to be connected to the second compressor, there are also heat source medium channels to be communicated with compressor through heater for second compressor, there are also heat source medium channels to be connected to through high-temperature heat exchanger with expanding machine for compressor, and there are also heat source medium channels to be connected to outside for expanding machine;There are also heated medium channels be connected to outside for heater, and internal combustion engine and expanding machine connect compressor and the second compressor simultaneously transmit power, formation combined cycle heat pump assembly.
Description
Technical field:
The invention belongs to power, refrigeration and technical field of heat pumps.
Background technique:
Cold demand, heat demand and power demand, for human lives with production in it is common;In reality, people are often needed
Refrigeration, heat supply are realized using high temperature heat or is converted into power, it is also desirable to the power that freezes or utilize is carried out using power
And low temperature heat energy is combined to carry out heat supply.During stating purpose in realization, various considerations or condition limitation, packet will be faced
Include the type, grade and quantity of the energy, type, grade and the quantity of user demand, environment temperature, the type of working media, if
Standby process, structure and manufacturing cost etc..
Using absorption heat pump technology as thermal energy (temperature difference) utilization technology of representative, is driven using high warm load and realize heat supply
Or refrigeration;But because being influenced by the property of working media (solution and refrigerant medium), application field and application range by compared with
Big limitation.Using the compression heat pump technology of the grade difference between mechanical energy and thermal energy, there is certain flexibility, but it is very much
In the case of be difficult to realize efficient utilization to thermal energy.Meanwhile there are also common shortcomings for two kinds of technologies --- it can not heat
Or conversion of the thermal energy to mechanical energy is realized while refrigeration.
For this purpose, the present invention is directed to using high-grade fuel as heat supply or cooling supply drive energy, power drive or external is taken into account
Power demand is provided, proposes and realizes that the high temperature section temperature difference provides power using and to bidirectional circulating compression heat pump using internal combustion engine
The combined cycle heat pump assembly of working medium is directly used as with heat source, low-temperature heat source medium.
Summary of the invention:
Present invention is primarily intended to combined cycle heat pump assembly to be provided, specific summary of the invention subitem is described below:
1. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger
It is formed with heater;Outside has air duct to be connected to internal combustion engine, external to be connected to there are also fuel channel with internal combustion engine, internal combustion engine
There are also cooling medium channels be connected to outside, and there are also blast tubes to be connected to through high-temperature heat exchanger with external for internal combustion engine;Outside has
Heat source medium channel is connected to the second compressor, and there are also heat source medium channels to be communicated with compressor through heater for the second compressor,
There are also heat source medium channels to be connected to through high-temperature heat exchanger with expanding machine for compressor, and there are also heat source medium channels and external for expanding machine
Connection;There are also heated medium channels to be connected to outside for heater, internal combustion engine and expanding machine connect compressor and the second compressor
And power is transmitted, form combined cycle heat pump assembly.
2. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high temperature heat exchange
Device, heater, third compressor and the second high-temperature heat exchanger are formed;Outside has air duct to be connected to internal combustion engine, external
There are also fuel channels to be connected to internal combustion engine, internal combustion engine there are also cooling medium channel with outside be connected to, there are also blast tubes for internal combustion engine
It is connected to through the second high-temperature heat exchanger and high-temperature heat exchanger with outside;Outside has heat source medium channel and third compressor to connect
Logical, there are also heat source medium channels to be communicated with compressor through heater for third compressor, and there are also heat source medium channels through height for compressor
Temperature heat exchanger is connected to the second compressor, and there are also the second high-temperature heat exchangers of heat source medium channel and expansion for the second compressor
Machine connection, there are also heat source medium channels to be connected to external for expanding machine;Heater there are also heated medium channel with outside be connected to, it is interior
Combustion engine and expanding machine connect compressor, the second compressor and third compressor simultaneously transmit power, form combined cycle heat pump assembly.
3. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high temperature heat exchange
Device, heater, the second high-temperature heat exchanger and the second expanding machine are formed;Outside has air duct to be connected to internal combustion engine, external
There are also fuel channels to be connected to internal combustion engine, internal combustion engine there are also cooling medium channel with outside be connected to, there are also blast tubes for internal combustion engine
It is connected to through the second high-temperature heat exchanger and high-temperature heat exchanger with outside;Outside has heat source medium channel and the second compressor to connect
Logical, there are also heat source medium channels to be communicated with compressor through heater for the second compressor, and there are also heat source medium channels through height for compressor
Temperature heat exchanger is connected to expanding machine, and there are also the second high-temperature heat exchangers of heat source medium channel and the second expanding machine to connect for expanding machine
Logical, there are also heat source medium channels to be connected to external for the second expanding machine;Heater there are also heated medium channel with outside be connected to, it is interior
Combustion engine, expanding machine and the second expanding machine connect compressor and the second compressor simultaneously transmit power, form combined cycle heat pump assembly.
4. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high temperature heat exchange
Device, heater, the second expanding machine and low temperature heat exchanger are formed;Outside has air duct to be connected to internal combustion engine, and outside is also
Fuel channel is connected to internal combustion engine, internal combustion engine there are also cooling medium channel with outside be connected to, there are also blast tubes through height for internal combustion engine
Temperature heat exchanger is connected to outside;Outside has heat source medium channel to be connected to the second compressor, and there are also heat source Jie for the second compressor
Matter channel is communicated with compressor through heater, and there are also heat source medium channels to be connected to through high-temperature heat exchanger with expanding machine for compressor,
There are also heat source medium channels to be connected to through low temperature heat exchanger with the second expanding machine for expanding machine, and that there are also heat source mediums is logical for the second expanding machine
Road is connected to outside;Heater there are also heated medium channel with outside be connected to, low temperature heat exchanger there are also low-temperature heat medium lead to
Road be connected to outside, and internal combustion engine, expanding machine and the second expanding machine connect compressor and the second compressor simultaneously transmit power, is formed and is joined
Close circulating heat pump device.
5. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high temperature heat exchange
Device, heater, the second expanding machine and low temperature heat exchanger are formed;Outside has air duct to be connected to internal combustion engine, and outside is also
Fuel channel is connected to internal combustion engine, internal combustion engine there are also cooling medium channel with outside be connected to, there are also blast tubes through height for internal combustion engine
Temperature heat exchanger is connected to outside;Outside has heat source medium channel to be connected to the second expanding machine, and there are also heat source Jie for the second expanding machine
Matter channel is connected to through low temperature heat exchanger with the second compressor, and there are also heat source medium channels through heater and compression for the second compressor
Machine connection, there are also heat source medium channels to be connected to through high-temperature heat exchanger with expanding machine for compressor, and there are also heat source mediums to lead to for expanding machine
Road is connected to outside;Heater there are also heated medium channel with outside be connected to, low temperature heat exchanger there are also low-temperature heat medium lead to
Road be connected to outside, and internal combustion engine, expanding machine and the second expanding machine connect compressor and the second compressor simultaneously transmit power, is formed and is joined
Close circulating heat pump device.
6. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high temperature heat exchange
Device, heater and third compressor are formed;Outside has air duct to be connected to internal combustion engine, and external there are also fuel channel and internal combustions
Machine connection, there are also cooling medium channels be connected to external for internal combustion engine, internal combustion engine there are also blast tube through high-temperature heat exchanger with outside
Portion's connection;Outside has heat source medium channel to be connected to the second compressor, and there are also heat source medium channels through heater for the second compressor
It is connected to third compressor, there are also heat source medium channels to be communicated with compressor through heater for third compressor, and there are also heat for compressor
Source medium channel is connected to through high-temperature heat exchanger with expanding machine, expanding machine there are also heat source medium channel with outside be connected to;Heater
There are also heated medium channels to be connected to outside, internal combustion engine and expanding machine connect compressor, the second compressor and third compressor
And power is transmitted, form combined cycle heat pump assembly.
7. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high temperature heat exchange
Device, heater, the second expanding machine and the second heater are formed;Outside has air duct to be connected to internal combustion engine, and external there are also fire
Material channel is connected to internal combustion engine, and there are also cooling medium channels to be connected to external for internal combustion engine, and there are also blast tubes through high temperature for internal combustion engine
Heat exchanger is connected to outside;Outside has heat source medium channel to be connected to the second compressor, and there are also heat source mediums for the second compressor
Channel is communicated with compressor through heater, and there are also heat source medium channels to be connected to through high-temperature heat exchanger with expanding machine for compressor, swollen
There are also the second heaters of heat source medium channel to be connected to the second expanding machine for swollen machine, the second expanding machine there are also heat source medium channel with
Outside connection;Heater and the second heater also have heated medium channel to be connected to outside respectively, internal combustion engine, expanding machine and the
Two expanding machine connect compressors and the second compressor simultaneously transmit power, form combined cycle heat pump assembly.
8. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high temperature heat exchange
Device, heater, the second expanding machine and the second heater are formed;Outside has air duct to be connected to internal combustion engine, and external there are also fire
Material channel is connected to internal combustion engine, and there are also cooling medium channels to be connected to external for internal combustion engine, and there are also blast tubes through high temperature for internal combustion engine
Heat exchanger is connected to outside;Outside has heat source medium channel to be connected to the second compressor, and there are also heat source mediums for the second compressor
Channel is connected to through heater with the second expanding machine, and there are also the second heaters of heat source medium channel and compressor to connect for the second expanding machine
Logical, there are also heat source medium channels to be connected to through high-temperature heat exchanger with expanding machine for compressor, expanding machine there are also heat source medium channel and
Outside connection;Heater and the second heater also have heated medium channel to be connected to outside respectively, internal combustion engine, expanding machine and the
Two expanding machine connect compressors and the second compressor simultaneously transmit power, form combined cycle heat pump assembly.
9. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high temperature heat exchange
Device, heater, third compressor and the second heater are formed;Outside has air duct to be connected to internal combustion engine, and external there are also fire
Material channel is connected to internal combustion engine, and there are also cooling medium channels to be connected to external for internal combustion engine, and there are also blast tubes through high temperature for internal combustion engine
Heat exchanger is connected to outside;Outside has heat source medium channel to be connected to the second compressor, and there are also heat source mediums for the second compressor
Channel is connected to through heater with third compressor, and there are also the second heaters of heat source medium channel and compressor to connect for third compressor
Logical, there are also heat source medium channels to be connected to through high-temperature heat exchanger with expanding machine for compressor, expanding machine there are also heat source medium channel and
Outside connection;Heater and the second heater also have heated medium channel to be connected to outside respectively, and internal combustion engine and expanding machine connect
It connects compressor, the second compressor and third compressor and transmits power, form combined cycle heat pump assembly.
10. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high temperature heat exchange
Device, heater and regenerator are formed;Outside has air duct to be connected to internal combustion engine, and external there are also fuel channels and internal combustion engine to connect
Logical, there are also cooling medium channels to be connected to external for internal combustion engine, and there are also blast tubes to connect through high-temperature heat exchanger and outside for internal combustion engine
It is logical;Outside has heat source medium channel to be connected to the second compressor, and there are also heat source medium channels through regenerator and confession for the second compressor
Hot device is communicated with compressor, and there are also heat source medium channels to be connected to through regenerator and high-temperature heat exchanger with expanding machine for compressor, swollen
Swollen machine there are also heat source medium channel with outside be connected to;There are also heated medium channels to be connected to outside for heater, internal combustion engine and swollen
Swollen machine connect compressor and the second compressor simultaneously transmit power, form combined cycle heat pump assembly.
11. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high temperature heat exchange
Device, heater and regenerator are formed;Outside has air duct to be connected to internal combustion engine, and external there are also fuel channels and internal combustion engine to connect
Logical, there are also cooling medium channels to be connected to external for internal combustion engine, and there are also blast tubes to connect through high-temperature heat exchanger and outside for internal combustion engine
It is logical;Outside has heat source medium channel to be connected to through regenerator with the second compressor, and there are also heat source medium channels through supplying for the second compressor
Hot device and regenerator are communicated with compressor, and there are also heat source medium channels to be connected to through high-temperature heat exchanger with expanding machine for compressor, swollen
There are also heat source medium channels be connected to outside for swollen machine, and there are also heated medium channels to be connected to external for heater, internal combustion engine and swollen
Swollen machine connect compressor and the second compressor simultaneously transmit power, form combined cycle heat pump assembly.
12. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high temperature heat exchange
Device, heater and the second heater are formed;Outside has air duct to be connected to internal combustion engine, and external there are also fuel channel and internal combustions
Machine connection, there are also cooling medium channels to be connected to external for internal combustion engine, and there are also blast tubes through high-temperature heat exchanger and for internal combustion engine
Two heaters are connected to outside;Outside has heat source medium channel to be connected to the second compressor, and there are also heat source mediums for the second compressor
Channel is communicated with compressor through heater, and there are also heat source medium channels to be connected to through high-temperature heat exchanger with expanding machine for compressor, swollen
Swollen machine there are also heat source medium channel with outside be connected to;Heater and the second heater also have heated medium channel and outside respectively
Connection, internal combustion engine and expanding machine connect compressor and the second compressor simultaneously transmit power, form combined cycle heat pump assembly.
13. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high temperature heat exchange
Device, heater and the second heater are formed;Outside has air duct to be connected to internal combustion engine, and external there are also fuel channel and internal combustions
Machine connection, there are also cooling medium channels to be connected to external for internal combustion engine, and there are also blast tubes through high-temperature heat exchanger, second for internal combustion engine
Heater and heater are connected to outside;Outside has heat source medium channel to be connected to the second compressor, and there are also heat for the second compressor
Source medium channel is communicated with compressor through heater, and there are also heat source medium channels through high-temperature heat exchanger and expanding machine company for compressor
Logical, there are also heat source medium channels to be connected to external for expanding machine;Heater and the second heater also have heated medium channel respectively
Be connected to outside, internal combustion engine and expanding machine connect compressor and the second compressor simultaneously transmit power, form combined cycle heat pump and fill
It sets.
It is in any combined cycle heat pump assembly described in 1-13, by internal combustion engine 14. combined cycle heat pump assembly
Have cooling medium channel be connected to outside be adjusted to outside and there is cooling medium channel to be sequentially communicated internal combustion engine and heater after confession
Hot device has cooling medium channel to be connected to outside again, forms combined cycle heat pump assembly.
It 15. combined cycle heat pump assembly, is increased newly-increased in any combined cycle heat pump assembly described in 1-13
Internal combustion engine is had cooling medium channel to be connected to outside and is adjusted to outside and has cooling medium channel to be sequentially communicated internal combustion engine by heater
There is cooling medium channel to be connected to outside again with heater newly-increased after newly-increased heater, increasing heater newly, there are also heated mediums
Channel is connected to outside, forms combined cycle heat pump assembly.
It 16. combined cycle heat pump assembly, is increased newly-increased in any combined cycle heat pump assembly described in 1-13
Expanding machine, newly-increased circulating pump and newly-increased condenser, cancel the cooling medium channel that internal combustion engine is connected to outside, and newly-increased condenser has
Internal combustion engine has steam channel to be connected to new boost expander again after condensate liquid pipeline is connected to through newly-increased circulating pump with internal combustion engine, increases newly
There are also steam exhaust channels to be connected to newly-increased condenser for expanding machine, and increasing condenser newly, there are also heated medium or cooling medium channels and outer
Portion's connection, new boost expander connect compressor simultaneously transmit power, form combined cycle heat pump assembly.
It 17. combined cycle heat pump assembly, is cancelled external in any combined cycle heat pump assembly described in 1-16
The fuel channel being connected to internal combustion engine increases new compressor, and outside has fuel gas channel to be connected to new compressor, increases newly
There are also compressed gaseous fuel channels to be connected to internal combustion engine for compressor, and internal combustion engine connection new compressor simultaneously transmits power, forms connection
Close circulating heat pump device.
It is to increase power in any combined cycle heat pump assembly described in 1-17 18. combined cycle heat pump assembly
Machine, engine connect compressor simultaneously provide power to compressor, form the power-actuated combined cycle heat pump assembly of additional external.
It is to increase work in any combined cycle heat pump assembly described in 1-17 19. combined cycle heat pump assembly
Machine, internal combustion engine connect working machine and provide power to working machine, and formation is additional externally to provide the combined cycle heat pump of living load
Device.
Detailed description of the invention:
Fig. 1 be according to the present invention provided by combined cycle the 1st kind of principled thermal system figure of heat pump assembly.
Fig. 2 be according to the present invention provided by combined cycle the 2nd kind of principled thermal system figure of heat pump assembly.
Fig. 3 be according to the present invention provided by combined cycle the 3rd kind of principled thermal system figure of heat pump assembly.
Fig. 4 be according to the present invention provided by combined cycle the 4th kind of principled thermal system figure of heat pump assembly.
Fig. 5 be according to the present invention provided by combined cycle the 5th kind of principled thermal system figure of heat pump assembly.
Fig. 6 be according to the present invention provided by combined cycle the 6th kind of principled thermal system figure of heat pump assembly.
Fig. 7 be according to the present invention provided by combined cycle the 7th kind of principled thermal system figure of heat pump assembly.
Fig. 8 be according to the present invention provided by combined cycle the 8th kind of principled thermal system figure of heat pump assembly.
Fig. 9 be according to the present invention provided by combined cycle the 9th kind of principled thermal system figure of heat pump assembly.
Figure 10 be according to the present invention provided by combined cycle the 10th kind of principled thermal system figure of heat pump assembly.
Figure 11 be according to the present invention provided by combined cycle the 11st kind of principled thermal system figure of heat pump assembly.
Figure 12 be according to the present invention provided by combined cycle the 12nd kind of principled thermal system figure of heat pump assembly.
Figure 13 be according to the present invention provided by combined cycle the 13rd kind of principled thermal system figure of heat pump assembly.
Figure 14 be according to the present invention provided by combined cycle the 14th kind of principled thermal system figure of heat pump assembly.
Figure 15 be according to the present invention provided by combined cycle the 15th kind of principled thermal system figure of heat pump assembly.
Figure 16 be according to the present invention provided by combined cycle the 16th kind of principled thermal system figure of heat pump assembly.
Figure 17 be according to the present invention provided by combined cycle the 17th kind of principled thermal system figure of heat pump assembly.
In figure, 1- internal combustion engine, 2- compressor, 3- expanding machine, the second compressor of 4-, 5- high-temperature heat exchanger, 6- heater,
7- third compressor, the second high-temperature heat exchanger of 8-, the second expanding machine of 9-, 10- low temperature heat exchanger, the second heater of 11-,
12- regenerator;A- increases heater, the new boost expander of B- newly, and C- increases circulating pump newly, and D- increases condenser, E- new compressor newly.
Specific embodiment:
First it is noted that in the statement of structure and process, do not repeat in inessential situation;To apparent
Process do not state.Carry out the present invention is described in detail with example with reference to the accompanying drawing.
Combined cycle heat pump assembly shown in FIG. 1 is achieved in that
(1) in structure, it is mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger and heat supply
Device is formed;Outside has air duct to be connected to internal combustion engine 1, external to be connected to there are also fuel channel with internal combustion engine 1, and internal combustion engine 1 is also
There is cooling medium channel to be connected to outside, the also blast tube of internal combustion engine 1 is connected to through high-temperature heat exchanger 5 with outside;Outside has
Heat source medium channel is connected to the second compressor 4, and there are also heat source medium channels through heater 6 and the company of compressor 2 for the second compressor 4
Logical, compressor 2 is connected to through high-temperature heat exchanger 5 with expanding machine 3 there are also heat source medium channel, and there are also heat source mediums to lead to for expanding machine 3
Road is connected to outside;The also heated medium channel of heater 6 is connected to outside, 3 connect compressor 2 of internal combustion engine 1 and expanding machine
With the second compressor 4 and transmit power.
(2) in process, external fuel and air enter internal combustion engine 1, complete to include burning and expansion in 1 cylinder of internal combustion engine
A series of processes inside, the combustion gas that internal combustion engine 1 discharges flow through 5 heat release of high-temperature heat exchanger and externally discharge, and outside is cooling to be situated between
Mass flow externally discharge after the heat absorption of internal combustion engine 1;External heat source medium flows through the boosting heating of the second compressor 4, flows through heater 6
And heat release, enter the boosting heating of compressor 2 later;The heat source medium that compressor 2 discharges flows through high-temperature heat exchanger 5 and absorbs heat,
Enter expanding machine 3 later to be depressured work done and externally discharge;The function that internal combustion engine 1 and expanding machine 3 export is supplied to compressor 2 and second
Compressor 4 is used as power, and fuel provides high warm load by burning, and heated medium passes through warm load in the acquisition of heater 6,
Heat source medium provides low temperature thermic load by disengaging process, forms combined cycle heat pump assembly.
Combined cycle heat pump assembly shown in Fig. 2 is achieved in that
(1) in structure, it is mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, heat supply
Device, third compressor and the second high-temperature heat exchanger are formed;Outside has air duct to be connected to internal combustion engine 1, and external there are also fire
Material channel be connected to internal combustion engine 1, and there are also cooling medium channels to be connected to external for internal combustion engine 1, and the also blast tube of internal combustion engine 1 is through the
Two high-temperature heat exchangers 8 and high-temperature heat exchanger 5 are connected to outside;Outside has heat source medium channel to be connected to third compressor 7,
Third compressor 7 is connected to through heater 6 with compressor 2 there are also heat source medium channel, and there are also heat source medium channels through height for compressor 2
Temperature heat exchanger 5 is connected to the second compressor 4, the second compressor 4 there are also the second high-temperature heat exchanger of heat source medium channel 8 with
Expanding machine 3 is connected to, and the also heat source medium channel of expanding machine 3 is connected to outside;There are also heated medium channels and outside for heater 6
Connection, 3 connect compressor 2 of internal combustion engine 1 and expanding machine, the second compressor 4 and third compressor 7 simultaneously transmit power.
(2) in process, external fuel and air enter internal combustion engine 1, complete to include burning and expansion in 1 cylinder of internal combustion engine
A series of processes inside, the combustion gas that internal combustion engine 1 discharges flow through the second high-temperature heat exchanger 8 and high-temperature heat exchanger 5 and gradually
Externally discharge after heat release, external cooling medium flow through externally discharge after the heat absorption of internal combustion engine 1;External heat source medium flows through third
The boosting heating of compressor 7, flows through heater 6 and heat release, enters the boosting heating of compressor 2 later;The heat source that compressor 2 discharges is situated between
Mass flow is through high-temperature heat exchanger 5 and absorbs heat, and enters the boosting heating of the second compressor 4 later;The heat source of second compressor 4 discharge is situated between
Mass flow is through the second high-temperature heat exchanger 8 and absorbs heat, and enters expanding machine 3 later and is depressured work done and externally discharges;Internal combustion engine 1 and expansion
The function that machine 3 exports is supplied to compressor 2, the second compressor 4 and third compressor 7 and is used as power, and fuel provides high temperature by burning
Thermic load, for heated medium by warm load in the acquisition of heater 6, heat source medium is negative by disengaging process offer Low Temperature Thermal
Lotus forms combined cycle heat pump assembly.
Combined cycle heat pump assembly shown in Fig. 3 is achieved in that
(1) in structure, it is mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, heat supply
Device, the second high-temperature heat exchanger and the second expanding machine are formed;Outside has air duct to be connected to internal combustion engine 1, and external there are also fire
Material channel be connected to internal combustion engine 1, and there are also cooling medium channels to be connected to external for internal combustion engine 1, and the also blast tube of internal combustion engine 1 is through the
Two high-temperature heat exchangers 8 and high-temperature heat exchanger 5 are connected to outside;Outside has heat source medium channel to be connected to the second compressor 4,
Second compressor 4 is connected to through heater 6 with compressor 2 there are also heat source medium channel, and there are also heat source medium channels through height for compressor 2
Temperature heat exchanger 5 is connected to expanding machine 3, and there are also the second high-temperature heat exchangers of heat source medium channel 8 and the second expansion for expanding machine 3
Machine 9 is connected to, and the second also heat source medium channel of expanding machine 9 is connected to outside;There are also heated medium channels and outside for heater 6
Connection, internal combustion engine 1, expanding machine 3 and 9 connect compressor 2 of the second expanding machine and the second compressor 4 simultaneously transmit power.
(2) in process, external fuel and air enter internal combustion engine 1, complete to include burning and expansion in 1 cylinder of internal combustion engine
A series of processes inside, the combustion gas that internal combustion engine 1 discharges flow through the second high-temperature heat exchanger 8 and high-temperature heat exchanger 5 and gradually
Externally discharge after heat release, external cooling medium flow through externally discharge after the heat absorption of internal combustion engine 1;External heat source medium flows through second
The boosting heating of compressor 4, flows through heater 6 and heat release, enters the boosting heating of compressor 2 later;The heat source that compressor 2 discharges is situated between
Mass flow is through high-temperature heat exchanger 5 and absorbs heat, and enters expanding machine 3 later and is depressured work done;The heat source medium that expanding machine 3 discharges flows through the
Two high-temperature heat exchangers 8 simultaneously absorb heat, and enter the decompression work done of the second expanding machine 9 later and externally discharge;Internal combustion engine 1,3 and of expanding machine
The function of second expanding machine 9 output is supplied to compressor 2 and the second compressor 4 is used as power, and fuel is negative by the high warm of burning offer
Lotus, heated medium provide low temperature thermic load, shape by disengaging process by warm load in the acquisition of heater 6, heat source medium
At combined cycle heat pump assembly.
Combined cycle heat pump assembly shown in Fig. 4 is achieved in that
(1) in structure, it is mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, heat supply
Device, the second expanding machine and low temperature heat exchanger are formed;Outside has air duct to be connected to internal combustion engine 1, and external there are also fuel to lead to
Road is connected to internal combustion engine 1, and the also cooling medium channel of internal combustion engine 1 is connected to outside, and there are also blast tubes through Gao Wenre for internal combustion engine 1
Exchanger 5 is connected to outside;Outside has heat source medium channel to be connected to the second compressor 4, and there are also heat source mediums for the second compressor 4
Channel is connected to through heater 6 with compressor 2, and there are also heat source medium channels through high-temperature heat exchanger 5 and the company of expanding machine 3 for compressor 2
Logical, expanding machine 3 is connected to through low temperature heat exchanger 10 with the second expanding machine 9 there are also heat source medium channel, and there are also heat for the second expanding machine 9
Source medium channel is connected to outside;The also heated medium channel of heater 6 is connected to outside, and there are also low for low temperature heat exchanger 10
Warm channel is connected to outside, and internal combustion engine 1, expanding machine 3 and 9 connect compressor 2 of the second expanding machine and the second compressor 4 are simultaneously
Transmit power.
(2) in process, external fuel and air enter internal combustion engine 1, complete to include burning and expansion in 1 cylinder of internal combustion engine
A series of processes inside, the combustion gas that internal combustion engine 1 discharges flow through 5 heat release of high-temperature heat exchanger and externally discharge, and outside is cooling to be situated between
Mass flow externally discharge after the heat absorption of internal combustion engine 1;External heat source medium flows through the boosting heating of the second compressor 4, flows through heater 6
And heat release, enter the boosting heating of compressor 2 later;The heat source medium that compressor 2 discharges flows through high-temperature heat exchanger 5 and absorbs heat,
Enter expanding machine 3 later and is depressured work done;Expanding machine 3 discharge heat source medium flow through low temperature heat exchanger 10 and absorb heat, it is laggard
Enter the decompression work done of the second expanding machine 9 and externally discharges;The function of internal combustion engine 1, expanding machine 3 and the output of the second expanding machine 9 is supplied to pressure
Contracting machine 2 and the second compressor 4 are used as power, and fuel provides high warm load by burning, and heated medium is obtained by heater 6
Middle warm load, low-temperature heat medium provide low temperature thermic load by low temperature heat exchanger 10, and heat source medium is mentioned by passing in and out process
For low temperature thermic load, combined cycle heat pump assembly is formed.
Combined cycle heat pump assembly shown in fig. 5 is achieved in that
(1) in structure, it is mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, heat supply
Device, the second expanding machine and low temperature heat exchanger are formed;Outside has air duct to be connected to internal combustion engine 1, and external there are also fuel to lead to
Road is connected to internal combustion engine 1, and the also cooling medium channel of internal combustion engine 1 is connected to outside, and there are also blast tubes through Gao Wenre for internal combustion engine 1
Exchanger 5 is connected to outside;Outside has heat source medium channel to be connected to the second expanding machine 9, and there are also heat source mediums for the second expanding machine 9
Channel is connected to through low temperature heat exchanger 10 with the second compressor 4, the second compressor 4 there are also heat source medium channel through heater 6 with
Compressor 2 is connected to, and compressor 2 is connected to through high-temperature heat exchanger 5 with expanding machine 3 there are also heat source medium channel, and there are also heat for expanding machine 3
Source medium channel is connected to outside;The also heated medium channel of heater 6 is connected to outside, and there are also low for low temperature heat exchanger 10
Warm channel is connected to outside, and internal combustion engine 1, expanding machine 3 and 9 connect compressor 2 of the second expanding machine and the second compressor 4 are simultaneously
Transmit power.
(2) in process, external fuel and air enter internal combustion engine 1, complete to include burning and expansion in 1 cylinder of internal combustion engine
A series of processes inside, the combustion gas that internal combustion engine 1 discharges flow through 5 heat release of high-temperature heat exchanger and externally discharge, and outside is cooling to be situated between
Mass flow externally discharge after the heat absorption of internal combustion engine 1;External heat source medium enters the second expanding machine 9 and is depressured work done, the second expanding machine 9
The heat source medium of discharge flows through low temperature heat exchanger 10 and absorbs heat, and enters the boosting heating of the second compressor 4 later;Second compressor
The heat source medium of 4 discharges flows through heater 6 and heat release, enters the boosting heating of compressor 2 later;The heat source that compressor 2 discharges is situated between
Mass flow is through high-temperature heat exchanger 5 and absorbs heat, and enters expanding machine 3 later and is depressured work done and externally discharges;Internal combustion engine 1,3 and of expanding machine
The function of second expanding machine 9 output is supplied to compressor 2 and the second compressor 4 is used as power, and fuel is negative by the high warm of burning offer
Lotus, heated medium provide Low Temperature Thermal by low temperature heat exchanger 10 by warm load in the acquisition of heater 6, low-temperature heat medium
Load, heat source medium provide low temperature thermic load by disengaging process, form combined cycle heat pump assembly.
Combined cycle heat pump assembly shown in fig. 6 is achieved in that
(1) in structure, it is mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, heater
It is formed with third compressor;Outside has air duct to be connected to internal combustion engine 1, external to be connected to there are also fuel channel with internal combustion engine 1,
The also cooling medium channel of internal combustion engine 1 is connected to outside, and internal combustion engine 1 connects through high-temperature heat exchanger 5 with outside there are also blast tube
It is logical;Outside has heat source medium channel to be connected to the second compressor 4, the second compressor 4 there are also heat source medium channel through heater 6 with
Third compressor 7 is connected to, and third compressor 7 is connected to through heater 6 with compressor 2 there are also heat source medium channel, and compressor 2 is also
Heat source medium channel is connected to through high-temperature heat exchanger 5 with expanding machine 3, and the also heat source medium channel of expanding machine 3 is connected to outside;For
There are also heated medium channels to be connected to external for hot device 6,3 connect compressor 2 of internal combustion engine 1 and expanding machine, the second compressor 4 and the
Three compressors 7 simultaneously transmit power.
(2) in process, external fuel and air enter internal combustion engine 1, complete to include burning and expansion in 1 cylinder of internal combustion engine
A series of processes inside, the combustion gas that internal combustion engine 1 discharges flow through 5 heat release of high-temperature heat exchanger and externally discharge, and outside is cooling to be situated between
Mass flow externally discharge after the heat absorption of internal combustion engine 1;External heat source medium flows through the boosting heating of the second compressor 4, flows through heater 6
And heat release, enter the boosting heating of third compressor 7 later;The heat source medium that third compressor 7 discharges flows through heater 6 and puts
Heat enters the boosting heating of compressor 2 later;The heat source medium that compressor 2 discharges flows through high-temperature heat exchanger 5 and absorbs heat, later
Work done is depressured into expanding machine 3 and is externally discharged;The function that internal combustion engine 1 and expanding machine 3 export is supplied to the compression of compressor 2, second
Machine 4 and third compressor 9 are used as power, and fuel provides high warm load by burning, and heated medium passes through in the acquisition of heater 6
Warm load, heat source medium provide low temperature thermic load by disengaging process, form combined cycle heat pump assembly.
Combined cycle heat pump assembly shown in Fig. 7 is achieved in that
(1) in structure, it is mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, heat supply
Device, the second expanding machine and the second heater are formed;Outside has air duct to be connected to internal combustion engine 1, and external there are also fuel channels
It is connected to internal combustion engine 1, the also cooling medium channel of internal combustion engine 1 is connected to outside, and there are also blast tubes through high warm friendship for internal combustion engine 1
Parallel operation 5 is connected to outside;Outside has heat source medium channel to be connected to the second compressor 4, and there are also heat source mediums to lead to for the second compressor 4
Road is connected to through heater 6 with compressor 2, and compressor 2 is connected to through high-temperature heat exchanger 5 with expanding machine 3 there are also heat source medium channel,
Expanding machine 3 is connected to there are also the second heater of heat source medium channel 11 with the second expanding machine 9, and there are also heat sources to be situated between for the second expanding machine 9
Matter channel is connected to outside;Heater 6 and the second heater 11 also have heated medium channel to be connected to outside respectively, internal combustion engine
1, expanding machine 3 and 9 connect compressor 2 of the second expanding machine and the second compressor 4 and power is transmitted.
(2) in process, external fuel and air enter internal combustion engine 1, complete to include burning and expansion in 1 cylinder of internal combustion engine
A series of processes inside, the combustion gas that internal combustion engine 1 discharges flow through 5 heat release of high-temperature heat exchanger and externally discharge, and outside is cooling to be situated between
Mass flow externally discharge after the heat absorption of internal combustion engine 1;External heat source medium flows through the boosting heating of the second compressor 4, flows through heater 6
And heat release, enter the boosting heating of compressor 2 later;The heat source medium that compressor 2 discharges flows through high-temperature heat exchanger 5 and absorbs heat,
Enter expanding machine 3 later and is depressured work done;The heat source medium that expanding machine 3 discharges flows through the second heater 11 and heat release, enters later
The decompression work done of second expanding machine 9 is simultaneously externally discharged;The function of internal combustion engine 1, expanding machine 3 and the output of the second expanding machine 9 is supplied to compression
Machine 2 and the second compressor 4 are used as power, and fuel provides high warm load by burning, and heated medium passes through 6 He of heater respectively
Warm load in the acquisition of second heater 11, heat source medium provide low temperature thermic load by disengaging process, and it is hot to form combined cycle
Pump installation.
Combined cycle heat pump assembly shown in Fig. 8 is achieved in that
(1) in structure, it is mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, heat supply
Device, the second expanding machine and the second heater are formed;Outside has air duct to be connected to internal combustion engine 1, and external there are also fuel channels
It is connected to internal combustion engine 1, the also cooling medium channel of internal combustion engine 1 is connected to outside, and there are also blast tubes through high warm friendship for internal combustion engine 1
Parallel operation 5 is connected to outside;Outside has heat source medium channel to be connected to the second compressor 4, and there are also heat source mediums to lead to for the second compressor 4
Road is connected to through heater 6 with the second expanding machine 9, and there are also the second heaters of heat source medium channel 11 and compression for the second expanding machine 9
Machine 2 is connected to, and compressor 2 is connected to through high-temperature heat exchanger 5 with expanding machine 3 there are also heat source medium channel, and there are also heat sources to be situated between for expanding machine 3
Matter channel is connected to outside;Heater 6 and the second heater 11 also have heated medium channel to be connected to outside respectively, internal combustion engine
1, expanding machine 3 and 9 connect compressor 2 of the second expanding machine and the second compressor 4 and power is transmitted.
(2) in process, external fuel and air enter internal combustion engine 1, complete to include burning and expansion in 1 cylinder of internal combustion engine
A series of processes inside, the combustion gas that internal combustion engine 1 discharges flow through 5 heat release of high-temperature heat exchanger and externally discharge, and outside is cooling to be situated between
Mass flow externally discharge after the heat absorption of internal combustion engine 1;External heat source medium enters the boosting heating of the second compressor 4, flows through heater 6
And heat release, enter the second expanding machine 9 later and is depressured work done;The heat source medium of second expanding machine 9 discharge flows through the second heater 11
And heat release, enter the boosting heating of compressor 2 later;The heat source medium that compressor 2 discharges flows through high-temperature heat exchanger 5 and absorbs heat,
Enter expanding machine 3 later to be depressured work done and externally discharge;The function of internal combustion engine 1, expanding machine 3 and the output of the second expanding machine 9 is supplied to
Compressor 2 and the second compressor 4 are used as power, and fuel provides high warm load by burning, and heated medium passes through heat supply respectively
Warm load in device 6 and the acquisition of the second heater 11, heat source medium provide low temperature thermic load by disengaging process, and formation, which is combined, to follow
Ring heat pump assembly.
Combined cycle heat pump assembly shown in Fig. 9 is achieved in that
(1) in structure, it is mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, heat supply
Device, third compressor and the second heater are formed;Outside has air duct to be connected to internal combustion engine 1, and external there are also fuel channels
It is connected to internal combustion engine 1, the also cooling medium channel of internal combustion engine 1 is connected to outside, and there are also blast tubes through high warm friendship for internal combustion engine 1
Parallel operation 5 is connected to outside;Outside has heat source medium channel to be connected to the second compressor 4, and there are also heat source mediums to lead to for the second compressor 4
Road is connected to through heater 6 with third compressor 7, and there are also the second heaters of heat source medium channel 11 and compression for third compressor 7
Machine 2 is connected to, and compressor 2 is connected to through high-temperature heat exchanger 5 with expanding machine 3 there are also heat source medium channel, and there are also heat sources to be situated between for expanding machine 3
Matter channel is connected to outside;Heater 6 and the second heater 11 also have heated medium channel to be connected to outside respectively, internal combustion engine
1 and 3 connect compressor 2 of expanding machine, the second compressor 4 and third compressor 7 and transmit power.
(2) in process, external fuel and air enter internal combustion engine 1, complete to include burning and expansion in 1 cylinder of internal combustion engine
A series of processes inside, the combustion gas that internal combustion engine 1 discharges flow through 5 heat release of high-temperature heat exchanger and externally discharge, and outside is cooling to be situated between
Mass flow externally discharge after the heat absorption of internal combustion engine 1;External heat source medium enters the boosting heating of the second compressor 4, flows through heater 6
And heat release, enter the boosting heating of third compressor 7 later;The heat source medium that third compressor 7 discharges flows through the second heater 11
And heat release, enter the boosting heating of compressor 2 later;The heat source medium that compressor 2 discharges flows through high-temperature heat exchanger 5 and absorbs heat,
Enter expanding machine 3 later to be depressured work done and externally discharge;The function that internal combustion engine 1 and expanding machine 3 export is supplied to compressor 2, second
Compressor 4 and third compressor 7 are used as power, and fuel provides high warm load by burning, and heated medium passes through heat supply respectively
Warm load in device 6 and the acquisition of the second heater 11, heat source medium provide low temperature thermic load by disengaging process, and formation, which is combined, to follow
Ring heat pump assembly.
Combined cycle heat pump assembly shown in Fig. 10 is achieved in that
(1) in structure, it is mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, heater
It is formed with regenerator;Outside has air duct to be connected to internal combustion engine 1, external to be connected to there are also fuel channel with internal combustion engine 1, internal combustion
The also cooling medium channel of machine 1 is connected to outside, and the also blast tube of internal combustion engine 1 is connected to through high-temperature heat exchanger 5 with outside;Outside
Portion has heat source medium channel to be connected to the second compressor 4, and there are also heat source medium channels through regenerator 12 and heat supply for the second compressor 4
Device 6 is connected to compressor 2, and there are also heat source medium channels through regenerator 12 and high-temperature heat exchanger 5 and expanding machine 3 company for compressor 2
Logical, the also heat source medium channel of expanding machine 3 is connected to outside;The also heated medium channel of heater 6 is connected to outside, internal combustion
Machine 1 and 3 connect compressor 2 of expanding machine and the second compressor 4 simultaneously transmit power.
(2) in process, external fuel and air enter internal combustion engine 1, complete to include burning and expansion in 1 cylinder of internal combustion engine
A series of processes inside, the combustion gas that internal combustion engine 1 discharges flow through 5 heat release of high-temperature heat exchanger and externally discharge, and outside is cooling to be situated between
Mass flow externally discharge after the heat absorption of internal combustion engine 1;External heat source medium flows through the boosting heating of the second compressor 4, flows through regenerator
12 and heater 6 and gradually heat release, enter the boosting heating of compressor 2 later;The heat source medium that compressor 2 discharges flows through regenerator
It 12 and high-temperature heat exchanger 5 and gradually absorbs heat, enters expanding machine 3 later and be depressured work done and externally discharge;Internal combustion engine 1 and expanding machine
The function of 3 outputs is supplied to compressor 2 and the second compressor 4 is used as power, and fuel provides high warm load by burning, is heated Jie
Matter provides low temperature thermic load by disengaging process, it is hot to form combined cycle by warm load in the acquisition of heater 6, heat source medium
Pump installation.
Combined cycle heat pump assembly shown in Figure 11 is achieved in that
(1) in structure, it is mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, heater
It is formed with regenerator;Outside has air duct to be connected to internal combustion engine 1, external to be connected to there are also fuel channel with internal combustion engine 1, internal combustion
The also cooling medium channel of machine 1 is connected to outside, and the also blast tube of internal combustion engine 1 is connected to through high-temperature heat exchanger 5 with outside;Outside
Portion has heat source medium channel to be connected to through regenerator 12 with the second compressor 4, and there are also heat source medium channels through heat supply for the second compressor 4
Device 6 and regenerator 12 are connected to compressor 2, and there are also heat source medium channels through high-temperature heat exchanger 5 and the company of expanding machine 3 for compressor 2
Logical, the also heat source medium channel of expanding machine 3 is connected to outside, and the also heated medium channel of heater 6 is connected to outside, internal combustion
Machine 1 and 3 connect compressor 2 of expanding machine and the second compressor 4 simultaneously transmit power.
(2) in process, external fuel and air enter internal combustion engine 1, complete to include burning and expansion in 1 cylinder of internal combustion engine
A series of processes inside, the combustion gas that internal combustion engine 1 discharges flow through 5 heat release of high-temperature heat exchanger and externally discharge, and outside is cooling to be situated between
Mass flow externally discharge after the heat absorption of internal combustion engine 1;External heat source medium flows through regenerator 12 and absorbs heat, and enters the second compression later
The boosting heating of machine 4;The heat source medium of second compressor 4 discharge flows through heater 6 and regenerator 12 and gradually heat release, enters later
The boosting heating of compressor 2;The heat source medium that compressor 2 discharges flows through high-temperature heat exchanger 5 and absorbs heat, and enters expanding machine 3 later
Decompression work done is simultaneously externally discharged;The function that internal combustion engine 1 and expanding machine 3 export is supplied to compressor 2 and the second compressor 4 is used as power,
Fuel provides high warm load by burning, heated medium by heater 6 obtain in warm load, heat source medium by into
Process provides low temperature thermic load out, forms combined cycle heat pump assembly.
Combined cycle heat pump assembly shown in Figure 12 is achieved in that
(1) in structure, it is mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, heater
It is formed with the second heater;Outside has air duct to be connected to internal combustion engine 1, external to be connected to there are also fuel channel with internal combustion engine 1,
The also cooling medium channel of internal combustion engine 1 is connected to outside, and there are also blast tubes through high-temperature heat exchanger 5 and the second confession for internal combustion engine 1
Hot device 11 is connected to outside;Outside has heat source medium channel to be connected to the second compressor 4, and there are also heat source mediums for the second compressor 4
Channel is connected to through heater 6 with compressor 2, and there are also heat source medium channels through high-temperature heat exchanger 5 and the company of expanding machine 3 for compressor 2
Logical, the also heat source medium channel of expanding machine 3 is connected to outside;Heater 6 and the second heater 11 also have heated medium respectively
Channel is connected to outside, and internal combustion engine 1 and 3 connect compressor 2 of expanding machine and the second compressor 4 simultaneously transmit power.
(2) in process, external fuel and air enter internal combustion engine 1, complete to include burning and expansion in 1 cylinder of internal combustion engine
A series of processes inside, internal combustion engine 1 discharge combustion gas flow through high-temperature heat exchanger 5 and the second heater 11 and gradually heat release it
Externally discharge afterwards, external cooling medium flow through externally discharge after the heat absorption of internal combustion engine 1;External heat source medium flows through the second compressor
4 boosting heatings, flow through heater 6 and heat release, enter the boosting heating of compressor 2 later;The heat source medium that compressor 2 discharges flows through
High-temperature heat exchanger 5 simultaneously absorbs heat, and enters expanding machine 3 later and is depressured work done and externally discharges;What internal combustion engine 1 and expanding machine 3 exported
Function is supplied to compressor 2 and the second compressor 4 is used as power, and fuel provides high warm load by burning, and combustion gas is supplied by second
Warm load in the hot offer of device 11, heated medium pass through warm load in heater 6 and the acquisition of the second heater 11, heat respectively
Source medium provides low temperature thermic load by disengaging process, forms combined cycle heat pump assembly.
Combined cycle heat pump assembly shown in Figure 13 is achieved in that
(1) in structure, it is mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, heater
It is formed with the second heater;Outside has air duct to be connected to internal combustion engine 1, external to be connected to there are also fuel channel with internal combustion engine 1,
The also cooling medium channel of internal combustion engine 1 is connected to outside, and there are also blast tubes through high-temperature heat exchanger 5, the second heat supply for internal combustion engine 1
Device 11 and heater 6 are connected to outside;Outside has heat source medium channel to be connected to the second compressor 4, and there are also heat for the second compressor 4
Source medium channel is connected to through heater 6 with compressor 2, and there are also heat source medium channels through high-temperature heat exchanger 5 and expansion for compressor 2
Machine 3 is connected to, and the also heat source medium channel of expanding machine 3 is connected to outside;Heater 6 and the second heater 11 are also heated respectively
Medium channel is connected to outside, and internal combustion engine 1 and 3 connect compressor 2 of expanding machine and the second compressor 4 simultaneously transmit power.
(2) in process, external fuel and air enter internal combustion engine 1, complete to include burning and expansion in 1 cylinder of internal combustion engine
A series of processes inside, internal combustion engine 1 discharge combustion gas flow through high-temperature heat exchanger 5, the second heater 11 and heater 6 and by
Heat release externally discharge later is walked, external cooling medium flows through external discharge after the heat absorption of internal combustion engine 1;External heat source medium flows through
The boosting heating of two compressors 4, flows through heater 6 and heat release, enters the boosting heating of compressor 2 later;The heat source that compressor 2 discharges
Medium flows through high-temperature heat exchanger 5 and absorbs heat, and enters expanding machine 3 later and is depressured work done and externally discharges;Internal combustion engine 1 and expanding machine
The function of 3 outputs is supplied to compressor 2 and the second compressor 4 is used as power, and fuel provides high warm load by burning, and combustion gas passes through
Warm load in second heater 11 and the offer of heater 6, heated medium passes through heater 6 respectively and the second heater 11 obtains
Middle warm load is taken, heat source medium provides low temperature thermic load by disengaging process, forms combined cycle heat pump assembly.
Combined cycle heat pump assembly shown in Figure 14 is achieved in that
(1) in structure, in combined cycle heat pump assembly shown in Fig. 1, internal combustion engine 1 there are into cooling medium channel and outside
Heater 6 has cooling medium logical again after connection is adjusted to outside and has cooling medium channel to be sequentially communicated internal combustion engine 1 and heater 6
Road is connected to outside.
(2) in process, process CIMS with combined cycle heat pump assembly shown in Fig. 1, the difference is that: outside is cooling to be situated between
Mass flow is through internal combustion engine 1 and absorbs heat, and flows through heater 6 and heat release, and externally discharge, forms combined cycle heat pump assembly later.
Combined cycle heat pump assembly shown in figure 15 is achieved in that
(1) in structure, in combined cycle heat pump assembly shown in Fig. 1, increase newly-increased heater, internal combustion engine 1 is had cold
But medium channel is connected to outside and is adjusted to outside and has cooling medium channel to be sequentially communicated after internal combustion engine 1 and newly-increased heater A
Newly-increased heater A has cooling medium channel to be connected to external again, increases heater A newly there are also heated medium channels and connect with outside
It is logical.
(2) in process, process CIMS with combined cycle heat pump assembly shown in Fig. 1, the difference is that: outside is cooling to be situated between
Mass flow is through internal combustion engine 1 and absorbs heat, and flows through newly-increased heater A and heat release, and externally discharge, forms combined cycle heat pump assembly later.
Combined cycle heat pump assembly shown in Figure 16 is achieved in that
(1) in structure, in combined cycle heat pump assembly shown in Fig. 1, increase new boost expander, newly-increased circulating pump and new
Increase condenser, cancel the cooling medium channel that internal combustion engine 1 is connected to outside, newly-increased condenser D has condensate liquid pipeline to follow through newly-increased
Internal combustion engine 1 has steam channel to be connected to new boost expander B again after ring pump C is connected to internal combustion engine 1, and there are also weary by new boost expander B
Vapour channel is connected to newly-increased condenser D, and there are also heated medium channels to be connected to external by newly-increased condenser D, new boost expander B company
It connects compressor 2 and transmits power.
(2) in process, process CIMS with combined cycle heat pump assembly shown in Fig. 1, the difference is that: newly-increased condenser
The condensate liquid of D flows through newly-increased circulating pump C boosting, flows through internal combustion engine 1 and absorbs heat and vaporize, and steam flows through newly-increased expanding machine B decompression and makees
Function enters newly-increased condenser D heat release later and in heated medium and condenses;The function of new boost expander B output is supplied to compressor 2
It is used as power, forms combined cycle heat pump assembly;Wherein, cooling medium (such as surrounding air or cooling water) replaces heated medium
When, new boost expander B can increase work done.
Combined cycle heat pump assembly shown in Figure 17 is achieved in that
(1) in structure, in combined cycle heat pump assembly shown in Fig. 1, it is logical to cancel the external fuel being connected to internal combustion engine 1
Road increases new compressor, and outside has fuel gas channel to be connected to new compressor E, and there are also compressed gaseous by new compressor E
Fuel channel is connected to internal combustion engine 1, and internal combustion engine 1 connects new compressor E and transmits power.
(2) in process, gaseous fuel enters internal combustion engine 1 after flowing through new compressor E boosting, and air enters internal combustion engine 1;
Fuel and air complete a series of processes including burning and expanding, the combustion gas that internal combustion engine 1 discharges in 1 cylinder of internal combustion engine
5 heat release of high-temperature heat exchanger externally discharge later is flowed through, external cooling medium flows through external discharge after the heat absorption of internal combustion engine 1;Outside
Portion's heat source medium flows through the boosting heating of the second compressor 4, flows through heater 6 and heat release, enters the boosting heating of compressor 2 later;
The heat source medium that compressor 2 discharges flows through high-temperature heat exchanger 5 and absorbs heat, and enters expanding machine 3 later and is depressured work done and to outlet
It puts;The function that internal combustion engine 1 and expanding machine 3 export is supplied to compressor 2, the second compressor 4 and new compressor E and is used as power, fuel
High warm load is provided by burning, heated medium passes through disengaging stream by warm load in the acquisition of heater 6, heat source medium
Journey provides low temperature thermic load, forms combined cycle heat pump assembly.
The effect that the technology of the present invention may be implemented --- combined cycle heat pump assembly proposed by the invention has following effect
Fruit and advantage:
(1) new approaches and new technology that the temperature difference utilizes in the case of directly fuel being utilized to make drive energy are proposed.
(2) thermal energy (temperature difference) drives, and realizes heat supply/refrigeration, or may be selected while externally providing power.
(3) process is reasonable, can be realized the abundant and efficient utilization of thermal energy (temperature difference).
(4) when necessary, heat supply/refrigeration is realized by external impetus, mode is flexible, and adaptability is good.
(5) using compressor, expanding machine and heat exchanger as compression heat pump building block, structure is simple.
(6) it realizes that the temperature difference utilizes by internal combustion engine and thermal drivers compression heat pump respectively, improves temperature difference producing level.
(7) low-temperature heat source medium is directly used as working medium, is conducive to improve heating/refrigeration performance index.
(8) a variety of specific technical solutions are provided, numerous different actual states is coped with, there is the wider scope of application.
(9) temperature difference utilization technology is extended, the type of thermal drivers combined cycle heat pump assembly is enriched, is conducive to preferably
Realize the efficient utilization of thermal energy.
Claims (19)
1. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger and confession
Hot device is formed;Outside has air duct to be connected to internal combustion engine (1), external to be connected to there are also fuel channel with internal combustion engine (1), internal combustion
Machine (1) also cooling medium channel is connected to outside, and there are also blast tubes through high-temperature heat exchanger (5) and external for internal combustion engine (1)
Connection;Outside has heat source medium channel to be connected to the second compressor (4), and there are also heat source medium channels through supplying for the second compressor (4)
Hot device (6) is connected to compressor (2), and there are also heat source medium channels through high-temperature heat exchanger (5) and expanding machine (3) for compressor (2)
Connection, expanding machine (3) also heat source medium channel are connected to outside;Heater (6) connects there are also heated medium channel with outside
Logical, internal combustion engine (1) and expanding machine (3) connect compressor (2) and the second compressor (4) simultaneously transmit power, and formation combined cycle is hot
Pump installation.
2. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, confession
Hot device, third compressor and the second high-temperature heat exchanger are formed;Outside has air duct to be connected to internal combustion engine (1), and outside is also
There is fuel channel to be connected to internal combustion engine (1), internal combustion engine (1) also cooling medium channel is connected to outside, and there are also fire for internal combustion engine (1)
The second high-temperature heat exchanger of gas channel (8) and high-temperature heat exchanger (5) are connected to outside;There is heat source medium channel and the in outside
Three compressors (7) connection, third compressor (7) are connected to through heater (6) with compressor (2) there are also heat source medium channel, are compressed
Machine (2) is connected to through high-temperature heat exchanger (5) with the second compressor (4) there are also heat source medium channel, and there are also heat for the second compressor (4)
Source medium channel is connected to through the second high-temperature heat exchanger (8) with expanding machine (3), and expanding machine (3) is there are also heat source medium channel and outside
Portion's connection;Heater (6) also heated medium channel is connected to outside, internal combustion engine (1) and expanding machine (3) connect compressor
(2), the second compressor (4) and third compressor (7) and power is transmitted, forms combined cycle heat pump assembly.
3. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, confession
Hot device, the second high-temperature heat exchanger and the second expanding machine are formed;Outside has air duct to be connected to internal combustion engine (1), and outside is also
There is fuel channel to be connected to internal combustion engine (1), internal combustion engine (1) also cooling medium channel is connected to outside, and there are also fire for internal combustion engine (1)
The second high-temperature heat exchanger of gas channel (8) and high-temperature heat exchanger (5) are connected to outside;There is heat source medium channel and the in outside
Two compressors (4) connection, the second compressor (4) are connected to through heater (6) with compressor (2) there are also heat source medium channel, are compressed
Machine (2) is connected to through high-temperature heat exchanger (5) with expanding machine (3) there are also heat source medium channel, and there are also heat source mediums to lead to for expanding machine (3)
The second high-temperature heat exchanger of road (8) is connected to the second expanding machine (9), and the second expanding machine (9) is there are also heat source medium channel and outside
Portion's connection;Heater (6) also heated medium channel is connected to outside, internal combustion engine (1), expanding machine (3) and the second expanding machine
(9) connect compressor (2) and the second compressor (4) and power is transmitted, forms combined cycle heat pump assembly.
4. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, confession
Hot device, the second expanding machine and low temperature heat exchanger are formed;Outside has air duct to be connected to internal combustion engine (1), and external there are also fire
Material channel is connected to internal combustion engine (1), and internal combustion engine (1) also cooling medium channel is connected to outside, and there are also combustion gas to lead to for internal combustion engine (1)
Road is connected to through high-temperature heat exchanger (5) with outside;Outside has heat source medium channel to be connected to the second compressor (4), the second compression
Machine (4) is connected to through heater (6) with compressor (2) there are also heat source medium channel, and there are also heat source medium channels through height for compressor (2)
Temperature heat exchanger (5) is connected to expanding machine (3), and there are also heat source medium channels through low temperature heat exchanger (10) and for expanding machine (3)
Two expanding machines (9) connection, the second expanding machine (9) also heat source medium channel are connected to outside;Heater (6) is also heated Jie
Matter channel is connected to outside, and low temperature heat exchanger (10) also low-temperature heat medium channel is connected to outside, internal combustion engine (1), expansion
Machine (3) and the second expanding machine (9) connect compressor (2) and the second compressor (4) simultaneously transmit power, form combined cycle heat pump dress
It sets.
5. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, confession
Hot device, the second expanding machine and low temperature heat exchanger are formed;Outside has air duct to be connected to internal combustion engine (1), and external there are also fire
Material channel is connected to internal combustion engine (1), and internal combustion engine (1) also cooling medium channel is connected to outside, and there are also combustion gas to lead to for internal combustion engine (1)
Road is connected to through high-temperature heat exchanger (5) with outside;Outside has heat source medium channel to be connected to the second expanding machine (9), the second expansion
Machine (9) is connected to through low temperature heat exchanger (10) with the second compressor (4) there are also heat source medium channel, and the second compressor (4) is also
Heat source medium channel is connected to through heater (6) with compressor (2), and there are also heat source medium channels through high temperature heat exchange for compressor (2)
Device (5) is connected to expanding machine (3), and expanding machine (3) also heat source medium channel is connected to outside;Heater (6) is also heated
Medium channel be connected to outside, and there are also low-temperature heat medium channels to be connected to external for low temperature heat exchanger (10), internal combustion engine (1), swollen
Swollen machine (3) and the second expanding machine (9) connect compressor (2) and the second compressor (4) simultaneously transmit power, form combined cycle heat pump
Device.
6. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, confession
Hot device and third compressor are formed;Outside has air duct to be connected to internal combustion engine (1), and external there are also fuel channel and internal combustion engines
(1) it is connected to, internal combustion engine (1) also cooling medium channel is connected to outside, and there are also blast tubes through high temperature heat exchange for internal combustion engine (1)
Device (5) is connected to outside;Outside has heat source medium channel to be connected to the second compressor (4), and there are also heat sources to be situated between for the second compressor (4)
Matter channel is connected to through heater (6) with third compressor (7), and there are also heat source medium channels through heater (6) for third compressor (7)
It is connected to compressor (2), compressor (2) is connected to through high-temperature heat exchanger (5) with expanding machine (3) there are also heat source medium channel, swollen
Swollen machine (3) also heat source medium channel is connected to outside;Heater (6) also heated medium channel is connected to outside, internal combustion
Machine (1) and expanding machine (3) connect compressor (2), the second compressor (4) and third compressor (7) simultaneously transmit power, form joint
Circulating heat pump device.
7. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, confession
Hot device, the second expanding machine and the second heater are formed;Outside has air duct to be connected to internal combustion engine (1), and external there are also fuel
Channel is connected to internal combustion engine (1), and internal combustion engine (1) also cooling medium channel is connected to outside, and there are also blast tubes for internal combustion engine (1)
It is connected to through high-temperature heat exchanger (5) with outside;Outside has heat source medium channel to be connected to the second compressor (4), the second compressor
(4) it is connected to through heater (6) with compressor (2) there are also heat source medium channel, there are also heat source medium channels through high temperature for compressor (2)
Heat exchanger (5) is connected to expanding machine (3), and there are also the second heater of heat source medium channel (11) and second are swollen for expanding machine (3)
Swollen machine (9) connection, the second expanding machine (9) also heat source medium channel are connected to outside;Heater (6) and the second heater (11)
Also there is heated medium channel to be connected to outside respectively, internal combustion engine (1), expanding machine (3) and the second expanding machine (9) connect compressor
(2) and the second compressor (4) and power is transmitted, forms combined cycle heat pump assembly.
8. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, confession
Hot device, the second expanding machine and the second heater are formed;Outside has air duct to be connected to internal combustion engine (1), and external there are also fuel
Channel is connected to internal combustion engine (1), and internal combustion engine (1) also cooling medium channel is connected to outside, and there are also blast tubes for internal combustion engine (1)
It is connected to through high-temperature heat exchanger (5) with outside;Outside has heat source medium channel to be connected to the second compressor (4), the second compressor
(4) it is connected to through heater (6) with the second expanding machine (9) there are also heat source medium channel, there are also heat source mediums to lead to for the second expanding machine (9)
The second heater of road (11) is connected to compressor (2), and there are also heat source medium channels through high-temperature heat exchanger (5) for compressor (2)
It is connected to expanding machine (3), expanding machine (3) also heat source medium channel is connected to outside;Heater (6) and the second heater (11)
Also there is heated medium channel to be connected to outside respectively, internal combustion engine (1), expanding machine (3) and the second expanding machine (9) connect compressor
(2) and the second compressor (4) and power is transmitted, forms combined cycle heat pump assembly.
9. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, confession
Hot device, third compressor and the second heater are formed;Outside has air duct to be connected to internal combustion engine (1), and external there are also fuel
Channel is connected to internal combustion engine (1), and internal combustion engine (1) also cooling medium channel is connected to outside, and there are also blast tubes for internal combustion engine (1)
It is connected to through high-temperature heat exchanger (5) with outside;Outside has heat source medium channel to be connected to the second compressor (4), the second compressor
(4) it is connected to through heater (6) with third compressor (7) there are also heat source medium channel, there are also heat source mediums to lead to for third compressor (7)
The second heater of road (11) is connected to compressor (2), and there are also heat source medium channels through high-temperature heat exchanger (5) for compressor (2)
It is connected to expanding machine (3), expanding machine (3) also heat source medium channel is connected to outside;Heater (6) and the second heater (11)
Also there is heated medium channel to be connected to outside respectively, internal combustion engine (1) and expanding machine (3) connect compressor (2), the second compressor
(4) and third compressor (7) and power is transmitted, forms combined cycle heat pump assembly.
10. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, confession
Hot device and regenerator are formed;Outside has air duct to be connected to internal combustion engine (1), external also fuel channel and internal combustion engine (1)
Connection, internal combustion engine (1) also cooling medium channel are connected to outside, and there are also blast tubes through high-temperature heat exchanger for internal combustion engine (1)
(5) it is connected to outside;Outside has heat source medium channel to be connected to the second compressor (4), and there are also heat source mediums for the second compressor (4)
Channel is connected to through regenerator (12) and heater (6) with compressor (2), and there are also heat source medium channels through regenerator for compressor (2)
(12) it is connected to high-temperature heat exchanger (5) with expanding machine (3), expanding machine (3) also heat source medium channel is connected to outside;Heat supply
Device (6) also heated medium channel is connected to outside, and internal combustion engine (1) and expanding machine (3) connect compressor (2) and second are compressed
Machine (4) simultaneously transmits power, forms combined cycle heat pump assembly.
11. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, confession
Hot device and regenerator are formed;Outside has air duct to be connected to internal combustion engine (1), external also fuel channel and internal combustion engine (1)
Connection, internal combustion engine (1) also cooling medium channel are connected to outside, and there are also blast tubes through high-temperature heat exchanger for internal combustion engine (1)
(5) it is connected to outside;Outside has heat source medium channel to be connected to through regenerator (12) with the second compressor (4), the second compressor (4)
There are also heat source medium channels to be connected to through heater (6) and regenerator (12) with compressor (2), and there are also heat source mediums for compressor (2)
Channel is connected to through high-temperature heat exchanger (5) with expanding machine (3), and expanding machine (3) also heat source medium channel is connected to outside, heat supply
Device (6) also heated medium channel is connected to outside, and internal combustion engine (1) and expanding machine (3) connect compressor (2) and second are compressed
Machine (4) simultaneously transmits power, forms combined cycle heat pump assembly.
12. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, confession
Hot device and the second heater are formed;Outside has air duct to be connected to internal combustion engine (1), and external there are also fuel channel and internal combustion engines
(1) it is connected to, internal combustion engine (1) also cooling medium channel is connected to outside, and there are also blast tubes through high temperature heat exchange for internal combustion engine (1)
Device (5) and the second heater (11) are connected to outside;Outside has heat source medium channel to be connected to the second compressor (4), the second pressure
Contracting machine (4) is connected to through heater (6) with compressor (2) there are also heat source medium channel, and there are also heat source medium channels to pass through for compressor (2)
High-temperature heat exchanger (5) is connected to expanding machine (3), and expanding machine (3) also heat source medium channel is connected to outside;Heater (6)
Also there is heated medium channel to be connected to outside respectively with the second heater (11), internal combustion engine (1) and expanding machine (3) connection compression
Machine (2) and the second compressor (4) simultaneously transmit power, form combined cycle heat pump assembly.
13. combined cycle heat pump assembly, mainly by internal combustion engine, compressor, expanding machine, the second compressor, high-temperature heat exchanger, confession
Hot device and the second heater are formed;Outside has air duct to be connected to internal combustion engine (1), and external there are also fuel channel and internal combustion engines
(1) it is connected to, internal combustion engine (1) also cooling medium channel is connected to outside, and there are also blast tubes through high temperature heat exchange for internal combustion engine (1)
Device (5), the second heater (11) and heater (6) are connected to outside;There are heat source medium channel and the second compressor (4) in outside even
Logical, the second compressor (4) is connected to through heater (6) with compressor (2) there are also heat source medium channel, and there are also heat sources for compressor (2)
Medium channel is connected to through high-temperature heat exchanger (5) with expanding machine (3), and expanding machine (3) also heat source medium channel is connected to outside;
Heater (6) and the second heater (11) also have heated medium channel to be connected to outside respectively, internal combustion engine (1) and expanding machine
(3) connect compressor (2) and the second compressor (4) and power is transmitted, forms combined cycle heat pump assembly.
14. combined cycle heat pump assembly is in any combined cycle heat pump assembly described in claim 1-13, by internal combustion engine
(1) there is cooling medium channel to be connected to outside to be adjusted to outside and there is cooling medium channel to be sequentially communicated internal combustion engine (1) and heater
(6) heater (6) has cooling medium channel to be connected to outside again after, forms combined cycle heat pump assembly.
15. combined cycle heat pump assembly is increased newly-increased in any combined cycle heat pump assembly described in claim 1-13
Internal combustion engine (1) is had cooling medium channel be connected to outside and is adjusted to outside to have cooling medium channel to be sequentially communicated interior by heater
Newly-increased heater (A) has cooling medium channel to be connected to outside again after combustion engine (1) and newly-increased heater (A), increases heater newly
(A) there are also heated medium channels is connected to outside, forms combined cycle heat pump assembly.
16. combined cycle heat pump assembly is increased newly-increased in any combined cycle heat pump assembly described in claim 1-13
Expanding machine, newly-increased circulating pump and newly-increased condenser cancel the cooling medium channel that internal combustion engine (1) is connected to outside, increase condensation newly
After device (D) has condensate liquid pipeline be connected to through newly-increased circulating pump (C) with internal combustion engine (1) internal combustion engine (1) have again steam channel with newly
Boost expander (B) connection, new boost expander (B) are connected to there are also steam exhaust channel with newly-increased condenser (D), increase condenser (D) newly also
There are heated medium or cooling medium channel to be connected to outside, new boost expander (B) connect compressor (2) simultaneously transmits power, shape
At combined cycle heat pump assembly.
17. combined cycle heat pump assembly is cancelled external in any combined cycle heat pump assembly described in claim 1-16
The fuel channel being connected to internal combustion engine (1), increases new compressor, and there are fuel gas channel and new compressor (E) in outside even
Logical, new compressor (E) is connected to there are also compressed gaseous fuel channel with internal combustion engine (1), and internal combustion engine (1) connects new compressor
(E) and power is transmitted, forms combined cycle heat pump assembly.
18. combined cycle heat pump assembly is to increase power in any combined cycle heat pump assembly described in claim 1-17
Machine, engine connect compressor (2) simultaneously provide power to compressor (2), form the power-actuated combined cycle heat of additional external
Pump installation.
19. combined cycle heat pump assembly is to increase work in any combined cycle heat pump assembly described in claim 1-17
Machine, internal combustion engine (1) connect working machine and provide power to working machine, form the additional combined cycle heat for externally providing living load
Pump installation.
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CN201810747968 | 2018-06-29 | ||
CN2018107479689 | 2018-06-29 |
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CN201910617468.8A Pending CN110345664A (en) | 2018-06-29 | 2019-06-26 | Combined cycle heat pump assembly |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CA1126523A (en) * | 1980-06-10 | 1982-06-29 | Alvin Lowi, Jr. | Combined engine cooling system and waste-heat driven heat pump |
US4342200A (en) * | 1975-11-12 | 1982-08-03 | Daeco Fuels And Engineering Company | Combined engine cooling system and waste-heat driven heat pump |
CN106440511A (en) * | 2015-12-30 | 2017-02-22 | 李华玉 | First-kind thermally-driven compression type heat pump |
CN106494185A (en) * | 2016-11-28 | 2017-03-15 | 赵白桦 | Heat management recovery system and air-conditioner set and motor vehicles |
CN108119196A (en) * | 2017-12-07 | 2018-06-05 | 李华玉 | Combined circulation power apparatus |
-
2019
- 2019-06-26 CN CN201910617468.8A patent/CN110345664A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4342200A (en) * | 1975-11-12 | 1982-08-03 | Daeco Fuels And Engineering Company | Combined engine cooling system and waste-heat driven heat pump |
CA1126523A (en) * | 1980-06-10 | 1982-06-29 | Alvin Lowi, Jr. | Combined engine cooling system and waste-heat driven heat pump |
CN106440511A (en) * | 2015-12-30 | 2017-02-22 | 李华玉 | First-kind thermally-driven compression type heat pump |
CN106494185A (en) * | 2016-11-28 | 2017-03-15 | 赵白桦 | Heat management recovery system and air-conditioner set and motor vehicles |
CN108119196A (en) * | 2017-12-07 | 2018-06-05 | 李华玉 | Combined circulation power apparatus |
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