CN109281716A - A kind of steam circulation steam turbine and its application method - Google Patents
A kind of steam circulation steam turbine and its application method Download PDFInfo
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- CN109281716A CN109281716A CN201811189378.5A CN201811189378A CN109281716A CN 109281716 A CN109281716 A CN 109281716A CN 201811189378 A CN201811189378 A CN 201811189378A CN 109281716 A CN109281716 A CN 109281716A
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- impeller
- end wall
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- 238000000034 method Methods 0.000 title claims abstract description 17
- 206010008469 Chest discomfort Diseases 0.000 claims abstract description 68
- 238000010438 heat treatment Methods 0.000 claims abstract description 25
- 238000002485 combustion reaction Methods 0.000 claims abstract description 16
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims abstract description 7
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 34
- 238000009833 condensation Methods 0.000 claims description 18
- 230000005494 condensation Effects 0.000 claims description 18
- 239000007788 liquid Substances 0.000 claims description 17
- 239000000446 fuel Substances 0.000 claims description 6
- 238000010248 power generation Methods 0.000 claims description 6
- 239000002699 waste material Substances 0.000 claims description 6
- 238000009835 boiling Methods 0.000 claims description 3
- 230000005611 electricity Effects 0.000 claims description 3
- 230000013011 mating Effects 0.000 claims description 3
- 239000007787 solid Substances 0.000 claims 3
- 238000001727 in vivo Methods 0.000 claims 2
- 235000008733 Citrus aurantifolia Nutrition 0.000 claims 1
- 235000011941 Tilia x europaea Nutrition 0.000 claims 1
- 239000004571 lime Substances 0.000 claims 1
- 238000010586 diagram Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 238000004064 recycling Methods 0.000 description 2
- 238000007599 discharging Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000000750 progressive effect Effects 0.000 description 1
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01D—NON-POSITIVE DISPLACEMENT MACHINES OR ENGINES, e.g. STEAM TURBINES
- F01D25/00—Component parts, details, or accessories, not provided for in, or of interest apart from, other groups
- F01D25/30—Exhaust heads, chambers, or the like
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01D—NON-POSITIVE DISPLACEMENT MACHINES OR ENGINES, e.g. STEAM TURBINES
- F01D25/00—Component parts, details, or accessories, not provided for in, or of interest apart from, other groups
- F01D25/32—Collecting of condensation water; Drainage ; Removing solid particles
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01K—STEAM ENGINE PLANTS; STEAM ACCUMULATORS; ENGINE PLANTS NOT OTHERWISE PROVIDED FOR; ENGINES USING SPECIAL WORKING FLUIDS OR CYCLES
- F01K7/00—Steam engine plants characterised by the use of specific types of engine; Plants or engines characterised by their use of special steam systems, cycles or processes; Control means specially adapted for such systems, cycles or processes; Use of withdrawn or exhaust steam for feed-water heating
- F01K7/16—Steam engine plants characterised by the use of specific types of engine; Plants or engines characterised by their use of special steam systems, cycles or processes; Control means specially adapted for such systems, cycles or processes; Use of withdrawn or exhaust steam for feed-water heating the engines being only of turbine type
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)
Abstract
A kind of steam circulation steam turbine and its application method, including main body, high steam tower is installed on the right side of the main body, it is connected between the main body and the high steam tower and is equipped with connection pedestal, fixed combuster in the high steam tower, it is connected with the external world on end wall equipped with feed inlet on rear side of the combustion chamber, heating chamber is installed in the high steam tower above the combustion chamber, steam collecting chamber is installed in the main body, the extended main shaft chamber in left and right is installed in the main body above the steam collecting chamber, it is connected between the steam collecting chamber and the main shaft chamber equipped with the first steam pipe, the first high pressure chest is installed in the main body on the left of the main shaft chamber, end wall is connected with extending end on the left of the main shaft chamber on the right side of first high pressure chest, it is high positioned at described first The first low pressure chamber is installed in the main body on the left of pressure chamber.
Description
Technical field
The present invention relates to steam turbine technology field, specially a kind of steam circulation steam turbine and its application method.
Background technique
With the development of science and technology and progressive, we increasingly focus on energy-saving and emission-reduction, and present most of steam turbine is simple
Only done work using the mechanical energy of steam, but waste the thermal energy of steam significantly, many steam are also reduced with once just discharging
The utilization rate of steam.
Summary of the invention
The purpose of the present invention is to provide a kind of steam circulation steam turbine and its application methods, for overcoming the prior art
In drawbacks described above.
A kind of steam circulation steam turbine according to the present invention and its application method, including main body, the main body are right
Side is installed with high steam tower, is connected between the main body and the high steam tower and is equipped with connection pedestal, the high pressure
Fixed combuster in turret is connected equipped with feed inlet on rear side of the combustion chamber with the external world on end wall, is located at the burning
It is installed with heating chamber in the high steam tower above room, steam collecting chamber is installed in the main body, the steam is received
Be installed with the extended main shaft chamber in left and right in the main body above collection chamber, the steam collecting chamber and the main shaft chamber it
Between be connected equipped with the first steam pipe, be installed with the first high pressure chest in the main body on the left of the main shaft chamber, it is described
End wall is connected with main shaft chamber left side extending end on the right side of first high pressure chest, on the left of first high pressure chest described in
The first low pressure chamber is installed in main body, end wall is connected with end wall on the left of first high pressure chest on the right side of first low pressure chamber
It is logical, the second high pressure chest is installed in the main body on the right side of the main shaft chamber, on the left of second high pressure chest end wall with
Extending end is connected on the right side of the main shaft chamber, and it is low to be installed with second in the main body on the right side of second high pressure chest
Chamber is pressed, end wall is connected with end wall on the right side of second high pressure chest on the left of second low pressure chamber, first high pressure chest and institute
It states and is connected between the second high pressure chest equipped with the second steam lead, second steam lead is located at the institute above the main shaft chamber
It states in main body, is connected between second steam lead and the main shaft chamber equipped with third steam lead, be located at described the
The first condensation annular groove is installed in the main body on the left of one low pressure chamber, end wall and described first on the left of first low pressure chamber
End wall is connected on the right side of condensation annular groove, is installed with the second condensation ring in the main body on the right side of second low pressure chamber
Slot, the second low pressure chamber right side end wall are connected with end wall on the left of the second condensation annular groove, steam collecting chamber bottom
Condensate liquid accumulator tank is installed on end wall, end wall is connected with end wall on the left of first low pressure chamber on the left of the steam collecting chamber
Equipped with the first connection chamber, end wall is connected with end wall on the right side of second low pressure chamber equipped with second on the right side of the condensate liquid accumulator tank
Be connected to chamber, be installed with water pump in the connection pedestal, the water pump left end face and the condensate liquid accumulator tank bottom end wall it
Between be connected equipped with the first water-supply-pipe, be connected between end wall equipped with second on the left of the water pump top end surface and the heating chamber
Water-supply-pipe is installed with the 4th extended to the left steam lead, the 4th steam lead on end wall on the left of the heating chamber
It is connected between extending end and second steam lead to the left equipped with the 5th steam lead, the 4th steam lead and institute
It states and is also connected between the second steam lead equipped with the 6th steam lead, the 6th steam lead, which is located at the 5th steam, leads
On the right side of pipe, intracavitary be rotatably assorted by bearing of the main shaft is connected with the extended main shaft in left and right, extends on the left of the main shaft
The first to the left extended impeller shaft is protruded into first high pressure chest and be installed in end, in the main body left end face
It is installed with power output device, extending end is protruded into the power output device and moved with described on the left of first impeller shaft
Power output device is rotatably assorted connection, and it is equal to be circumferentially installed with multiple groups in first impeller shaft in first high pressure chest
First high-pressure impeller of distribution, is circumferentially installed with multiple groups in first impeller shaft in first low pressure chamber and is distributed
The first low pressure impeller, be installed with the first fan in the part between first low pressure chamber and the power output device
Frame, first impeller shaft passes through first fan board and is rotatably assorted with first fan board and connect, described to be located at institute
It states and is circumferentially installed with first exhaust fan in first impeller shaft in the first fan board, extending end protrudes on the right side of the main shaft
In second high pressure chest and power is connected with the second impeller shaft, is installed with storage dress on the right side of the main body in end wall
It sets, extending end is protruded into the electric storage device and is rotatably assorted with the electric storage device and connect on the right side of second impeller shaft,
It is circumferentially installed with the second high-pressure impeller that multiple groups are distributed in second impeller shaft in second high pressure chest, is located at
It is circumferentially installed with the second low pressure impeller that multiple groups are distributed in second impeller shaft in second low pressure chamber, is located at described
It is installed with the second fan board between second low pressure impeller and the electric storage device in part, second impeller shaft passes through described the
Two fan boards and being rotatably assorted with second fan board are connect, second impeller shaft inside second fan board
Upper circumferential direction is installed with second exhaust fan, and the second exhaust fan is stretched out outside second fan board.
Further technical solution, the interior part between first high-pressure impeller of first high pressure chest are installed with first
High voltage stator, the interior part between first low pressure impeller of first low pressure chamber are installed with the first low pressure stator, institute
It states the part in the second high pressure chest between second high-pressure impeller and is installed with the second high voltage stator, second low pressure chamber
The interior part between second low pressure impeller is installed with the first low pressure stator.
Further technical solution is installed with drive cavity in the power output device, prolongs on the left of first impeller shaft
It stretches and is installed with first rotating shaft extended to the left on end, extending end protrudes into the drive cavity on the left of the first rotating shaft
And be rotatably assorted and connect with end wall on the left of the drive cavity, end wall and the power output device left-hand end on the left of the drive cavity
It is rotatably assorted between face and is connected with the second extended shaft of left and right, extending end protrudes into the biography on the right side of second shaft
It moves intracavitary and is rotatably assorted and connect with end wall on the right side of the drive cavity, the extending end stretching power on the left of second shaft
Outside output device, the first spur gear is circumferentially installed in the first rotating shaft, second shaft in the drive cavity
Upper circumferential direction is installed with the second spur gear, and first spur gear engages mating connection with second spur gear.
Further technical solution, is installed with power generation chamber in the electric storage device, in the second impeller shaft right end face
It is installed with generator amature, power coil is circumferentially with outside the generator amature, it is fixed between end wall before and after the power generation chamber
There is battery, the power coil passes through with the battery to be electrically connected.
Further technical solution is installed with the first check valve, the 6th steam lead on the 5th steam lead
On be installed with second one-way valve, second steam between the 5th steam lead and the third steam lead is led
Third check valve is installed on pipe, second steam between the third steam lead and the 6th steam lead
The 4th check valve is installed on conduit.
Detailed description of the invention
Fig. 1 is the schematic diagram of internal structure of a kind of steam circulation steam turbine and its application method in the present invention;
Fig. 2 is the partial schematic diagram of A in Fig. 1.
Specific embodiment
A kind of steam circulation steam turbine of the present invention and its application method are described in detail below with reference to Fig. 1-2.
Referring to Fig.1-2, a kind of steam circulation steam turbine and its application method of embodiment according to the present invention, including master
Body 10 is installed with high steam tower 68 on the right side of the main body 10, between the main body 10 and the high steam tower 68
It is connected and is equipped with connection pedestal 67, fixed combuster 24 in the high steam tower 68, on the 24 rear side end wall of combustion chamber
It is connected with the external world equipped with feed inlet 23, is installed with heating chamber in the high steam tower 68 above the combustion chamber 24
25, it is installed with steam collecting chamber 17 in the main body 10, it is fixed in the main body 10 of 17 top of steam collecting chamber
The main shaft chamber 15 for having left and right extended, is connected between the steam collecting chamber 17 and the main shaft chamber 15 equipped with the first steam
Pipe 14 is installed with the first high pressure chest 46, first high pressure chest 46 in the main body 10 in 15 left side of main shaft chamber
Right side end wall is connected with the 15 left side extending end of main shaft chamber, the main body positioned at 46 left side of the first high pressure chest
The first low pressure chamber 52 is installed in 10, the 52 right side end wall of the first low pressure chamber is connected with the 46 left side end wall of the first high pressure chest
It is logical, the second high pressure chest 38 is installed in the main body 10 on 15 right side of main shaft chamber, second high pressure chest 38 is left
Side wall is connected with the 15 right side extending end of main shaft chamber, the main body 10 positioned at 38 right side of the second high pressure chest
It is inside installed with the second low pressure chamber 35, the 35 left side end wall of the second low pressure chamber is connected with the 38 right side end wall of the second high pressure chest
It is logical, it is connected between first high pressure chest 46 and second high pressure chest 38 and is steamed equipped with the second steam lead 47, described second
Vapour conduit 47 is located in the main body 10 of 15 top of main shaft chamber, second steam lead 47 and the main shaft chamber 15
Between be connected equipped with third steam lead 42, the is installed in the main body 10 in 52 left side of the first low pressure chamber
One condensation annular groove 53, the 52 left side end wall of the first low pressure chamber are connected with the first condensation 53 right side end wall of annular groove, are located at
The second condensation annular groove 32,35 right side of the second low pressure chamber are installed in the main body 10 on 35 right side of the second low pressure chamber
End wall is connected with the second condensation 32 left side end wall of annular groove, is installed with condensate liquid in 17 bottom end wall of steam collecting chamber
Accumulator tank 12, the 17 left side end wall of steam collecting chamber and the 52 left side end wall of the first low pressure chamber are connected equipped with the first connection
Chamber 11, the 12 right side end wall of condensate liquid accumulator tank are connected equipped with the second connection chamber with the 35 right side end wall of the second low pressure chamber
20, water pump 21,21 left end face of water pump and 12 bottom end of condensate liquid accumulator tank are installed in the connection pedestal 67
It is connected between wall equipped with the first water-supply-pipe 13, is connected between 21 top end surface of water pump and the 25 left side end wall of heating chamber
It is logical to be equipped with the second water-supply-pipe 22, the 4th extended to the left steam lead 69 is installed on the 25 left side end wall of heating chamber,
4th steam lead 69 is connected between extending end and second steam lead 47 equipped with the 5th steam lead to the left
44, also it is connected between the 4th steam lead 69 and second steam lead 47 equipped with the 6th steam lead 39, it is described
6th steam lead 39 is located at 44 right side of the 5th steam lead, is rotatably assorted and is connected with by bearing in the main shaft chamber 15
The extended main shaft 16 in left and right, the 16 left side extending end of main shaft are protruded into first high pressure chest 46 and are installed with to the left
The first extended impeller shaft 60 is installed with power output device 54, first leaf in 10 left end face of main body
60 left side extending end of wheel shaft is protruded into the power output device 54 and is rotatably assorted with the power output device 54 and connect,
The first high-pressure impeller that multiple groups are distributed circumferentially is installed in first impeller shaft 60 in first high pressure chest 46
49, the first low pressure leaf that multiple groups are distributed circumferentially is installed in first impeller shaft 60 in first low pressure chamber 52
51 are taken turns, is installed with the first fan board 62 in the part between first low pressure chamber 52 and the power output device 54,
First impeller shaft 60 passes through first fan board 62 and is rotatably assorted with first fan board 62 and connect, described to be located at
It is circumferentially installed with first exhaust fan 61 in first impeller shaft 60 in first fan board 62, prolongs on the right side of the main shaft 16
Stretch that end is protruded into second high pressure chest 38 and power is connected with the second impeller shaft 31, the 10 right side end wall of main body
Inside be installed with electric storage device 30, the 31 right side extending end of the second impeller shaft protrude into the electric storage device 30 and with the storage
Electric installation 30 is rotatably assorted connection, is circumferentially installed with multiple groups in second impeller shaft 31 in second high pressure chest 38
The second high-pressure impeller 37 being distributed circumferentially is installed with more in second impeller shaft 31 in second low pressure chamber 35
The second low pressure impeller 33 that group is distributed, it is fixed in part between second low pressure impeller 33 and the electric storage device 30
There is the second fan board 18, second impeller shaft 31 passes through second fan board 18 and matches with second fan board 18 rotation
Connection is closed, is circumferentially installed with second exhaust fan 19, institute in second impeller shaft 31 inside second fan board 18
Second exhaust fan 19 is stated to stretch out outside second fan board 18, it may be advantageous that or illustratively, be located in first high pressure chest 46
Part between first high-pressure impeller 49 is installed with the first high voltage stator 48, and described the is located in first low pressure chamber 52
Part between one low pressure impeller 51 is installed with the first low pressure stator 50, is located at second high pressure in second high pressure chest 38
Part between impeller 37 is installed with the second high voltage stator 36, is located at second low pressure impeller 33 in second low pressure chamber 35
Between part be installed with the first low pressure stator 34.
Valuably or illustratively, drive cavity 56, first impeller shaft 60 are installed in the power output device 54
First rotating shaft 58 extended to the left is installed on the extending end of left side, the 58 left side extending end of first rotating shaft protrudes into institute
It states in drive cavity 56 and is rotatably assorted with the 56 left side end wall of drive cavity and connect, the 56 left side end wall of drive cavity is moved with described
It is rotatably assorted between 54 left end face of power output device and is connected with the second extended shaft 57 of left and right, second shaft 57
Right side extending end is protruded into the drive cavity 56 and is rotatably assorted with the 56 right side end wall of drive cavity and connect, and described second turn
57 left side extending end of axis stretches out outside the power output device 54, is circumferentially installed with the first spur gear in the first rotating shaft 58
59, the second spur gear 55, first spur gear are circumferentially installed in second shaft 57 in the drive cavity 56
59 engage mating connection with second spur gear 55.
Valuably or illustratively, power generation chamber 28,31 right side of the second impeller shaft are installed in the electric storage device 30
It is installed with generator amature 26 on end face, is circumferentially with power coil 29 outside the generator amature 26, before the power generation chamber 28
Battery 27 is installed between aft bulkhead, the power coil 29 passes through with the battery 27 to be electrically connected.
Valuably or illustratively, the first check valve 45, the 6th steam are installed on the 5th steam lead 44
Second one-way valve 40 is installed on conduit 39, the institute between the 5th steam lead 44 and the third steam lead 42
It states and is installed with third check valve 43 on the second steam lead 47, be located at the third steam lead 42 and the 6th steam lead
The 4th check valve 41 is installed on second steam lead 47 between 39.
When machine operation, fuel is sent into the combustion chamber 24 through the feed inlet 23 and is burnt, the combustion chamber 24
In fuel combustion the water in the heating chamber 25 is heated, the water boiling in the heating chamber 25 generates vapor, it is described plus
A part of vapor time in hot chamber 25 is by the 4th steam lead 69, the 5th steam lead 44, first list
Enter in first high pressure chest 46 to valve 45 and second steam lead 47, another part water in the heating chamber 25 steams
Gas is led by the 4th steam lead 69, the 6th steam lead 39, the second one-way valve 40 and second steam
Pipe 47 enters in second high pressure chest 38, and the vapor in first high pressure chest 46 is adjusted through first high voltage stator 48
Enter in first low pressure chamber 52 after driving first high-pressure impeller 49 to rotate behind direction, in first low pressure chamber 52
Vapor enters described first after driving first low pressure impeller 51 to rotate after 50 adjustment direction of the first low pressure stator
It is condensed in condensation annular groove 53, condensed water finally slides into the condensate liquid accumulator tank 12, while driving the first exhaust fan 61
Vapor in first low pressure chamber 52 is discharged into the steam collecting chamber 17 by rotation through the first connection chamber 11, described
Vapor in second high pressure chest 38 drives 36 turns of second high voltage stator after 36 adjustment direction of the second high voltage stator
Enter in second low pressure chamber 35 after dynamic, the vapor in second low pressure chamber 35 is adjusted through the first low pressure stator 34
Enter in the second condensation annular groove 32 after driving second low pressure impeller 33 to rotate behind direction and condense, condensed water finally slides into
In the condensate liquid accumulator tank 12, while driving the rotation of second exhaust fan 19 by the vapor in second low pressure chamber 35
It is discharged into the steam collecting chamber 17 through the second connection chamber 20, a part of vapor in the steam collecting chamber 17 is through institute
State the first steam pipe 14, the main shaft chamber 15, the third steam lead 42, the third check valve 43 and second steam
Conduit 47 enters in first high pressure chest 46 to be reused again, another part vapor warp in the steam collecting chamber 17
First steam pipe 14, the main shaft chamber 15, the third steam lead 42, the 4th check valve 41 and described second are steamed
Vapour conduit 47 enters in second high pressure chest 38 to be reused again, and the vapor of recycling is added by newly generated vapor
Heat, avoids the waste and loss of heat, and the water pump 21 works, and the water gathered in the condensate liquid accumulator tank 12 is through described the
One water-supply-pipe 13, the water pump 21 and second water-supply-pipe 22 are admitted to Repeat-heating in the heating chamber 25, reduce water
The waste of resource, first low pressure impeller 51, first high-pressure impeller 49, second high-pressure impeller 37 and described second
The rotation of low pressure impeller 33 drives first impeller shaft 60, the main shaft 16 and second impeller shaft 31 to rotate, and described first
The rotation of impeller shaft 60 successively drives first impeller shaft 58, first spur gear 59, second spur gear 55 and described
The rotation of second shaft 57, the rotation of the second impeller shaft 31 drives the generator amature 26 to rotate, in the power coil 29
Electric current, 27 storage of battery are generated, which is also used as the power source of certain machines while generating electricity storage.
Advantageous effect of the invention is: when machine operation, fuel being sent into combustion chamber through feed inlet and is burnt, in combustion chamber
Fuel combustion the water in heating chamber is heated, the water boiling in heating chamber generates vapor, and a part of water in heating chamber steams
Gas time enters in the first high pressure chest by the 4th steam lead, the 5th steam lead, the first check valve and the second steam lead, adds
Another part vapor in hot chamber passes through the 4th steam lead, the 6th steam lead, second one-way valve and the second steam lead
Into in the second high pressure chest, the vapor in the first high pressure chest drives the first high-pressure impeller after the first high voltage stator adjustment direction
Enter in the first low pressure chamber after rotation, the vapor in the first low pressure chamber drives first low after the first low pressure stator adjustment direction
Enter in the first condensation annular groove after pressure wheel rotation and condense, condensed water finally slides into condensate liquid accumulator tank, while driving first
Vapor in first low pressure chamber is discharged into steam collecting chamber by exhaust fan rotation through the first connection chamber, the water in the second high pressure chest
Steam enters in the second low pressure chamber after driving the second high voltage stator to rotate after the second high voltage stator adjustment direction, the second low pressure chamber
In vapor driven after the first low pressure stator adjustment direction the second low pressure impeller rotate after enter second condensation annular groove in it is cold
Solidifying, condensed water finally slides into condensate liquid accumulator tank, while driving second exhaust fan rotation by the vapor in the second low pressure chamber
It is discharged into steam collecting chamber through the second connection chamber, a part of vapor in steam collecting chamber is through the first steam pipe, main shaft chamber, the
Three steam leads, third check valve and the second steam lead enter in the first high pressure chest to be reused again, in steam collecting chamber
Another part vapor through the first steam pipe, main shaft chamber, third steam lead, the 4th check valve and the second steam lead enter
It is reused again in second high pressure chest, the vapor of recycling is heated by newly generated vapor, avoids the wave of heat
Take and be lost, pump working, the water gathered in condensate liquid accumulator tank be admitted to through the first water-supply-pipe, water pump and the second water-supply-pipe plus
Repeat-heating in hot chamber reduces the waste of water resource, the first low pressure impeller, the first high-pressure impeller, the second high-pressure impeller and
The rotation of two low pressure impellers drives the first impeller shaft, main shaft and the rotation of the second impeller shaft, and the rotation of the first impeller shaft successively drives first
Impeller shaft, the first spur gear, the second spur gear and the rotation of the second shaft, the rotation of the second impeller shaft drive generator amature rotation,
Electric current, battery power storage are generated in power coil, which is also used as the power of certain machines while generating electricity storage
Source.
Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design
To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention
It is subject to claims appended hereto.
Claims (6)
1. a kind of steam circulation steam turbine and its application method, including main body, it is characterised in that: solid on the right side of the main body
Equipped with high steam tower, it is connected between the main body and the high steam tower and is equipped with connection pedestal, the high steam
Fixed combuster in tower is connected equipped with feed inlet on rear side of the combustion chamber with the external world on end wall, is located on the combustion chamber
It is installed with heating chamber in the high steam tower of side, steam collecting chamber, the steam collecting chamber are installed in the main body
The extended main shaft chamber in left and right, phase between the steam collecting chamber and the main shaft chamber are installed in the main body of top
Connection is equipped with the first steam pipe, is installed with the first high pressure chest in the main body on the left of the main shaft chamber, and described first
End wall is connected with extending end on the left of the main shaft chamber on the right side of high pressure chest, the host on the left of first high pressure chest
It is installed with the first low pressure chamber in vivo, end wall is connected with end wall on the left of first high pressure chest on the right side of first low pressure chamber, position
The second high pressure chest is installed in the main body on the right side of the main shaft chamber, end wall and the master on the left of second high pressure chest
Extending end is connected on the right side of axocoel, is installed with the second low pressure chamber in the main body on the right side of second high pressure chest,
End wall is connected with end wall on the right side of second high pressure chest on the left of second low pressure chamber, first high pressure chest and described second
It is connected between high pressure chest equipped with the second steam lead, second steam lead is located at the host above the main shaft chamber
In vivo, it is connected between second steam lead and the main shaft chamber equipped with third steam lead, is located at first low pressure
The first condensation annular groove is installed in the main body on the left of chamber, end wall and the first condensation ring on the left of first low pressure chamber
End wall is connected on the right side of slot, and the second condensation annular groove is installed in the main body on the right side of second low pressure chamber, described
End wall is connected with end wall on the left of the second condensation annular groove on the right side of second low pressure chamber, solid in the steam collecting chamber bottom end wall
Equipped with condensate liquid accumulator tank, end wall is connected with end wall on the left of first low pressure chamber equipped with first on the left of the steam collecting chamber
It is connected to chamber, end wall is connected equipped with the second connection chamber with end wall on the right side of second low pressure chamber on the right side of the condensate liquid accumulator tank,
It is installed with water pump in the connection pedestal, is connected between the water pump left end face and the condensate liquid accumulator tank bottom end wall
Equipped with the first water-supply-pipe, it is connected between the water pump top end surface and end wall on the left of the heating chamber equipped with the second water-supply-pipe,
The 4th extended to the left steam lead is installed on the left of the heating chamber on end wall, the 4th steam lead extends to the left
It is connected between end and second steam lead equipped with the 5th steam lead, the 4th steam lead and described second steams
Also it is connected between vapour conduit equipped with the 6th steam lead, the 6th steam lead is located on the right side of the 5th steam lead,
Intracavitary be rotatably assorted by bearing of the main shaft is connected with the extended main shaft in left and right, and extending end protrudes on the left of the main shaft
In first high pressure chest and it is installed with the first extended to the left impeller shaft, is installed in the main body left end face dynamic
Power output device, the first impeller shaft left side extending end are protruded into the power output device and are filled with the power output
The connection that is rotatably assorted is set, multiple groups are distributed is circumferentially installed in first impeller shaft in first high pressure chest
It is low to be circumferentially installed with multiple groups are distributed first in first impeller shaft in first low pressure chamber for one high-pressure impeller
Impeller is pressed, is installed with the first fan board in the part between first low pressure chamber and the power output device, it is described
First impeller shaft passes through first fan board and is rotatably assorted with first fan board and connect, described to be located at first wind
First exhaust fan is circumferentially installed in first impeller shaft in fan frame, extending end protrudes into described second on the right side of the main shaft
In high pressure chest and power is connected with the second impeller shaft, is installed with electric storage device on the right side of the main body in end wall, and described the
Extending end is protruded into the electric storage device and is rotatably assorted with the electric storage device and connect on the right side of two impeller shafts, positioned at described the
It is circumferentially installed with the second high-pressure impeller that multiple groups are distributed in second impeller shaft in two high pressure chests, it is low to be located at described second
It presses and is circumferentially installed with the second low pressure impeller that multiple groups are distributed in intracavitary second impeller shaft, be located at the second low pressure leaf
The second fan board is installed between wheel and the electric storage device in part, second impeller shaft passes through second fan board simultaneously
It is rotatably assorted and connect with second fan board, it is circumferential fixed in second impeller shaft inside second fan board
There is second exhaust fan, the second exhaust fan is stretched out outside second fan board.
2. a kind of steam circulation steam turbine according to claim 1 and its application method, it is characterised in that: described first
Part in high pressure chest between first high-pressure impeller is installed with the first high voltage stator, is located in first low pressure chamber
Part between first low pressure impeller is installed with the first low pressure stator, is located at second high pressure in second high pressure chest
Part between impeller is installed with the second high voltage stator, the interior portion between second low pressure impeller of second low pressure chamber
Divide and is installed with the first low pressure stator.
3. a kind of steam circulation steam turbine according to claim 1 and its application method, it is characterised in that: the power
It is installed with drive cavity in output device, is installed with first turn be extended to the left on the left of first impeller shaft on extending end
Axis, extending end is protruded into the drive cavity and is rotatably assorted company with end wall on the left of the drive cavity on the left of the first rotating shaft
It connects, being rotatably assorted between the drive cavity left side end wall and the power output device left end face, it is extended to be connected with left and right
The second shaft, extending end is protruded into the drive cavity and is rotated with end wall on the right side of the drive cavity on the right side of second shaft
It is cooperatively connected, extending end stretches out outside the power output device on the left of second shaft, circumferentially solid in the first rotating shaft
Equipped with the first spur gear, it is circumferentially installed with the second spur gear in second shaft in the drive cavity, described first
Spur gear engages mating connection with second spur gear.
4. a kind of steam circulation steam turbine according to claim 1 and its application method, it is characterised in that: the storage
It is installed with power generation chamber in device, is installed with generator amature in the second impeller shaft right end face, outside the generator amature
It is circumferentially with power coil, is installed with battery, the power coil and the battery before and after the power generation chamber between end wall
Pass through electrical connection.
5. a kind of steam circulation steam turbine according to claim 1 and its application method, it is characterised in that: the described 5th
It is installed with the first check valve on steam lead, is installed with second one-way valve on the 6th steam lead, is located at the described 5th and steams
It is installed with third check valve on second steam lead between vapour conduit and the third steam lead, is located at the third
The 4th check valve is installed on second steam lead between steam lead and the 6th steam lead.
6. a kind of steam circulation steam turbine and its application method described in -5 according to claim 1, application method are as follows: work as machine
When device is run, fuel is sent into the combustion chamber through the feed inlet and is burnt, the fuel combustion in the combustion chamber will be described
Water in heating chamber heats, and the water boiling in the heating chamber generates vapor, a part of vapor in the heating chamber
Enter institute by the 4th steam lead, the 5th steam lead, first check valve and second steam lead
It states in the first high pressure chest, another part vapor in the heating chamber passes through the 4th steam lead, the 6th steam
Conduit, the second one-way valve and second steam lead enter in second high pressure chest, in first high pressure chest
Vapor enters first low pressure after driving first high-pressure impeller to rotate after the first high voltage stator adjustment direction
In chamber, the vapor in first low pressure chamber drives first low pressure impeller after the first low pressure stator adjustment direction
Enter in the first condensation annular groove after rotation and condense, condensed water finally slides into the condensate liquid accumulator tank, while driving institute
It states first exhaust fan rotation and the vapor in first low pressure chamber is discharged into the steam collecting chamber through the first connection chamber
In, the vapor in second high pressure chest drives second high voltage stator to turn after the second high voltage stator adjustment direction
Enter in second low pressure chamber after dynamic, the vapor in second low pressure chamber is after the first low pressure stator adjustment direction
Enter in the second condensation annular groove after driving second low pressure impeller to rotate and condense, condensed water finally slides into the condensate liquid
In accumulator tank, while driving the second exhaust fan rotation by the vapor in second low pressure chamber through the second connection chamber
It is discharged into the steam collecting chamber, a part of vapor in the steam collecting chamber is through first steam pipe, the main shaft
Chamber, the third steam lead, the third check valve and second steam lead enter in first high pressure chest again
It reuses, another part vapor in the steam collecting chamber is through first steam pipe, the main shaft chamber, the third
Steam lead, the 4th check valve and second steam lead enter in second high pressure chest to be reused again, weight
The vapor utilized again is heated by newly generated vapor, avoids the waste and loss of heat, and the pump working is described cold
The water gathered in lime set accumulator tank is admitted to the heating chamber through first water-supply-pipe, the water pump and second water-supply-pipe
Middle Repeat-heating reduces the waste of water resource, first low pressure impeller, first high-pressure impeller, second high pressure
Impeller and second low pressure impeller rotation drive first impeller shaft, the main shaft and second impeller shaft rotation, institute
It states the rotation of the first impeller shaft and successively drives first impeller shaft, first spur gear, second spur gear and described the
The rotation of two shafts, the second impeller shaft rotation drive the generator amature rotation, generate electric current in the power coil, institute
Battery power storage is stated, which is also used as the power source of certain machines while generating electricity storage.
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CN110186502A (en) * | 2019-06-03 | 2019-08-30 | 嘉兴古辛达贸易有限公司 | A kind of optical sensor method for testing performance |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110186502A (en) * | 2019-06-03 | 2019-08-30 | 嘉兴古辛达贸易有限公司 | A kind of optical sensor method for testing performance |
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