CN107762561A - Hydrodynamic force generating set - Google Patents
Hydrodynamic force generating set Download PDFInfo
- Publication number
- CN107762561A CN107762561A CN201610711141.3A CN201610711141A CN107762561A CN 107762561 A CN107762561 A CN 107762561A CN 201610711141 A CN201610711141 A CN 201610711141A CN 107762561 A CN107762561 A CN 107762561A
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- Prior art keywords
- water
- separator
- internal combustion
- combustion engine
- water pump
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01C—ROTARY-PISTON OR OSCILLATING-PISTON MACHINES OR ENGINES
- F01C13/00—Adaptations of machines or engines for special use; Combinations of engines with devices driven thereby
-
- 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
- F01K25/00—Plants or engines characterised by use of special working fluids, not otherwise provided for; Plants operating in closed cycles and not otherwise provided for
- F01K25/06—Plants or engines characterised by use of special working fluids, not otherwise provided for; Plants operating in closed cycles and not otherwise provided for using mixtures of different fluids
Abstract
The embodiment of the invention discloses a kind of Hydrodynamic force generating set, including:Water pump, separator, round rotor formula internal combustion engine and generator, water is pressurized by water pump first, then make the water after supercharging vaporize in the separator into separator to mix with air, and break the covalent bond of molecule in mixture, the mixture for having broken molecule covalent key afterwards enters thing round rotor formula internal combustion engine, the expansion work in thing round rotor formula internal combustion engine, promote the main axis of round rotor formula internal combustion engine, output torque, the rotor for driving connected generator finally by the main shaft of round rotor formula internal combustion engine rotates, and produces electric energy.The generation of its electric energy of the Hydrodynamic force generating set of the embodiment of the present invention is not restricted by natural conditions.
Description
Technical field
The invention belongs to generating equipment technical field, more particularly to a kind of Hydrodynamic force generating set.
Background technology
Electric energy is a kind of most basic energy, and it has advantages below:1st, electric energy is easy to be converted to the energy of other forms;
2nd, electric energy conveniently carries out long-distance sand transport;3rd, electric energy is easily achieved adjustment and control;4th, the consuming of electric energy is relatively low, economy compared with
It is high.At present, electric energy has been widely used in the various aspects of social production and life, is played in every field important
Effect.
Electric energy belongs to secondary energy sources, and it is due to that primary energy conversion produces.Generator is the visual plant for producing electric energy,
Generator is generally by the driving of other dynamic power machines such as steam turbine, the hydraulic turbine, diesel engine, steam turbine, the hydraulic turbine, diesel engine etc. by gas
Energy caused by stream, current, diesel combustion etc. is converted into mechanical energy and passes to generator, then is converted mechanical energy into by generator
Electric energy.
Recently as society, economic fast development, constantly increase for the demand of electric energy, be widely used at present
Primary energy, such as coal, oil, natural gas, it is the non-renewable energy, the problem of being faced with power consumption.Water is that one kind takes
Not to the utmost, nexhaustible, reproducible clean energy resource, available for generating electricity, hydroelectric generation at present is mainly by rivers, lake
On establish power station, the potential energy of water and kinetic energy are converted into electric energy, but this generation mode is by the hydrology, weather, landforms etc.
The limitation of natural conditions is very big.
The content of the invention
The technical problem to be solved of the embodiment of the present invention is:A kind of Hydrodynamic force generating set is provided, makes its electric energy
Generation is not restricted by natural conditions.
One side according to embodiments of the present invention, there is provided a kind of Hydrodynamic force generating set, including:
Water pump, the water entered by the water inlet of the water pump in the water pump is pressurized;
Separator, the water inlet of the separator are connected with the delivery port of the water pump, by the water vapor after supercharging and institute
The air mixing in separator is stated, and breaks the covalent bond of molecule in mixture;
Round rotor formula internal combustion engine, the air inlet of the round rotor formula internal combustion engine are connected with the gas outlet of the separator, entered
Enter the expansion work in the round rotor formula internal combustion engine of the mixture in the round rotor formula internal combustion engine, promote the round rotor formula
The main axis of internal combustion engine, output torque;
Generator, the rotor of the generator are connected with the main shaft of the round rotor formula internal combustion engine, in the round rotor formula
The main shaft of combustion engine drives the rotor of the generator to rotate, and produces electric energy.
In another embodiment based on the above-mentioned Hydrodynamic force generating set of the present invention, the pressure of the water outlet of the water pump
For 5-400 MPas, the water pump includes:Water pump more than one-level.
In another embodiment based on the above-mentioned Hydrodynamic force generating set of the present invention, in addition to:Water tank, the water tank
Water inlet be connected with the delivery port of the water pump, the delivery port of the water tank is connected with the water inlet of the separator.
In another embodiment based on the above-mentioned Hydrodynamic force generating set of the present invention, in addition to:Water rail, the water rail include
Water rail body, multiple water inlets and a delivery port are provided with the water rail body;The water tank is multiple described to be multiple
Water tank is parallel between the water pump and the water rail, and the delivery port of the plurality of water tank is multiple with the water rail
Water inlet is connected, and the delivery port of the water rail is connected with the water inlet of the separator.
In another embodiment based on the above-mentioned Hydrodynamic force generating set of the present invention, the separator is provided with heater,
The separator is heated by the heater to the water after supercharging, makes its vaporization, while the heater is also to described
Air in separator is heated.
In another embodiment based on the above-mentioned Hydrodynamic force generating set of the present invention, impeller is provided with the separator,
Water after vaporization is well mixed by the separator by the rotation of the impeller with the air in the separator.
In another embodiment based on the above-mentioned Hydrodynamic force generating set of the present invention, the water after being pressurized in the separator
Volume ratio with air is 100:1-50.
In another embodiment based on the above-mentioned Hydrodynamic force generating set of the present invention, in addition to:Air storage tank, the sky
The gas outlet of gas storage tank is connected with the air inlet of the separator, and air is provided to the separator.
In another embodiment based on the above-mentioned Hydrodynamic force generating set of the present invention, in the water pump, the separator, institute
State round rotor formula internal combustion engine and the generator be respectively equipped with sensor, the sensor detect respectively the water pump, described point
From each item data of device, the round rotor formula internal combustion engine and the generator;
Controller is further respectively had in the water pump, the separator, the round rotor formula internal combustion engine and the generator,
The water pump, the separator, the round rotor formula internal combustion engine and the generator sensor respectively with the water pump, described
Separator, the round rotor formula internal combustion engine and the generator controller connection, the controller monitor respectively the water pump,
The running status of the separator, the round rotor formula internal combustion engine and the generator.
In another embodiment based on the above-mentioned Hydrodynamic force generating set of the present invention, in addition to:Master controller, the master control
Controller of the device processed respectively with the water pump, the separator, the round rotor formula internal combustion engine and the generator is connected, and is obtained
The water pump, the separator, the running status of the round rotor formula internal combustion engine and the generator, output control instruction control
The water pump, the separator, startup, stopping and the running status of the round rotor formula internal combustion engine and the generator.
Based on Hydrodynamic force generating set provided in an embodiment of the present invention, water is pressurized by water pump, then utilizes separator
It will be mixed after water vapor after supercharging with air and break the covalent bond of molecule in mixture, mixture is entered round rotor afterwards
Formula internal combustion engine expansion work in round rotor formula internal combustion engine, explosive force is produced, promote the main axis of round rotor formula internal combustion engine, from
And drive the rotor for the generator being connected with the main shaft of round rotor internal combustion engine to rotate, electric energy is produced, the generation of its electric energy is not by certainly
The limitation of right condition.
Brief description of the drawings
The accompanying drawing of a part for constitution instruction describes embodiments of the invention, and is used to explain together with description
The principle of the present invention.
Referring to the drawings, according to following detailed description, the present invention can be more clearly understood, wherein:
Fig. 1 is the structure chart of Hydrodynamic force generating set one embodiment of the present invention.
Fig. 2 is the structure chart of another embodiment of Hydrodynamic force generating set of the present invention.
Fig. 3 is the structure chart of one specific embodiment of Hydrodynamic force generating set of the present invention.
Embodiment
The various exemplary embodiments of the present invention are described in detail now with reference to accompanying drawing.It should be noted that:Unless have in addition
Body illustrate, the positioned opposite of the part otherwise illustrated in these embodiments, numerical expression and numerical value it is unlimited system the present invention
Scope.
Simultaneously, it should be appreciated that for the ease of description, the size of the various pieces shown in accompanying drawing is not according to reality
Proportionate relationship draw.
The description only actually at least one exemplary embodiment is illustrative to be never used as to the present invention below
And its application or any restrictions that use.
It may be not discussed in detail for technology, method and apparatus known to person of ordinary skill in the relevant, but suitable
In the case of, the technology, method and apparatus should be considered as part for specification.
It should be noted that:Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi
It is defined, then it need not be further discussed in subsequent accompanying drawing in individual accompanying drawing.
Fig. 1 is the structure chart of Hydrodynamic force generating set one embodiment of the present invention.As shown in figure 1, the hydrodynamic(al) of the present embodiment
Power generation device 100 includes:Water pump 110, separator 120, round rotor formula internal combustion engine 130 and generator 140.Wherein, water pump 110
The water entered by its water inlet in water pump 110 is pressurized, the water inlet of separator 120 is connected with the delivery port of water pump 110, will increased
Water vapor after pressure mixes with the air in separator 120, and breaks the covalent bond of molecule in mixture, round rotor formula internal combustion engine
130 air inlet is connected with the gas outlet of separator 120, into the mixture in round rotor formula internal combustion engine 130 in round rotor formula
Expansion work in internal combustion engine 130, promote the main axis of round rotor formula internal combustion engine 130, output torque, the rotor of generator 140
It is connected with the main shaft of round rotor formula internal combustion engine 130, the main shaft of round rotor formula internal combustion engine 130 drives the rotor of generator to rotate, production
Raw electric energy.
Based on Hydrodynamic force generating set provided in an embodiment of the present invention, water is pressurized by water pump 110, then utilizes separation
Water vapor after supercharging is mixed and breaks the covalent bond of molecule in mixture by device 120 with air, mixture is entered circle afterwards
The expansion work in round rotor formula internal combustion engine 130 of rotary internal combustion engine 130, explosive force is produced, promote round rotor formula internal combustion engine 130
Main axis, so as to drive the rotor of generator 140 that the main shaft with round rotor formula internal combustion engine 130 is connected to rotate, produce electricity
Can, the generation of its electric energy is not limited by natural conditions.
In the present embodiment, water pump 110 includes water pump more than one-level, such as:Water pump 110 includes one-level water pump, two level
Water pump, three-level water pump, level Four water pump or Pyatyi water pump ..., the pressure of the water outlet of water pump 100 is 5-400 MPas, its
The series of middle water pump 110 is the back pressure that water pump 110 as needed reaches, and can reach per one-level in water pump 110
Back pressure etc. specifically determines.
In the present embodiment, water pump 110 can be realized using any common form, such as:Water pump 110 is barrier film
The one kind therein such as pump, gear pump, plunger pump, reciprocating pump, vavuum pump, jet pump, or one or more of series connection therein
Or parallel combination, water pump 110 can also be horizontal pump, vertical pump, inclined pump etc., the present embodiment is specifically limited not to this.
It should be noted that the composition structure of the water pump 110 of the present embodiment is identical with existing water pump, for its structure
Description can be found in prior art, and the present embodiment is not described specifically herein.As long as it will be understood by those skilled in the art that can
Meet that the water pump of the pressure requirement of concrete application is both contained in the present embodiment.
In the present embodiment, separator 120 is provided with heater, and separator 120 is by heater to the water after supercharging
Heating, makes its vaporization, device for simultaneous heating also heats to the air in separator 120.Wherein, the temperature of heater can
Up to 150-450 DEG C.Further, vaporization agent coating can be coated with the surface of heater, makes injection or drip in vaporization agent
Water on coating can be opened rapidly along the diffusion into the surface of coating, so that the hydrone spread apart being capable of promptly absorption and separation
Heat in device 120 and be vaporized.
It should be noted that the heater of the present embodiment can be realized using any common heater, this reality
Example is applied to be specifically limited not to this.As long as it will be understood by those skilled in the art that it disclosure satisfy that the steam made in separator 220
The heater of change is both contained in the present embodiment.
Further, impeller is additionally provided with separator 120, separator 120 is by the rotation of impeller by separator 120
Water after vaporization is well mixed with air.Wherein, separator 120 is additionally provided with the main shaft company of drive device, drive device and impeller
Connect, drive impeller high-speed rotation, its rotating speed is up to 1500-9000 revs/min.Such as:Drive device is motor, and motor passes through
The main shaft of shaft coupling and impeller connects, and the present embodiment does not make specific restriction, this area skill to the structure, type and model of motor
Art personnel are both contained in this implementation it is to be appreciated that as long as the rotating speed of impeller can be made to reach 1500-9000 revs/min of motor
Example.
Wherein, separator 120 breaks the mode of molecule covalent key in mixture, e.g. by separator 120 with
Heating, added electric field add the mode in magnetic field etc. to realize, the present embodiment does not break molecule covalent in mixture to separator 120
The mode of key is specifically limited.It will be understood by those skilled in the art that as long as point in separator 120 in mixture can be made
Son obtains energy, and the mode for breaking its covalent bond is both contained in the present embodiment.
In the present embodiment, the volume ratio of water and air after being pressurized in separator 120 is 100:1-50.
In the present embodiment, after the startup of round rotor formula internal combustion engine 130, molecule covalent key has been broken in separator 120
Mixture is entered in round rotor formula internal combustion engine 130 by the inlet duct of round rotor formula internal combustion engine 130, round rotor formula internal combustion engine
130 spark plug and fuel injector does not work, and simply by the expansion work of mixture, produces explosive force, promotes in round rotor formula
The main axis of combustion engine 130, output torque.
In the present embodiment, the rotor of generator 140 is connected with the main shaft of round rotor formula internal combustion engine 130 by shaft coupling,
Shaft coupling can be any common coupler structure for meeting the requirements such as bonding strength, and the present embodiment does specific limit not to this
It is fixed.Certainly, the connected mode of the rotor of generator 140 and the main shaft of round rotor formula internal combustion engine 130 is also unlimited in the present embodiment
By way of being connected shaft coupling, as long as it will be understood by those skilled in the art that it disclosure satisfy that the rotor of generator 140
The present embodiment is both contained in the common connected mode of the connection request of the main shaft of round rotor formula internal combustion engine 130.
Fig. 2 is the structure chart of another embodiment of Hydrodynamic force generating set of the present invention.As shown in Fig. 2 the water of the present embodiment
Dynamic power device 200 is similar to the Hydrodynamic force generating set 100 shown in Fig. 1, includes:Water pump 210, separator 220, circle turn
Minor internal combustion engine 230 and generator 240, both differences are:
In the present embodiment, Hydrodynamic force generating set 200 also includes:Water tank 250, the water inlet and water of water tank 250
The delivery port connection of pump 210, the delivery port of water tank 250 are connected with the water inlet of separator 220.The present embodiment passes through in water pump
Water tank 250 is set to ensure to provide the water after continual and steady supercharging to separator 220 between 210 and separator 220.
Wherein, on the pipeline that water pump 210 is connected with water tank 250, and water tank 250 is connected with separator 220
Valve and flow sensor are set respectively on pipeline, the flow of each pipeline is detected by flow sensor, and is coordinated on each pipeline
The valve of setting can realize the control more refined, to ensure the volume ratio of water and air after being pressurized in separator 220.
In the present embodiment, Hydrodynamic force generating set 200 also includes:Air storage tank 260, air storage tank 260 go out
Gas port is connected with the air inlet of separator 220, and air is provided to separator 220, to ensure after entering the supercharging in separator 220
Water mixed with air, continue to provide to round rotor formula internal combustion engine 230 and broken the mixture of molecule covalent key.
Further, valve and flow sensor are provided with the pipeline that air storage tank 260 is connected with separator 220,
The flow of air in separator 220 is entered by flow sensor detection, and coordinates the valve set on pipeline to realize more
The control of refinement, to ensure the volume ratio of water and air after being pressurized in separator 220.
Fig. 3 is the structure chart of one specific embodiment of Hydrodynamic force generating set of the present invention.As shown in figure 3, the present embodiment
Hydrodynamic force generating set 300 includes:Water pump 310, separator 320, round rotor formula internal combustion engine 330, generator 340, water tank
350th, air storage tank 360 and water rail 370.
Wherein, water pump 310 includes n level water pumps, and it specifically includes n compress cell, i.e. A1 ... An, water is by being pressurized
Unit A1 water inlet enter water pump 310 in, successively by compress cell A1 ... An supercharging after, by compress cell An's
Delivery port leaves, and wherein n is the integer more than 1.
Water tank 350 and water rail 370 are arranged between water pump 310 and separator 320, and water tank 350 is m, and wherein m is
Integer more than 1, water rail 370 include water rail body, and m water inlet and a delivery port are provided with water rail body, and wherein m is individual
The water inlet of water tank 350 is connected with compress cell An delivery port, and the delivery port of m water tank 350 is individual with the m of water rail 370
Water inlet is connected, and the delivery port of water rail 370 is connected with the water inlet of separator 320, i.e., m water tank 350 is to be parallel to water pump
Between 310 and water rail 370, the water after being pressurized caused by water pump 310 is to be introduced into water tank 350 to store, then by water tank 350
It is supplied to separator 320 to be further processed.The present embodiment is by setting water rail 370 to realize multiple water tanks 350 simultaneously
The water after supercharging is provided to separator 320, increases output, it is ensured that continual and steady supercharging is provided to separator 220
Water afterwards.
Wherein, on the pipeline that water pump 310 is connected with m water tank 350, and m water tank 350 connects with water rail 370
Valve and flow sensor are set respectively on the pipeline connect, the flow of each pipeline is detected by flow sensor, and coordinates each pipe
The valve set on road can realize the control more refined, to ensure the volume of water and air after being pressurized in separator 320
Than.In the present embodiment, the quantity of water tank 350 can also be less than the quantity of the water inlet of water rail 370 simultaneously.
It should be noted that the number of water tank 350 is determined according to the demand of concrete application, the present embodiment is not to this
It is specifically limited, as long as it will be understood by those skilled in the art that disclosure satisfy that the demand of concrete application, and ensure to separator
320 are persistently supplied, and this reality is both contained in ensure that Hydrodynamic force generating set 300 persistently exports the number of the water tank of electric energy
Apply example.
Air storage tank 360 is connected with separator 320, and air is provided to separator 320.Separator 320 is provided with heating and filled
321 are put, the water after supercharging is heated by heater 321, makes its vaporization, device for simultaneous heating is also in separator 320
Air is heated.Impeller 322 is additionally provided with air separator 320, the main shaft of impeller 322 is connected with motor, electronic
High-speed rotation under the driving of machine, the water after vaporization is set to be well mixed with air.Meanwhile increase electric field in separator 320, with
While 322 high-speed rotation of impeller, the molecule in mixture is set to obtain energy, so as to break the covalent bond of molecule in mixture.
The air inlet of round rotor formula internal combustion engine 330 is connected with the gas outlet of separator 320, in round rotor formula internal combustion engine 330
After startup, the mixture for having broken molecule covalent key in separator 320 is entered by the inlet duct of round rotor formula internal combustion engine 330
In round rotor formula internal combustion engine 330, the spark plug and fuel injector of round rotor formula internal combustion engine 330 do not work, simply by mixture
Expansion work, explosive force is produced, promote the main axis of round rotor formula internal combustion engine 330, output torque.The rotor of generator 340
It is connected with the main shaft of round rotor formula internal combustion engine 330 by shaft coupling, generator is driven by the main shaft of round rotor formula internal combustion engine 330
340 rotor rotates, and produces electric energy.
In the present embodiment, it is respectively equipped with water pump 310, separator 320, round rotor formula internal combustion engine 330 and generator 340
Sensor, it is respectively used to detect each item data of water pump 310, separator 320, round rotor formula internal combustion engine 330 and generator 340,
Sensor is also respectively equipped with water tank 350 and air storage tank 360, is respectively used to detect water tank 350 and air storage tank
360 each item data.
Controller, water pump are further respectively had in water pump 310, separator 320, round rotor formula internal combustion engine 330 and generator 340
310th, the sensor of separator 320, round rotor formula internal combustion engine 330 and generator 340 respectively with water pump 310, separator 320, circle
Rotary internal combustion engine 330 connects with the controller of generator 340, supervises water pump 310, separator 320, round rotor respectively by controller
The running status of formula internal combustion engine 330 and generator 340.
In the present embodiment, Hydrodynamic force generating set 300 also includes:Master controller, master controller respectively with water pump 310,
Separator 320, round rotor formula internal combustion engine 330 connect with the controller of generator 340, obtain water pump 310, separator 320, circle and turn
The running status of minor internal combustion engine 330 and generator 340, output control instruction control water pump 310, separator 320, round rotor formula
Startup, stopping and the running status of internal combustion engine 330 and generator 340.
Description of the invention provides for the sake of example and description, and is not exhaustively or by the present invention
It is limited to disclosed form.Many modifications and variations are obvious for the ordinary skill in the art.Select and retouch
State embodiment and be to more preferably illustrate the principle and practical application of the present invention, and one of ordinary skill in the art is managed
The present invention is solved so as to design the various embodiments with various modifications suitable for special-purpose.
Claims (10)
- A kind of 1. Hydrodynamic force generating set, it is characterised in that including:Water pump, the water entered by the water inlet of the water pump in the water pump is pressurized;Separator, the water inlet of the separator are connected with the delivery port of the water pump, by the water vapor after supercharging and described point From the air mixing in device, and break the covalent bond of molecule in mixture;Round rotor formula internal combustion engine, the air inlet of the round rotor formula internal combustion engine are connected with the gas outlet of the separator, into institute The expansion work in the round rotor formula internal combustion engine of the mixture in round rotor formula internal combustion engine is stated, promotes the round rotor formula internal combustion The main axis of machine, output torque;Generator, the rotor of the generator are connected with the main shaft of the round rotor formula internal combustion engine, the round rotor formula internal combustion engine Main shaft drive the rotor of the generator to rotate, produce electric energy.
- 2. Hydrodynamic force generating set according to claim 1, it is characterised in that the pressure of the water outlet of the water pump is 5-400 MPas, the water pump includes:Water pump more than one-level,.
- 3. Hydrodynamic force generating set according to claim 2, it is characterised in that also include:Water tank, the water tank Water inlet is connected with the delivery port of the water pump, and the delivery port of the water tank is connected with the water inlet of the separator.
- 4. Hydrodynamic force generating set according to claim 2, it is characterised in that also include:Water rail, the water rail include water Rail body, multiple water inlets and a delivery port are provided with the water rail body;The water tank is multiple, multiple storages Water pot is parallel between the water pump and the water rail, the delivery port of the plurality of water tank and the water rail it is multiple enter The mouth of a river is connected, and the delivery port of the water rail is connected with the water inlet of the separator.
- 5. according to the Hydrodynamic force generating set described in Claims 1-4 any one, it is characterised in that the separator is provided with Heater, the separator are heated by the heater to the water after supercharging, make its vaporization, while the heater Also the air in the separator is heated.
- 6. Hydrodynamic force generating set according to claim 5, it is characterised in that impeller, institute are provided with the separator Separator is stated to be well mixed the water after vaporization with the air in the separator by the rotation of the impeller.
- 7. Hydrodynamic force generating set according to claim 6, it is characterised in that in the separator be pressurized after water with The volume ratio of air is 100:1-50.
- 8. Hydrodynamic force generating set according to claim 7, it is characterised in that also include:Air storage tank, the air The gas outlet of storage tank is connected with the air inlet of the separator, and air is provided to the separator.
- 9. Hydrodynamic force generating set according to claim 1, it is characterised in that in the water pump, separator, described Round rotor formula internal combustion engine and the generator are respectively equipped with sensor, and the sensor detects the water pump, the separation respectively Each item data of device, the round rotor formula internal combustion engine and the generator;Controller is further respectively had in the water pump, the separator, the round rotor formula internal combustion engine and the generator, it is described Water pump, the separator, the round rotor formula internal combustion engine and the generator sensor respectively with the water pump, described separate The controller connection of device, the round rotor formula internal combustion engine and the generator, the controller monitor the water pump, described respectively The running status of separator, the round rotor formula internal combustion engine and the generator.
- 10. Hydrodynamic force generating set according to claim 9, it is characterised in that also include:Master controller, the master control Controller of the device processed respectively with the water pump, the separator, the round rotor formula internal combustion engine and the generator is connected, and is obtained The water pump, the separator, the running status of the round rotor formula internal combustion engine and the generator, output control instruction control The water pump, the separator, startup, stopping and the running status of the round rotor formula internal combustion engine and the generator.
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CN102530217A (en) * | 2011-12-19 | 2012-07-04 | 四川大学 | Fast and efficient water spray propelling technology |
CN104806333A (en) * | 2015-04-30 | 2015-07-29 | 天津大学 | Ship engine waste heat power generation comprehensive utilization method |
JP2016070067A (en) * | 2014-09-26 | 2016-05-09 | 株式会社Gpe | Geothermal power generation system |
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2016
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Publication number | Priority date | Publication date | Assignee | Title |
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JP2001214177A (en) * | 2000-02-03 | 2001-08-07 | Chugoku Mentenance:Kk | Carbonization and recycling system for organic waste and the like in which superheated steam is used |
DE10145115A1 (en) * | 2000-11-30 | 2002-06-13 | Peter Plichta | Process for driving an engine by burning silicon hydride and silicon powder with self-generating silicon nitride lubrication |
US20080127932A1 (en) * | 2006-04-01 | 2008-06-05 | Bailey Rudolph V | Diesel conversion to pneumatic engine zero emissions and fuel cost |
CN102530217A (en) * | 2011-12-19 | 2012-07-04 | 四川大学 | Fast and efficient water spray propelling technology |
JP2016070067A (en) * | 2014-09-26 | 2016-05-09 | 株式会社Gpe | Geothermal power generation system |
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Application publication date: 20180306 |