CN105201696A - Hydrogen and oxygen mixing combustion-supporting ignition method for fuel-saving pressure alarm type internal combustion device - Google Patents
Hydrogen and oxygen mixing combustion-supporting ignition method for fuel-saving pressure alarm type internal combustion device Download PDFInfo
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Abstract
The invention belongs to the technical field of internal combustion engines, and relates to a hydrogen and oxygen mixing combustion-supporting ignition method for a fuel-saving pressure alarm type internal combustion device. The method comprises the steps that an electrolyte is injected into a reaction cavity, a direct-current power source is connected to a metal bar, and hydrogen and oxygen enter a gas conveying pipe through a first gas outlet, and then enter a gas filter through a first gas inlet; a liquid level adjusting key and a temperature adjusting key on an electronic control system are adjusted, and an alarm pressure value on the electronic control system is adjusted; parameters of the electronic control system are adjusted, and a gas throttle and a fuel nozzle are controlled, so that air and fuel are sprayed out according to a complete combustion ratio, mixed gas is mixed with the sprayed fuel in a gas inlet channel of an air cylinder, pushes a gas inlet valve open and enters a combustion chamber, and after a sparking plug carries out ignition, hydrogen, oxygen, air and fuel in the combustion chamber are evenly ignited in series everywhere. Fuel is completely combusted, the theory is simple, implementation is easy, output power is high, cost is low, and energy conversion environment is friendly.
Description
Technical field:
The invention belongs to technical field of internal combustion engines, relate to a kind of hydrogen-oxygen mixing combustion-assistant ignition method of fuel-economizing pressure alarm formula internal combustion device, particularly utilize the fuel oil in the hydrogen and oxygen gas mixture of ionization combustion-supporting pressure alarm formula internal combustion device and make fuel oil Thorough combustion increase a power, fuel-saving environmental protection also reduces the ignition method of exhaust emissions amount.
Background technique:
At present, conventional oil burning installation is explosive motor, motor is a kind of is the machine of mechanical energy by chemical energy, in fact its conversion process is exactly the process of work cycle, be exactly briefly produce kinetic energy by the liquid fuel in combustion cylinders, drive the reciprocating motion of the pistons in cylinder, drive the connecting rod be connected on piston and the crank be connected with connecting rod thus, reciprocal circular movement is made around crankshaft center, thus outputting rotary power, existing conventional engines is transported in the firing chamber of cylinder by the gas mixture that air and gasoline mix according to a certain percentage, gas mixture after spark plug sparking in piston up-down process mid-point combustion firing chamber, expand after gas mixture burning and promote piston continuation back and forth movement, this traditional firing mode is the fuel oil around the first light up plug of spark plug, the fuel oil of surrounding outwards lighted again successively by the fuel oil lighted, this series connection firing mode can not make fuel oil Thorough combustion, from spark plug more away from the more difficult Thorough combustion of fuel oil, greatly reduce the utilization ratio of power and fuel oil, and combustion process produces a large amount of tail gas, to environment, therefore, seek a kind of hydrogen-oxygen mixing combustion-assistant ignition method designing fuel-economizing pressure alarm formula internal combustion device, make fuel oil Thorough combustion reduce exhaust emissions amount in firing chamber, improve the utilization ratio of power and fuel oil, reach the object of saving the energy and protection of the environment, change series connection firing mode into parallel firing mode.
Summary of the invention:
Goal of the invention of the present invention is the shortcoming overcoming prior art existence; the hydrogen-oxygen mixing combustion-assistant ignition method of a kind of fuel-economizing pressure alarm formula internal combustion device of design is proposed; to solve the problem that the burning of existing oil burning installation internal fuel is insufficient and generation power is little, reach the effect of saving the energy and protection of the environment.
In order to realize foregoing invention object, the hydrogen-oxygen mixing combustion-assistant ignition method of the fuel-economizing pressure alarm formula internal combustion device that the present invention relates to realizes in hydrogen-oxygen mixing combustion-supporting and oil-saving pressure alarm formula internal combustion device, its detailed process comprises the hydrogen or oxygen gas adopting conventional ionization type oxyhydrogen generator to produce and is incorporated in combustion chambers of internal combustion engines, evenly light the hydrogen or oxygen gas being covered with firing chamber and fuel oil while making igniting fuel oil, realize parallel igniting, during use, open the screw plug on liquid filling hole, inject the electrolyte in reaction chamber, make liquid level higher than the liquid level line on oxyhydrogen generator, to screw on screw plug, the both positive and negative polarity of DC electrical source is connected on respectively fuel-economizing formula internal combustion device anode metal rod and cathodic metal rod on, electrolytic solution produces hydrogen and oxygen after reaction chamber Inner electrolysis, hydrogen and oxygen enter pneumatic tube from the first air outlet, pneumatic filter is entered again by the first suction port, enter the second pipe of three-way tube valve from the second air outlet after being sponged part steam by the ethylene glycol solution in pneumatic filter, regulate liquid level adjusting key, the temperature adjusting key in electronic control system, control the induction level value of liquid level sensor and the temperature of thermal insulation layer respectively, regulate the alarm pressure value in electronic control system, when being elevated to setting value because of pipeline blockage build-up of pressure, electronic control system will send reports to the police and auto power off, stops cell reaction, regulate electronic control system parameter to control air throttle and oil nozzle respectively, air and fuel oil are sprayed by complete combusted proportion, air enters the first pipeline from the 3rd pipeline of three-way tube valve through air throttle, mixed gas is merged into the hydrogen flowed into from the 3rd pipeline and oxygen in the first pipeline, mixed gas mixes with the fuel oil of ejection and pushes intake valve open in the gas-entered passageway of cylinder, enter firing chamber, mixed gas fully mixes in firing chamber with fuel oil, by the hydrogen in firing chamber after spark plug sparking, oxygen, air and the parallel of fuel oil uniform throughout are lighted, make fuel oil Thorough combustion simultaneously, the energy realizing fuel oil makes full use of, thus reach fuel-economizing and reduce discharging oily effect, the electrolytic solution that the present invention relates to is the mixed solution of pure water and caustic potoash, and when power-on voltage is 12V and concentration of electrolyte is 5%, the hydrogen and the amount of oxygen that ionize generation in oxyhydrogen generator are maximum, when power-on voltage is 24V and concentration of electrolyte is 2%, the hydrogen and the amount of oxygen that ionize generation in oxyhydrogen generator are best.
Hydrogen-oxygen mixing combustion-supporting and oil-saving pressure alarm formula internal combustion device involved in the present invention, its agent structure comprises oxyhydrogen generator, liquid level line, base plate, anode metal rod, cathodic metal rod, metal electrode board, outer casing upper cover, reaction chamber, liquid filling hole, first air outlet, anode metal rod passing hole, cathodic metal rod passing hole, screw plug, pneumatic filter, first suction port, second air outlet, pneumatic tube, ethylene glycol solution, cylinder, piston, gas-entered passageway, spark plug mouth, filler opening, spark plug, oil nozzle, first port, three-way tube valve, first pipeline, second port, intake valve, second pipe, 3rd pipeline, air conduit, air throttle, firing chamber, electronic control system, liquid level sensor passing hole, liquid level sensor, thermal insulation layer, pressure transducer passing hole and pressure transducer, oxyhydrogen generator adopts the square bodily form transparent shell of the hollow structure of injection molding, on the shell of oxyhydrogen generator, liquid level line is carved with at distance base plate 20 ~ 40mm place, in oxyhydrogen generator inner chamber, both sides base plate is fixed with respectively anode metal rod and the cathodic metal rod of vertical structure, the base plate between anode metal is excellent and cathodic metal is excellent is vertically fixed with the metal electrode board of the identical rectangular configuration platy structure of evenly distributed structure, outer casing upper cover and oxyhydrogen generator are fixed by adhesive adhering and sealing, and the inner chamber of oxyhydrogen generator forms reaction chamber, generate hydrogen and oxygen mixed gas to realize cell reaction, outer casing upper cover has threaded liquid filling hole, first air outlet, anode metal rod passing hole, cathodic metal rod passing hole, liquid level sensor passing hole and pressure transducer passing hole, liquid filling hole is threaded with screw plug, anode metal rod and cathodic metal rod are each passed through anode metal rod passing hole and the excellent passing hole of cathodic metal and exceed the upper surface 10 ~ 20mm of outer casing upper cover, liquid level sensor is through liquid level sensor passing hole, seal between the surface of contact of liquid level sensor external diameter and liquid level sensor passing hole, induction end bottom liquid level sensor is concordant with liquid level line, pressure transducer, through pressure transducer passing hole, seals between the surface of contact of pressure transducer external diameter and pressure transducer passing hole, pneumatic filter is the container of the cylindrical structure of injection molding, the roof of pneumatic filter is provided with the first suction port and the second air outlet, pneumatic tube is communicated with the first air outlet of oxyhydrogen generator and the first suction port of pneumatic filter, in the inner chamber of pneumatic filter, ethylene glycol solution is housed, can effectively absorbs the aqueous vapor entering and be mingled with in the gas of pneumatic filter, cylinder is the cylinder shell with roof that metal or stupalith are made, cylinder is built with piston, piston can try hard to recommend outside dynamic under to-and-fro motion in the cylinder, the roof of cylinder has gas-entered passageway, spark plug mouth and filler opening, filler opening is opened on the upside of gas-entered passageway, spark plug is arranged in spark plug mouth, and oil nozzle is arranged in filler opening, first port of gas-entered passageway is connected on the first pipeline of three-way tube valve, and the second port of gas-entered passageway is provided with intake valve, and intake valve can open or close under external force, the second pipe of three-way tube valve is connected with the second air outlet of pneumatic filter, and the 3rd pipeline of three-way tube valve is connected with air conduit, and the 3rd pipeline of three-way tube valve is provided with air throttle, piston, cylinder, intake valve and spark plug form the firing chamber of seal structure, electronic control system is respectively with liquid level sensor, between thermal insulation layer and pressure transducer, telecommunications ceases and is connected, electrolytic solution liquid level situation of change in Real-Time Monitoring oxyhydrogen generator also sends liquid feeding warning, the temperature of thermal insulation layer is regulated according to the ambient temperature of internal combustion device work, prevent the electrolytic solution in oxyhydrogen generator freezing in the presence of a harsh environment and cell reaction cannot occur, gas pressure size in Real-Time Monitoring oxyhydrogen generator, in order to avoid pipeline blockage causes explosion risk, electronic control system ceases with electromechanical structure telecommunications between air throttle and oil nozzle respectively and is connected, and realizes the air quantity and the fuel injection quantity that control to enter firing chamber, forms fuel-economizing formula internal combustion device and realize Conversion of Energy and Power output.
Compared with prior art, by inputting hydrogen in firing chamber and oxygen mixed gas, fuel oil and gas are fully mixed and homogenous combustion, oil inflame is abundant and utilization ratio is high, the outputting power of aggrandizement apparatus, reduces exhaust emissions amount in the present invention; Can send liquid feeding warning, adjustable reacting liquid temperature, application region is wide; Combustion principle is safe and reliable, and convenient operation realizes, and preparation cost is low, energy-conserving and environment-protective, transformation of energy environmental friendliness.
Accompanying drawing illustrates:
Fig. 1 is overall structure principle schematic of the present invention.
Embodiment:
Below by specific embodiment, also the invention will be further described by reference to the accompanying drawings.
Embodiment:
The hydrogen-oxygen mixing combustion-assistant ignition method of the fuel-economizing pressure alarm formula internal combustion device that the present embodiment relates to, its detailed process comprises the hydrogen or oxygen gas adopting conventional ionization type oxyhydrogen generator to produce and is incorporated in combustion chambers of internal combustion engines, evenly light the hydrogen or oxygen gas being covered with firing chamber and fuel oil while making igniting fuel oil, realize parallel igniting, during use, first open the screw plug 13 on liquid filling hole 9, inject the electrolyte in reaction chamber 8, make liquid level higher than the liquid level line 2 on oxyhydrogen generator 1, to screw on screw plug 13, the both positive and negative polarity of DC electrical source is connected on respectively fuel-economizing formula internal combustion device anode metal rod 4 and cathodic metal rod 5 on, electrolytic solution produces hydrogen and oxygen after reaction chamber 8 Inner electrolysis, hydrogen and oxygen enter pneumatic tube 17 from the first air outlet 16, pneumatic filter 14 is entered again by the first suction port 15, enter the second pipe 31 of three-way tube valve 27 from the second air outlet 16 after being sponged part steam by the ethylene glycol solution 18 in pneumatic filter 14, regulate liquid level adjusting key, the temperature adjusting key in electronic control system 36, control the induction level value of liquid level sensor 38 and the temperature of thermal insulation layer 39 respectively, regulate the alarm pressure value in electronic control system 36, when being elevated to setting value because of pipeline blockage build-up of pressure, electronic control system 36 will send reports to the police and auto power off, stops cell reaction, regulate electronic control system 36 parameter to control air throttle 34 and oil nozzle 25 respectively, air and fuel oil are sprayed by complete combusted proportion, air enters the first pipeline 28 from the 3rd pipeline 31 of three-way tube valve 27 through air throttle 34, mixed gas is merged into the hydrogen flowed into from the 3rd pipeline 31 and oxygen in the first pipeline 28, mixed gas mixes with the fuel oil of ejection and pushes intake valve 30 open in the gas-entered passageway 21 of cylinder 19, enter firing chamber 35, mixed gas fully mixes in firing chamber 35 with fuel oil, by the hydrogen in firing chamber 35 after spark plug 24 sparking, oxygen, air and the parallel of fuel oil uniform throughout are lighted, make fuel oil Thorough combustion simultaneously, the energy realizing fuel oil makes full use of, thus reach fuel-economizing and reduce discharging oily effect.
The electrolytic solution that the present embodiment relates to is the mixed solution of pure water and caustic potoash, and when power-on voltage is 12V and concentration of electrolyte is 5%, the hydrogen and the amount of oxygen that ionize generation in oxyhydrogen generator 1 are maximum; When power-on voltage is 24V and concentration of electrolyte is 2%, the hydrogen and the amount of oxygen that ionize generation in oxyhydrogen generator 1 are best.
Hydrogen-oxygen mixing combustion-supporting and oil-saving pressure alarm formula internal combustion device involved in the present embodiment, its agent structure comprises oxyhydrogen generator 1, liquid level line 2, base plate 3, anode metal rod 4, cathodic metal rod 5, metal electrode board 6, outer casing upper cover 7, reaction chamber 8, liquid filling hole 9, first air outlet 10, anode metal rod passing hole 11, cathodic metal rod passing hole 12, screw plug 13, pneumatic filter 14, first suction port 15, second air outlet 16, pneumatic tube 17, ethylene glycol solution 18, cylinder 19, piston 20, gas-entered passageway 21, spark plug mouth 22, filler opening 23, spark plug 24, oil nozzle 25, first port 26, three-way tube valve 27, first pipeline 28, second port 29, intake valve 30, second pipe 31, 3rd pipeline 32, air conduit 33, air throttle 34, firing chamber 35, electronic control system 36, liquid level sensor passing hole 37, liquid level sensor 38, thermal insulation layer 39, pressure transducer passing hole 40 and pressure transducer 41, oxyhydrogen generator 1 adopts the square bodily form transparent shell of the hollow structure of injection molding, on the shell of oxyhydrogen generator 1, liquid level line 2 is carved with at distance base plate 20 ~ 40mm place, in oxyhydrogen generator 1 inner chamber, both sides base plate 3 is fixed with respectively anode metal rod 4 and the cathodic metal rod 5 of vertical structure, the base plate 3 between anode metal rod 4 and cathodic metal rod 5 is vertically fixed with the metal electrode board 6 of the identical rectangular configuration platy structure of evenly distributed structure, outer casing upper cover 7 and oxyhydrogen generator 1 are fixed by adhesive adhering and sealing, and the inner chamber of oxyhydrogen generator 1 forms reaction chamber 8, generate hydrogen and oxygen mixed gas to realize cell reaction, outer casing upper cover 7 has threaded liquid filling hole 9, first air outlet 10, anode metal rod passing hole 11, cathodic metal rod passing hole 12, liquid level sensor passing hole 37 and pressure transducer passing hole 40, liquid filling hole 9 is threaded with screw plug 13, anode metal rod 4 and cathodic metal rod 5 are each passed through anode metal rod passing hole 11 and cathodic metal rod passing hole 12 and exceed the upper surface 10 ~ 20mm of outer casing upper cover 7, liquid level sensor 38 is through liquid level sensor passing hole 37, seal between the surface of contact of liquid level sensor 38 external diameter and liquid level sensor passing hole 37, induction end bottom liquid level sensor 38 is concordant with liquid level line 2, pressure transducer 41, through pressure transducer passing hole 40, seals between the surface of contact of pressure transducer 41 external diameter and pressure transducer passing hole 40, pneumatic filter 14 is the container of the cylindrical structure of injection molding, the roof of pneumatic filter 14 is provided with the first suction port 15 and the second air outlet 16, pneumatic tube 17 is communicated with the first air outlet 10 of oxyhydrogen generator 1 and the first suction port 15 of pneumatic filter 14, ethylene glycol solution 18 is housed in the inner chamber of pneumatic filter 14, can effectively absorbs the aqueous vapor entering and be mingled with in the gas of pneumatic filter 14, cylinder 19 is the cylinder shell with roof that metal or stupalith are made, cylinder 19 is built with piston 20, piston 20 can try hard to recommend outside dynamic under to-and-fro motion in cylinder 19, the roof of cylinder 19 has gas-entered passageway 21, spark plug mouth 22 and filler opening 23, filler opening 23 is opened on the upside of gas-entered passageway 21, spark plug 24 is arranged in spark plug mouth 22, and oil nozzle 25 is arranged in filler opening 23, first port 26 of gas-entered passageway 21 is connected on the first pipeline 28 of three-way tube valve 27, and the second port 29 of gas-entered passageway 21 is provided with intake valve 30, and intake valve 30 can open or close under external force, the second pipe 31 of three-way tube valve 27 is connected with the second air outlet 16 of pneumatic filter 14, and the 3rd pipeline 32 of three-way tube valve 27 is connected with air conduit 33, and the 3rd pipeline 32 of three-way tube valve 27 is provided with air throttle 34, piston 20, cylinder 19, intake valve 30 and spark plug 24 form the firing chamber 35 of seal structure, electronic control system 36 is respectively with liquid level sensor 38, between thermal insulation layer 39 and pressure transducer 41, telecommunications ceases and is connected, electrolytic solution liquid level situation of change in Real-Time Monitoring oxyhydrogen generator 1 also sends liquid feeding warning, the temperature of thermal insulation layer is regulated according to the ambient temperature of internal combustion device work, prevent the electrolytic solution in oxyhydrogen generator 1 freezing in the presence of a harsh environment and cell reaction cannot occur, gas pressure size in Real-Time Monitoring oxyhydrogen generator 1, in order to avoid pipeline blockage causes explosion risk, electronic control system 36 ceases with electromechanical structure telecommunications between air throttle 34 and oil nozzle 25 respectively and is connected, and realizes the air quantity and the fuel injection quantity that control to enter firing chamber 35, forms fuel-economizing formula internal combustion device and realize Conversion of Energy and Power output.
Claims (2)
1. the hydrogen-oxygen mixing combustion-assistant ignition method of a fuel-economizing pressure alarm formula internal combustion device, it is characterized in that realizing in hydrogen-oxygen mixing combustion-supporting and oil-saving pressure alarm formula internal combustion device, concrete steps comprise: open the screw plug on liquid filling hole, inject the electrolyte in reaction chamber, make liquid level higher than the liquid level line on oxyhydrogen generator, to screw on screw plug, the both positive and negative polarity of DC electrical source is connected on respectively fuel-economizing formula internal combustion device anode metal rod and cathodic metal rod on, electrolytic solution produces hydrogen and oxygen after reaction chamber Inner electrolysis, hydrogen and oxygen enter pneumatic tube from the first air outlet, pneumatic filter is entered again by the first suction port, enter the second pipe of three-way tube valve from the second air outlet after being sponged part steam by the ethylene glycol solution in pneumatic filter, regulate liquid level adjusting key, the temperature adjusting key in electronic control system, control the induction level value of liquid level sensor and the temperature of thermal insulation layer respectively, regulate the alarm pressure value in electronic control system, when being elevated to setting value because of pipeline blockage build-up of pressure, electronic control system will send reports to the police and auto power off, stops cell reaction, regulate electronic control system parameter to control air throttle and oil nozzle respectively, air and fuel oil are sprayed by complete combusted proportion, air enters the first pipeline from the 3rd pipeline of three-way tube valve through air throttle, mixed gas is merged into the hydrogen flowed into from the 3rd pipeline and oxygen in the first pipeline, mixed gas mixes with the fuel oil of ejection and pushes intake valve open in the gas-entered passageway of cylinder, enter firing chamber, mixed gas fully mixes in firing chamber with fuel oil, after spark plug sparking, the hydrogen in firing chamber, oxygen, air and the parallel of fuel oil uniform throughout are lighted, make fuel oil Thorough combustion simultaneously.
2. the hydrogen-oxygen mixing combustion-supporting and oil-saving pressure alarm formula internal combustion device that relates to of the hydrogen-oxygen mixing combustion-assistant ignition method of fuel-economizing pressure alarm formula internal combustion device according to claim 1, it is characterized in that agent structure comprises oxyhydrogen generator, liquid level line, base plate, anode metal rod, cathodic metal rod, metal electrode board, outer casing upper cover, reaction chamber, liquid filling hole, first air outlet, anode metal rod passing hole, cathodic metal rod passing hole, screw plug, pneumatic filter, first suction port, second air outlet, pneumatic tube, ethylene glycol solution, cylinder, piston, gas-entered passageway, spark plug mouth, filler opening, spark plug, oil nozzle, first port, three-way tube valve, first pipeline, second port, intake valve, second pipe, 3rd pipeline, air conduit, air throttle, firing chamber, electronic control system, liquid level sensor passing hole, liquid level sensor, thermal insulation layer, pressure transducer passing hole and pressure transducer, oxyhydrogen generator is the square bodily form transparent shell of hollow structure, on the shell of oxyhydrogen generator, liquid level line is carved with at distance base plate 20 ~ 40mm place, in oxyhydrogen generator inner chamber, both sides base plate is fixed with respectively anode metal rod and the cathodic metal rod of vertical structure, the base plate between anode metal is excellent and cathodic metal is excellent is vertically fixed with the metal electrode board of the identical rectangular configuration platy structure of evenly distributed structure, outer casing upper cover and oxyhydrogen generator are fixed by adhesive adhering and sealing, and the inner chamber of oxyhydrogen generator forms reaction chamber, outer casing upper cover has threaded liquid filling hole, first air outlet, anode metal rod passing hole, cathodic metal rod passing hole, liquid level sensor passing hole and pressure transducer passing hole, liquid filling hole is threaded with screw plug, anode metal rod and cathodic metal rod are each passed through anode metal rod passing hole and the excellent passing hole of cathodic metal and exceed the upper surface 10 ~ 20mm of outer casing upper cover, liquid level sensor is through liquid level sensor passing hole, seal between the surface of contact of liquid level sensor external diameter and liquid level sensor passing hole, induction end bottom liquid level sensor is concordant with liquid level line, pressure transducer, through pressure transducer passing hole, seals between the surface of contact of pressure transducer external diameter and pressure transducer passing hole, pneumatic filter is the container of cylindrical structure, the roof of pneumatic filter is provided with the first suction port and the second air outlet, pneumatic tube is communicated with the first air outlet of oxyhydrogen generator and the first suction port of pneumatic filter, in the inner chamber of pneumatic filter, ethylene glycol solution is housed, cylinder is the cylinder shell with roof, and cylinder is built with piston, and the roof of cylinder has gas-entered passageway, spark plug mouth and filler opening, filler opening is opened on the upside of gas-entered passageway, and spark plug is arranged in spark plug mouth, and oil nozzle is arranged in filler opening, first port of gas-entered passageway is connected on the first pipeline of three-way tube valve, and the second port of gas-entered passageway is provided with intake valve, the second pipe of three-way tube valve is connected with the second air outlet of pneumatic filter, and the 3rd pipeline of three-way tube valve is connected with air conduit, and the 3rd pipeline of three-way tube valve is provided with air throttle, piston, cylinder, intake valve and spark plug form the firing chamber of seal structure, electronic control system is respectively with liquid level sensor, between thermal insulation layer and pressure transducer, telecommunications ceases and is connected, and electronic control system ceases with electromechanical structure telecommunications between air throttle and oil nozzle respectively and is connected.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201510654769.XA CN105201696A (en) | 2015-10-10 | 2015-10-10 | Hydrogen and oxygen mixing combustion-supporting ignition method for fuel-saving pressure alarm type internal combustion device |
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| CN201510654769.XA CN105201696A (en) | 2015-10-10 | 2015-10-10 | Hydrogen and oxygen mixing combustion-supporting ignition method for fuel-saving pressure alarm type internal combustion device |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN106351741A (en) * | 2016-08-30 | 2017-01-25 | 合肥恒信汽车发动机部件制造有限公司 | Engine system with hydrogen for supporting combustion |
| CN107044363A (en) * | 2017-05-17 | 2017-08-15 | 山西晋环净丰能源有限公司 | A kind of automobile oxygen-hydrogen gasoline economizer and its control method |
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Inventor after: Liu Baojun Inventor after: Liu Tianhao Inventor after: Zhang Liyong Inventor after: Li Qinge Inventor before: Liu Baojun Inventor before: Liu Tianhao Inventor before: Zhang Liyong |
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Application publication date: 20151230 |