The invention provides a high pressure liquid hydrogen combustion system, which belongs to the technical field of automobiles. The high pressure liquid hydrogen combustion system comprises an automobile body, an electronic control unit, a wiring harness, a booster fuel tank, an electromagnetic valve, booster injectors and stress sensors, wherein the booster injector is placed on the external side wall of the automobile body; injection openings of the booster injectors face the front end, the rear end and the side wall end of the automobile body, respectively; a first stress sensor is placed on a front cover of the automobile body; a second stress sensor is placed on a rear cover of the automobile body; and a third stress sensor and a fourth stress sensor are placed on the side wall of the automobile body. According to the high pressure liquid hydrogen combustion system provided by the invention, when the electronic control unit monitors a collision at the front part, the rear part or the side wall of the automobile through the stress sensors, the electromagnetic valve is opened through the electronic control unit to ignite the booster injector so that the automobile body suffers an acting force reverse to the collision; therefore, the injury degree of personnel in the automobile is reduced. The high pressure liquid hydrogen combustion system provided by the invention has the advantages of reasonable structure and simple design and is suitable for optimization design of an automobile collision loss reducing system.
High pressure liquid hydrogen combustion system
2015-12-02
Patent
Electronic Resource
English
IPC: | B60R Fahrzeuge, Fahrzeugausstattung oder Fahrzeugteile, soweit nicht anderweitig vorgesehen , VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR |
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|High Pressure Combustion of Liquid Fuels
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|Emission spectra from high-pressure hydrogen-oxygen combustion
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|Updated Kinetic Mechanism for High-Pressure Hydrogen Combustion
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