JP2009243459A - Hydrogen circulation type generating set - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a compact hydrogen power generation set can save fuel cost without requiring fossil fuel or the like. <P>SOLUTION: This hydrogen generating set includes a hydrogen ignition device 1 using steel material containing carbon molecular and other chemical compounds for a chip part of an ignition shaft and firing hydrogen by electric ignition, a generator 10 firing hydrogen gas and operating a generating turbine, an auxiliary generator 26 rotating an auxiliary turbine by using heat generated during power generation to generate power, and a hydrogen forming device 15 taking used water solution generated during power generation in, forming hydrogen, and reusing the hydrogen with circulating the same. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

The present invention relates to an ignition device that performs hydrogen power generation, and a method and an apparatus that perform power generation using circulating hydrogen gas.

Conventional power generation devices include devices that use fossil fuel and organic gas, wind power, hydraulic power, and sunlight.

There is no device that generates electricity that self-supplies fuel and does not require fuel consumption.

There is no power generator that uses hydrogen gas that is small and simple and can be moved.

There is no hydrogen generator that has a special ignition device and a self-sufficient hydrogen generator.

It is a big problem to generate electricity without using fossil fuels.

There are various methods of driving the generator, but using hydrogen that does not require fuel consumption is a problem.

The development of an ignition device that ignites hydrogen is an issue.

The present invention comprises the following problem solving means.

That is, the hydrogen ignition device of the present invention is characterized by using a compound in addition to carbon-containing steel material in order to generate an aqueous solution for enabling continuous ignition and generating hydrogen. Item 1)

Further, the hydrogen generator of the present invention is characterized by using a method of igniting and burning hydrogen gas and a self-supplied hydrogen generator. (Claim 2)

A hydrogen generator according to the present invention is a power generator characterized in that the ignition method according to claim 1 and the hydrogen generator according to claim 2 are connected. (Claim 3)

The invention of claim 3 requires supply of hydrogen during the initial operation, but after that, hydrogen can be continuously generated by the hydrogen generator.

Since the apparatus of the present invention does not require the use of fossil fuel, it has the effect of providing the best hydrogen power generation apparatus for the global environment.

Furthermore, since hydrogen as a fuel continues to be generated inside the apparatus, it functions as a highly economical apparatus that does not require fuel.

The hydrogen generator of the present invention is small in shape and can be installed in a mobile vehicle, and can generate a large amount of power by connecting a plurality of such generators.

As a feature of the present invention, a large-scale power transmission system is unnecessary.

Embodiments of the present invention will be described with reference to the drawings.

Hydrogen is sent from the hydrogen tank (25) to the combustion chamber (26), ignited by the ignition device (1), and the generator fan (13) is turned to operate the generator.

Several minutes after the generator 15) is operated, an aqueous solution is generated by the cooling device (27) as the temperature inside the combustion chamber (26) rises.

The aqueous solution generated by the cooling device (27) is sent to the hydrogen generator (20), and at the same time, the auxiliary generator (15) is caused by the difference in expansion between the heat stored in the combustion chamber (26) and the coolant. Operate.

By the operation of the auxiliary generator (28), hydrogen is generated from the aqueous solution that has been initially charged, and the hydrogen is circulated into the combustion chamber (26).

By the operation of the auxiliary generator (28), hydrogen is generated from the aqueous solution that has been initially charged, and the hydrogen is circulated into the combustion chamber (26).

Thereafter, the aqueous solution generated in the combustion chamber (26) is automatically taken into the hydrogen generator (20) to generate hydrogen, which is circulated and used as fuel for power generation.

1 is a schematic conceptual diagram according to an embodiment of the present invention. 1 is a schematic conceptual diagram of an igniter according to an embodiment of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Ignition device 2 Ignition speed sensor 3 Ignition device 4 Outside air intake 5 Check valve 6 Safety valve 7 Outside air inlet 8 Power generation fan 9 Power generation rotation sensor 10 Generator 11 Current / voltmeter 12 Charger 13 Aqueous solution intake tray 14 Filter 15 Hydrogen generator 16 Hydrogen concentration sensor 17 Hydrogen tank 18 Oxygen tank 19 Controller 20 On-off valve 21 Hydrogen inflow sensor 22 Safety valve 23 Hydrogen inlet 24 Combustion chamber 25 Cooler 26 Auxiliary generator 27 Axis of ignition plus 28 Axis of ignition minus 29 Insulation base 30 Current input device

Claims (6)

A hydrogen ignition device that uses steel material containing carbon molecules and other compounds at the tip of the ignition device, and burns hydrogen by electric ignition. A hydrogen generator that uses heat generated during power generation, rotates an auxiliary turbine to generate power, takes a used aqueous solution into a hydrogen generator, generates hydrogen, and recycles it. A hydrogen generator using the hydrogen ignition device according to claim 1 and the hydrogen generator according to claim 2. 4. The hydrogen power generation apparatus according to claim 3, wherein in each device of the present invention, an abnormality is detected by a sensor or the like, and a safety valve or the like of each connector is activated. According to claim 2, a hydrogen power generation apparatus capable of generating power that can save fuel costs without requiring fossil fuel or the like. The hydrogen power generator of the present invention is a hydrogen power generator characterized by a compact power generator that can be used as a power generator that can be mounted on a vehicle or the like.

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