KR101577534B1 - Submarine hydrogen system and hydrogen management method using metal fuel - Google Patents

Abstract

A submarine hydrogen system using a metal fuel and a hydrogen management method are disclosed. According to one aspect of the present invention, provided is the submarine hydrogen system using a metal fuel comprising: a metal fuel storage storing a metal fuel inside a submarine; a hydrogen generator generating hydrogen using the metal fuel to supply the hydrogen to a hydrogen consumption device inside the submarine; and a hydrogen storage storing the hydrogen remained after the hydrogen is consumed in the hydrogen consumption device.

Description

TECHNICAL FIELD [0001] The present invention relates to a submarine hydrogen system and a hydrogen management method using metal fuel,

Embodiments of the present invention relate to a submarine hydrogen system and a hydrogen management method using metal fuel. More particularly, the present invention relates to a submarine hydrogen system and a hydrogen management method using metal fuel, The remaining hydrogen consumed is stored in a hydrogen reservoir and is used as a fuel when necessary.

As is well known, in a normal temperature state, the metal reacts with oxygen to form an oxide film, so that no reaction occurs.

However, high purity metals such as aluminum, magnesium, zinc, sodium, etc. can react with acidic / alkaline solutions under certain conditions to generate hydrogen.

However, in order to burn the metal under the above-described conditions, a high-temperature state of about 2000 ° C. is required. However, if the metal is made into a powder having a very small particle size and the contact area is increased, .

Recently, a device for generating hydrogen using a metal fuel has been developed as a fuel for various devices, and such technology has been gaining attention in the field of submarines propelled using hydrogen as a fuel.

A fuel cell system equipped with a hydrogen generator (Korean Patent Laid-Open No. 10-2009-0093044)

In the present invention, hydrogen is generated using a metal fuel in a submarine, and the generated hydrogen is supplied to a hydrogen consuming device. Meanwhile, the remaining extra hydrogen is stored in a hydrogen storage, The submarine hydrogen system used and the hydrogen management method are provided.

The problems to be solved by the present invention are not limited to the above-mentioned problem (s), and another problem (s) not mentioned here will be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a submerged fuel storage system comprising: a metal fuel storage for storing metal fuel in a submarine; A hydrogen generator for generating hydrogen using the metal fuel and supplying the generated hydrogen to the hydrogen consuming device in the submarine; And a hydrogen reservoir for storing the remaining amount of hydrogen consumed in the hydrogen consuming apparatus.

The hydrogen consuming apparatus may be at least one of a fuel cell and a hydrogen engine. For example, the hydrogen consuming device may be a fuel cell or a hydrogen engine, or both a fuel cell and a hydrogen engine.

The hydrogen reservoir is provided to store the remaining amount of hydrogen, and may be provided in the form of one or more of a hydrogen storage alloy and a pressure tank.

The hydrogen reservoir may be provided inside or outside the pressure hull of the submarine.

The hydrogen reservoir may also be configured to supply stored hydrogen to the hydrogen consuming device when the metal fuel stored in the metal fuel reservoir is extinguished.

The hydrogen reservoir may be configured to supply stored hydrogen to the hydrogen consuming device when the amount of hydrogen required by the hydrogen consuming device is greater than the amount of hydrogen generated in the hydrogen generating device.

In addition, if hydrogen is generated through the hydrogen generator after the hydrogen storage in the hydrogen storage is completed, the generated hydrogen may be transferred to the battery and removed.

The battery may be installed inside or outside the pressure hull of the submarine.

According to another aspect of the present invention, there is provided a hydrogen generating method comprising: a hydrogen generating step of generating hydrogen in a hydrogen generator by supplying metal fuel stored in a submarine; A hydrogen consuming step of supplying the generated hydrogen to a hydrogen consuming device in the submarine to consume the consumed hydrogen; And a hydrogen storage step of storing the remaining amount of hydrogen consumed in the hydrogen consuming device in the hydrogen storage.

The method may further include a hydrogen removing step of removing the generated hydrogen from the battery when hydrogen is generated through the hydrogen generator after the completion of storing the hydrogen in the hydrogen storage after the hydrogen storing step.

According to the present invention, hydrogen is generated using a metal fuel in a submarine, the generated hydrogen is supplied to a hydrogen consuming device, and the remaining excess hydrogen consumed is stored in a hydrogen reservoir to be used as a fuel when necessary. If hydrogen is added after the hydrogen storage has been filled, it can be thrown away through the battery.

In addition, according to the present invention, even when the same amount of hydrogen is stored as in the conventional method using the hydrogen storage alloy, there is an advantage in terms of weight saving while there is little difference in performance.

Further, when the amount of hydrogen generated in the hydrogen generator is different from the amount of hydrogen required in the hydrogen consuming device, it is possible to control and supply a predetermined amount of hydrogen.

1 is a conceptual diagram of a hydrogen system of a submarine using metal fuel according to an embodiment of the present invention;
FIG. 2 is a flowchart showing a method for managing hydrogen in a submarine using metal fuel according to an embodiment of the present invention. FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions in the embodiments of the present invention, which may vary depending on the intention of the user, the intention or the custom of the operator. Therefore, the definition should be based on the contents throughout this specification.

Hereinafter, a submarine hydrogen system and a hydrogen management method using metal fuel according to embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a conceptual diagram of a hydrogen system of a submarine using metal fuel according to an embodiment of the present invention.

Referring to FIG. 1, a hydrogen system 100 of a submarine using the metal fuel shown includes a metal fuel reservoir 110, a hydrogen generator 120, and a hydrogen reservoir 140.

The metal fuel storage 110 may be provided to store the metal fuel in the submarine.

Here, the metal fuel refers to a metal such as aluminum, magnesium, zinc, or sodium having high purity and capable of reacting with an acidic / alkaline solution under specific conditions to generate hydrogen.

If the metal fuel is made into a powder having a very small particle size and the contact area is increased, a sufficient amount of hydrogen can be generated even at a high temperature.

The metal fuel reservoir 110 provides a containment space for storing such metal fuel in a submarine.

The hydrogen generator 120 corresponds to a reaction device for generating hydrogen using the metal fuel.

Hydrogen generated through the hydrogen generator 120 may be provided to the hydrogen consuming device 130 in the submarine 1.

Here, the hydrogen consuming device 130 may be a fuel cell or a hydrogen engine. This may be the case for both fuel cells and hydrogen engines.

The hydrogen storage unit 140 may store the remaining amount of hydrogen that is used in the hydrogen consuming apparatus 130 among the hydrogen generated in the hydrogen generating apparatus 120.

For example, the hydrogen reservoir 140 is provided to store the remaining amount of hydrogen, and may be provided in the form of one or more of a hydrogen storage alloy and a pressure tank.

The fuel cell stack 110 and the hydrogen generator 120 may be provided inside or outside the submarine's hull 10, and the location and structure of the fuel cell stack 110 and the hydrogen generator 120 may vary according to various embodiments.

Also, as shown in FIG. 1, the hydrogen storage unit 140 may be provided in multiple units. The hydrogen storage unit 140 may be used as a space for temporarily storing hydrogen.

1, the hydrogen reservoir 140 may be configured outside the pressure vessel 10 of the submarine according to various purposes. Alternatively, the hydrogen reservoir 140 may be configured inside the submarine's pressure vessel 10, It can be done.

The hydrogen reservoir 140 may be configured to supply a required amount of hydrogen to the hydrogen consuming apparatus 130 when the metal fuel stored in the metal fuel reservoir 110 is consumed.

When the amount of hydrogen required in the hydrogen consuming apparatus 130 is greater than the amount of hydrogen generated in the hydrogen generator 120, To supply the required amount of hydrogen in a replenishing manner.

Meanwhile, if hydrogen is continuously generated through the hydrogen generator 120 after the hydrogen storage in the hydrogen reservoir 140 is completed, the hydrogen may be transferred to the battery 150 and removed.

The battery 150 may be disposed inside the pressure hull 10 of the submarine, or may be disposed outside the pressure hull 10 of the submarine according to the purpose.

FIG. 2 is a flowchart briefly showing a method for managing hydrogen of a submarine using metal fuel according to an embodiment of the present invention. Referring to FIG.

Referring to FIG. 2, the method for managing hydrogen of a submarine using the metal fuel includes a hydrogen generation step (S100), a hydrogen consumption step (S200), and a hydrogen storage step (S300).

First, a hydrogen generation step (S100) for generating hydrogen in the hydrogen generator using the metal fuel stored in the submarine may be performed.

Next, a hydrogen consumption step (S200) may be performed in which the generated hydrogen is supplied to the hydrogen consuming apparatus in the submarine and consumed.

Next, a hydrogen storage step (S300) for storing the remaining amount of hydrogen consumed in the hydrogen consuming device in the hydrogen storage can be performed.

In addition, after the hydrogen storing step, the hydrogen removing step (S400) may be further performed.

The step of removing hydrogen (S400) corresponds to the step of sending the generated hydrogen to the battery when the hydrogen is continuously generated through the hydrogen generator even after the hydrogen storage in the hydrogen storage is completed.

As described above, according to the structure and function of the present invention, hydrogen is generated using a metal fuel in a submarine, and the generated hydrogen is supplied to the hydrogen consuming device, while the remaining excess hydrogen is stored in the hydrogen storage It can be used as a fuel if necessary. If hydrogen is added after the hydrogen storage has been filled, it can be thrown away through the battery.

In addition, according to the present invention, even when the same amount of hydrogen is stored as in the conventional method using the hydrogen storage alloy, there is an advantage in terms of weight saving while there is little difference in performance.

Further, when the amount of hydrogen generated in the hydrogen generator is different from the amount of hydrogen required in the hydrogen consuming device, it is possible to control and supply a predetermined amount of hydrogen.

The present invention has been described with reference to the preferred embodiments of the submarine hydrogen system and the hydrogen management method using the metal fuel.

The foregoing embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description. It is intended that all changes and modifications that come within the meaning and range of equivalency of the claims are to be embraced within their scope.

1: Submarine
10: Pressure hull
100: Submarine hydrogen system
110: Metal-fuel storage
120: hydrogen generator
130: hydrogen consumption device
140: hydrogen storage
150: Battery

Claims (10)

A metal fuel store for storing metal fuel within a submarine;
A hydrogen generator for generating hydrogen using the metal fuel and supplying the generated hydrogen to the hydrogen consuming device in the submarine; And
The remaining amount of hydrogen consumed in the hydrogen consuming device is stored,
When the amount of hydrogen required in the hydrogen consuming device is greater than the amount of hydrogen generated in the hydrogen generating device,
And a hydrogen storage for supplying the stored hydrogen to the hydrogen consuming device.
The method according to claim 1,
Wherein the hydrogen-
The hydrogen system of a submarine using metal fuel, which is at least one of a fuel cell and a hydrogen engine.
The method according to claim 1,
Wherein the hydrogen reservoir comprises:
Wherein the hydrogen system is provided to store the remaining amount of hydrogen and is provided in the form of at least one of a hydrogen storage alloy and a pressure tank.
The method according to claim 1,
Wherein the hydrogen reservoir comprises:
The hydrogen system of a submarine using a metal fuel provided inside or outside the pressure hull of the submarine.
The method according to claim 1,
Wherein the hydrogen reservoir comprises:
When the metal fuel stored in the metal fuel storage is destroyed,
A hydrogen system for a submarine using metal fuel for supplying stored hydrogen to the hydrogen consuming device.
delete The method according to claim 1,
Wherein the generated hydrogen is transferred to the battery and removed when hydrogen is generated through the hydrogen generator even after the hydrogen storage in the hydrogen storage is completed.
8. The method of claim 7,
The battery includes:
The hydrogen system of a submarine using a metal fuel provided inside or outside the pressure hull of the submarine.
A hydrogen generating step of supplying hydrogen stored in the submarine to generate hydrogen in the hydrogen generator;
A hydrogen consuming step of supplying the generated hydrogen to a hydrogen consuming device in the submarine to consume the consumed hydrogen; And
And a hydrogen storage step of storing the remaining amount of hydrogen consumed in the hydrogen consuming device in a hydrogen storage,
Wherein the hydrogen reservoir comprises:
When the amount of hydrogen required in the hydrogen consuming device is greater than the amount of hydrogen generated in the hydrogen generating device,
And the stored hydrogen is supplied to the hydrogen consuming device.
10. The method of claim 9,
After the hydrogen storage step,
Further comprising a hydrogen removing step of removing the generated hydrogen from the battery when hydrogen is generated through the hydrogen generator after the hydrogen storage in the hydrogen storage is completed.

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