KR20230140928A - hydrogen Gas filter - Google Patents

Abstract

The present invention relates to a filter that filters foreign substances contained in hydrogen gas. According to a preferred embodiment of the present invention, a hydrogen gas filter that is easy to separate and maintain foreign substances in hydrogen gas has an inlet and an outlet through which hydrogen gas flows in and out. A hydrogen gas filter main body provided with an outlet, communicating with the inlet and outlet, and including a filter space in which the hydrogen gas filter unit is seated, and provided in the hydrogen gas filter space, through which the hydrogen gas penetrates. It includes a fluid separation unit for separating fluid particles contained in the fluid separation unit, and a hydrogen gas filter unit provided inside the fluid separation unit and having a solid separation unit for separating solid particles contained in the hydrogen gas that has passed through the fluid separation unit.

Description

Hydrogen gas filter that separates foreign substances in hydrogen gas and makes it easy to maintain

The present invention relates to a filter, and more specifically, to a filter that filters out foreign substances contained in hydrogen gas.

When charging hydrogen to a hydrogen tank or fuel cell stack, a filter is used to filter out foreign substances contained in the charged hydrogen gas.

That is, the hydrogen system for charging or storing hydrogen gas is equipped with a hydrogen gas filter, which serves to filter out foreign substances in the hydrogen gas flowing into or flowing out of the hydrogen reservoir.

The hydrogen gas filter is usually used as a hydrogen gas filter having a micropore structure of 10㎛ to 50㎛, and filters foreign substances in the hydrogen gas when high-pressure hydrogen gas is charged, preventing foreign substances from entering the charging object.

As the hydrogen gas filter, a filter having a structure in which a plurality of micro holes are machined through the filter body itself made of SUS material or a sintered metal filter bound through metal powder sintering are disclosed.

However, in the case of the above-mentioned filter, the contamination of the filter itself is worsening with continuous use, and the need for management such as replacement or cleaning of the filter is emerging.

In addition, compressed oil may flow into hydrogen gas due to aging and damage to hydrogen charging station equipment, wear of seals, etc., and hydrogen gas containing such compressed oil has the potential to cause serious damage to hydrogen charging objects.

Korean Patent Publication No. 10-2018-0043436 (Receptacle filter for high-pressure hydrogen charging) Korean Patent No. 10-1399413 (Hydrogen storage device equipped with filter member)

Accordingly, the present invention was proposed in consideration of the above-mentioned matters, and the present invention seeks to provide a hydrogen gas filter that can easily separate solid and fluid foreign matter particles contained in hydrogen gas.

Next, the present invention seeks to provide a hydrogen filter that is easy to replace and maintain the hydrogen gas filter.

A hydrogen gas filter that is easy to maintain and separate foreign substances in hydrogen gas according to a preferred embodiment of the present invention is provided with an inlet and an outlet through which hydrogen gas flows in and out, is in communication with the inlet and outlet, and has a hydrogen gas filter unit installed therein. a hydrogen gas filter main body portion including a filter space portion, a fluid separator provided in the hydrogen gas filter space portion and separating fluid particles contained in the hydrogen gas while passing through the hydrogen gas, and an inside of the fluid separator portion. and a hydrogen gas filter unit including a solid separator for separating solid particles contained in the hydrogen gas that has passed through the fluid separator.

Here, the fluid separation unit is made in the form of a mesh made of a fibrous material, and the fluid separation unit fastening part is provided on the outside of the solid separation unit, which is fastened to the inside of the fluid separation unit and fixed and supports upward to prevent the fluid separation unit from flowing down. .

And the fluid separation part is made of temperature-sensitive shape memory fiber.

Next, the fluid particles are oil particles.

In addition, a sensor unit is provided that is inserted into the solid separator and includes an oil detection sensor that determines whether oil particles are included in the hydrogen gas that has passed through the solid separator.

The hydrogen gas filter, which is easy to maintain and separate foreign substances in hydrogen gas according to the present invention, is provided with a fluid separator that separates fluid particles including oil particles from hydrogen gas and a solid separator that separates solid particles from the fluid particles. There is an advantage in that it can be easily maintained and repaired while separating all solid particles.

In addition, the hydrogen gas filter according to the present invention, which is easy to maintain and separate foreign substances in hydrogen gas, has a fluid separator in the form of a mesh made of fiber, and fastens the fluid separator to the solid separator in the opposite direction to the direction of movement of the hydrogen gas to separate the fluid. There is an advantage in that the fluid separation unit can be easily attached and detached while facilitating separation of particles.

Next, the hydrogen gas filter according to the present invention, which is easy to maintain and separate foreign substances in hydrogen gas, has a fluid separation part made of temperature-sensitive shape memory fiber, which shrinks at low temperatures and tightens the mesh gap to facilitate separation of fluid particles. There is an advantage that it expands at high temperatures and can be easily detached from the solid separation unit.

Next, the hydrogen gas filter according to the present invention, which facilitates the separation and maintenance of foreign substances in hydrogen gas, has the advantage of additionally preventing leakage of hydrogen gas containing oil by providing a sensor unit including an oil sensor.

1 is a cross-sectional view of a hydrogen gas filter according to a preferred embodiment of the present invention.
Figure 2 is a cross-sectional view of a hydrogen gas filter portion provided in a hydrogen gas filter according to a preferred embodiment of the present invention.
Figure 3 is a configuration diagram of a hydrogen gas filter unit provided in a hydrogen gas filter according to a preferred embodiment of the present invention.

Before describing embodiments according to the present invention in detail, it is to be noted that the present invention is not limited to the configuration shown in the following detailed description or the accompanying drawings and may be used or performed in various ways.

Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description only and should not be regarded as limiting.

That is, as used in this specification, expressions such as “mounted,” “installed,” “connected,” “connected,” “supported,” and “coupled” do not indicate or limit other things. It is used as a broad expression that includes both direct and indirect mounting, installation, connection, connection, support, and coupling. The expressions “connected,” “connected,” and “coupled” are not limited to physical or mechanical connections, connections, or combinations.

And in this specification, terms indicating directions such as top, bottom, downward, upward, rear, bottom, front, rear, etc. are used to describe the drawings, but for convenience, these terms are used in directions relative to the drawings (normally viewed). It represents (when). These directional terms should not be taken to literally limit or limit the invention in any way.

Additionally, terms such as “first,” “second,” and “third” used in this specification are for descriptive purposes only and should not be considered to indicate relative importance.

Hereinafter, embodiments of the present invention will be described in detail with reference to the attached drawings.

1 is a cross-sectional view of a hydrogen gas filter 10 (hereinafter referred to as “hydrogen gas filter”) that facilitates maintenance and separation of foreign substances in hydrogen gas according to a preferred embodiment of the present invention. The hydrogen gas filter 10 includes a hydrogen gas filter body 100, a hydrogen gas filter 200, and a sensor unit 300.

First, the hydrogen gas filter main body 100 fixedly supports the hydrogen gas filter 10 and includes a hydrogen gas filter unit 200 and a sensor unit 300 on the inside.

And the hydrogen gas filter main body 100 is provided with an inlet 130 and an outlet 140 through which hydrogen gas flows in and out, and is in communication with the inlet 130 and the outlet 140, and has a hydrogen gas filter unit 200. It includes a filter part space part in which is seated.

Therefore, the hydrogen gas flowing into the inlet 130 of the hydrogen gas filter 10 penetrates the hydrogen gas filter unit 200 and then flows out to the outside through the outlet 140 in communication with the inside of the hydrogen gas filter unit 200. .

And the hydrogen gas filter main body 100 includes an installation fixing part 110 and a high-pressure fitting connection part 120 for installing and fixing the hydrogen gas filter 10.

In addition, the hydrogen gas filter main body 100 includes an element fixing part 180 for fixing and supporting the hydrogen gas filter part 200, and the hydrogen gas filter part 200 is attached and detachable from the hydrogen gas filter main part 100. It includes a fastening part 160.

And the hydrogen gas filter main body 100 includes a high-pressure sealing portion 150 that seals the fastening portion 160.

The hydrogen gas filter 10 according to a preferred embodiment of the present invention has the advantage of being able to easily attach and detach the hydrogen gas filter unit 200 through this configuration.

Next, describing the hydrogen gas filter unit 200 provided in the hydrogen gas filter 10 according to a preferred embodiment of the present invention, the hydrogen gas filter unit 200 is a fluid as shown in FIGS. 2 and 3. It includes a separation unit 222 and a solid separation unit 224.

The fluid separation unit 222 is cylindrical and made of a fibrous material with fine gaps formed like a net.

As the fluid particles contained in the hydrogen gas pass through the fine gaps between the meshes, they are caught in the fibrous tissue and separated.

Here, the fluid particles may include various fluid particles, and a representative example is oil particles that may leak due to aging or damage of equipment, wear of seals, etc.

The fiber material forming the fluid separator 222 may be made of various materials, but the most preferred material is a temperature-sensitive shape memory polymer, which expands in volume when the temperature increases and contracts when the temperature decreases among external environmental factors. It is advisable to use it to remain in office.

This is because when extremely low-temperature hydrogen gas passes through, the fibers contract to form a finer gap between the nets, and the contraction separates the oil particles more finely and adheres more closely to the solid separation unit 224, allowing them to be firmly fixed. am.

And as the temperature increases, it expands and can be easily detached from the solid separation unit 224.

The temperature-responsive shape memory polymer is described in “Development of manufacturing technology for fibers and variable fabrics that expand or contract in response to temperature changes (Han-eum Park, Chung-Ang University Graduate School, 2018)”, so a detailed description is omitted.

Next, a solid separation unit 224 is provided inside the fluid separation unit 222 to separate solid particles from the hydrogen gas that has passed through the fluid separation unit 222.

The solid separation unit 224 is preferably made of a hollow cylindrical shape like the fluid separation unit 222 and is made of a multi-layered metal sintered filter.

As shown in FIG. 3, the fluid separation unit 222 is fastened to the fluid separation unit fastening unit 226 erected upwardly outside the solid separation unit 224.

This means that the fluid separation unit 222 is made up of a mesh shape that is not fixed in shape, so when hydrogen gas is introduced, it can flow downward according to the flow pressure of the hydrogen gas flowing from the upper direction to the lower direction. Because it can be prevented.

Next, describing the sensor unit 300 provided in the hydrogen gas filter 10 according to a preferred embodiment of the present invention, the sensor unit is provided at the lower part of the hydrogen gas filter main body 100 as shown in FIG. 1. It includes a detection sensor that is inserted into the solid separation unit 224 and determines whether the hydrogen gas passing through the solid separation unit 224 contains fluid particles.

The detection sensor is preferably an oil sensor that senses oil, and the oil sensor includes an oil detection part 320 that is inserted into the sensor body part 310 and the solid separation part 224 and senses oil.

The sensor unit 300 provided in the hydrogen gas filter 10 according to a preferred embodiment of the present invention further includes a transmission module that transmits the sensed information to the outside.

The hydrogen gas filter 10 according to a preferred embodiment of the present invention has the effect of additionally blocking the inflow of hydrogen gas into the charging object due to residual oil contained in the hydrogen gas through such a sensor unit.

Although the preferred embodiments of the present invention have been described above, various changes, modifications, and equivalents may be used in the present invention. It is clear that the present invention can be equally applied by appropriately modifying the above embodiment. Accordingly, the above description does not limit the scope of the present invention, which is defined by the limitations of the claims below.

100: Hydrogen gas filter main body 130: Inlet 140: Outlet
200: Hydrogen gas filter unit 222: Fluid separation unit 224: Solid separation unit
226: Fluid separation part fastening part 300: Sensor part

Claims (5)

It is provided with an inlet 130 and an outlet 140 through which hydrogen gas flows in and out, and is in communication with the inlet 130 and the outlet 140, and includes a filter space part in which the hydrogen gas filter part 200 is seated. Hydrogen gas filter main body 100;
A fluid separator 222 provided in the hydrogen gas filter space and separating fluid particles contained in the hydrogen gas while passing through the hydrogen gas, and provided inside the fluid separator 222 and the fluid separator ( A hydrogen gas filter that is easy to maintain and separate foreign substances in hydrogen gas, including a hydrogen gas filter unit (200) including a solid separation unit (224) that separates solid particles contained in hydrogen gas that has passed through (222). According to clause 1,
The fluid separation unit 222 is made in the form of a mesh made of a fibrous material, and is fastened to the inside of the fluid separation unit 222 on the outside of the solid separation unit 224 to prevent the fluid separation unit 222 from flowing down. A hydrogen gas filter that is equipped with a fluid separation part fastening part 226 that is fixed and supported in an upward direction and is easy to maintain and separate foreign substances in hydrogen gas. According to clause 1,
The fluid separation unit 222 is a hydrogen gas filter that is made of temperature-sensitive shape memory fiber and is easy to maintain and separate foreign substances in hydrogen gas. According to clause 1,
A hydrogen gas filter that separates foreign substances in hydrogen gas and is easy to maintain, wherein the fluid particles are oil particles. According to clause 4,
A sensor unit 300 inserted into the solid separation unit 224 and including an oil detection sensor that determines whether oil particles are included in the hydrogen gas passing through the solid separation unit 224. Hydrogen gas provided with a. Hydrogen gas filter that separates foreign substances and is easy to maintain.

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