CN114458939A - High-efficiency hydrogen storage bottle - Google Patents

Abstract

The invention relates to a high-efficiency hydrogen storage bottle, which comprises a hydrogen bottle body, wherein a filtering assembly is detachably arranged on a bottle opening of the hydrogen bottle body, a supporting plate and a plurality of radiating pipes are arranged in the hydrogen bottle body, the radiating pipes are erected on the supporting plate, the adjacent radiating pipes are mutually attached, the pipe walls of the radiating pipes are designed to be hollow structures, and a plurality of grid-shaped hydrogen absorption net radiating pipes made of hydrogen storage alloy are arranged in the radiating pipes at intervals. The invention effectively solves the problems that when the existing hydrogen storage device stores hydrogen, the reaction rate of absorbing and releasing hydrogen is low, the hydrogen storage capacity is small, the stability of hydrogen storage is poor, and the safety and the service life of the hydrogen storage device are influenced because the heat generated by the reaction of the hydrogen and the hydrogen storage material is easy to form local high temperature.

Description

High-efficiency hydrogen storage bottle

Technical Field

The invention belongs to the technical field of hydrogen storage, and relates to a hydrogen storage bottle, in particular to a hydrogen storage bottle capable of efficiently absorbing and releasing hydrogen.

Background

With the progress of human civilization, the demand for energy is continuously increasing, and traditional energy sources such as coal, petroleum, natural gas and other mineral energy sources are non-renewable resources and are easy to cause serious deterioration of ecological environment, such as greenhouse effect, acid rain and the like. Due to energy crisis and environmental protection concerns, countries are researching and developing new alternative energy sources such as solar energy, wind energy, hydrogen energy, nuclear energy, tidal energy, geothermal energy, biomass energy, and the like. Hydrogen energy has many advantages of cleanliness, high efficiency, renewability, etc., and is a new energy source which is generally concerned around the world. One main direction of application of hydrogen energy is hydrogen energy fuel, which has the advantages of long electricity preparation time, high efficiency, environmental protection, small volume, light weight and the like, and shows good application prospect in the fields of transportation (such as vehicles, airplanes, ships and trains) and the like.

At present, in the existing hydrogen storage technology, hydrogen storage alloy powder is often used to reversibly absorb and release a large amount of hydrogen under the action of a certain temperature and pressure, for example, patent CN203500844U discloses a metal hydride hydrogen storage device capable of rapidly absorbing and releasing hydrogen, which comprises a valve, a tank body and an internal filler region, wherein the filler region is filled with granular metal with a porous structure, the metal has thermal conductivity, and the hydrogen storage alloy powder is filled in pores of metal granules or pores among the metal granules to form hydrogen storage microcapsules. However, the existing hydrogen storage device has the following defects in the process of storing hydrogen: 1. the hydrogen storage alloy powder is easy to aggregate or accumulate, and the hydrogen storage alloy powder is locally aggregated in the hydrogen storage device, so that the reaction rate of hydrogen absorption and hydrogen release is reduced, the hydrogen absorption capacity is attenuated, the hydrogen release is not smooth, the storage capacity of hydrogen is reduced, and the stability of the stored hydrogen is poor; 2. the contact area of the accumulated hydrogen storage alloy powder and hydrogen is small, the hydrogen storage alloy powder is unevenly distributed in the hydrogen storage device, so that the hydrogen storage alloy powder is gathered at certain parts in the hydrogen storage device, the gathered hydrogen storage alloy can exert great stress on the hydrogen storage device when absorbing hydrogen and expanding, the hydrogen storage device is subjected to excessive plastic deformation and even breakage, and safety accidents are caused; 3. the heat generated in the hydrogen absorption process is not dissipated in time, so that the local high temperature of the hydrogen storage device is caused, and the use safety and the service life of the hydrogen storage device are influenced.

Disclosure of Invention

The invention aims to provide an efficient hydrogen storage bottle aiming at the defects of the prior art, and the efficient hydrogen storage bottle effectively solves the problems that when the existing hydrogen storage device (hydrogen storage bottle) stores hydrogen, the reaction rate of absorbing and releasing hydrogen is low, the hydrogen storage capacity is small, the stability of hydrogen storage is poor, the heat generated by the reaction of the hydrogen and the hydrogen storage material is easy to form local high temperature, the safety and the service life of the hydrogen storage device are influenced and the like.

The technical scheme adopted by the invention is as follows:

a high-efficiency hydrogen storage bottle comprises a hydrogen bottle body, wherein the hydrogen bottle body is used for storing and releasing hydrogen, a filter assembly is detachably arranged on a bottle mouth of the hydrogen bottle body, and the filter assembly and the bottle mouth of the hydrogen bottle body are connected in a detachable connection mode, so that the filter assembly is convenient to mount and dismount on the bottle mouth, granular impurities adhered to the filter assembly can be cleaned regularly, and the filtering effect and performance of the filter assembly can be effectively guaranteed; the filtering component can effectively filter the hydrogen, and ensure the purity of the hydrogen stored in the hydrogen bottle body. The support plate and the plurality of radiating pipes are arranged inside the hydrogen bottle body, the support plate is perpendicular to the axial direction of the hydrogen bottle body, the radiating pipes are arranged on the support plate in a pipe-erecting mode, and the support and limiting effects of the support plate on the radiating pipes inside the hydrogen bottle body effectively enhance the stability of the radiating pipes in installation inside the hydrogen bottle body; meanwhile, a plurality of radiating pipes are filled in the hydrogen bottle body, the radiating pipes are parallel to the axial direction of the hydrogen bottle body, adjacent radiating pipes are mutually attached, heat transfer is facilitated, the heat transfer efficiency is improved, the pipe walls of the radiating pipes are designed to be hollow structures, hydrogen can conveniently enter the radiating pipes from all directions, a plurality of hydrogen absorption nets made of hydrogen storage alloy are arranged in the radiating pipes at intervals, the hydrogen absorption nets can absorb and store the hydrogen in all directions, the hydrogen absorption nets are arranged at intervals, the contact surface between the hydrogen and the hydrogen storage alloy can be effectively increased, the hydrogen storage efficiency is improved, the hydrogen flows into all the radiating pipes and then is combined with the hydrogen absorption nets, the hydrogen distribution uniformity and the storage capacity are ensured, and the stability of the hydrogen stored in the hydrogen bottle body is enhanced; the hydrogen and the generated heat of the reaction of the hydrogen absorption net can be transmitted to the inner wall of the hydrogen bottle body through the side wall of the radiating pipe, so that the wall surface of the hydrogen bottle body can exchange heat with the heat inside the hydrogen bottle body conveniently, the radiating efficiency of the hydrogen storage process is accelerated, and the temperature inside the hydrogen bottle body is reduced. The hydrogen absorption net is designed to be of a grid structure, so that the contact area of hydrogen and the hydrogen absorption net is effectively increased, the combination of the hydrogen and the hydrogen absorption net is facilitated, the complete reaction of the hydrogen and the hydrogen absorption net is ensured, and the effect of storing the hydrogen is greatly improved.

Furthermore, a graphite layer is coated on the inner wall of the hydrogen bottle body. The graphite layer is used for isolating the contact between the hydrogen absorption net and the inner wall of the hydrogen bottle body, so that hydrogen loss is avoided.

Furthermore, a handle is arranged on the hydrogen bottle body. The hydrogen bottle body is convenient to place and take through the handle, and the hydrogen bottle is simple in structure and convenient to operate.

Furthermore, the filtering component comprises a plurality of filtering nets arranged at intervals, and filtering holes of the plurality of filtering nets are arranged in a staggered mode. Hydrogen passes filtering component, utilizes the crisscross characteristic that distributes of filtration pore of a plurality of filter screens, and the filter screen can be passed in the diversion smoothly to hydrogen, and granule impurity, the dust that contain in the hydrogen effectively intercept, adopts the filtration mode of multilayer formula, and the filter effect preferred reduces inside granule impurity and the dust gets into the hydrogen bottle body, guarantees the inside quality of storing hydrogen of hydrogen bottle body.

Furthermore, the detachable collection disc is arranged on the bottle mouth of the hydrogen bottle body, and the collection disc is attached to the right side of the outermost side filter screen. The collection plate is utilized to collect the particle impurities and dust falling on the filter screen, so that the uniform treatment is facilitated.

Furthermore, the cooling tube comprises several head-to-tail cooling tube units, and the head and tail ends of the cooling tube units are respectively provided with an inserting column and an inserting hole, and the inserting column and the inserting hole are matched. A plurality of radiating pipe units are connected end to form radiating pipes, so that the production process is simplified, and the radiating pipes are convenient to install and disassemble.

Furthermore, the cross section of the radiating pipe unit is designed to be in a hexagonal structure.

Furthermore, a plurality of hexagonal limiting holes are formed in the supporting plate and matched with the radiating pipe units. The radiating pipe units are stably erected on the supporting plate, so that shaking is not easy to occur, and the stability of hydrogen storage and transportation is effectively improved; and, the spacing hole in close contact with of cooling tube unit and backup pad can increase the heat conduction efficiency of cooling tube unit when stabilizing the cooling tube unit again, with this heat conduction to the inner wall of hydrogen bottle body on, be convenient for discharge.

Compared with the prior art, the invention has the beneficial effects that:

1. the hydrogen storage device is simple in structure, safe, efficient and good in stability, and effectively solves the problems that when the existing hydrogen storage device stores hydrogen, the reaction rate of hydrogen absorption and hydrogen release is low, the hydrogen storage capacity is small, the stability of hydrogen storage is poor, and heat generated by the reaction of the hydrogen and the hydrogen storage material is easy to form local high temperature, so that the safety and the service life of the hydrogen storage device are influenced.

2. Filter hydrogen through filtering component for hydrogen can the diversion pass filtering component, and granule impurity and dust that contain in the hydrogen effectively intercept, effectively improve the inside hydrogen purity of hydrogen bottle body.

3. Inside backup pad and a plurality of cooling tube of being equipped with of hydrogen bottle body, the cooling tube support is established in the backup pad and parallels with the axial of hydrogen bottle body, and inside the hydrogen bottle body was filled with to the cooling tube, the lateral wall design of cooling tube was fretwork column structure, and the inside a plurality of latticed hydrogen absorption net that is equipped with of cooling tube. Hydrogen enters the hydrogen bottle body, can flow through each radiating pipe and react with a hydrogen absorption net in the hydrogen bottle body, the hydrogen absorption net absorbs and stores the hydrogen, and the hydrogen absorption net can absorb the hydrogen from multiple directions, so that the contact area of the hydrogen storage material and the hydrogen is effectively increased, and the reaction rate of hydrogen absorption and hydrogen discharge is effectively improved; meanwhile, the heat generated by the reaction of the hydrogen absorption net and the hydrogen is uniformly distributed in the hydrogen bottle body, so that the influence of local high temperature on the use safety and the service life of the hydrogen bottle body is prevented; in addition, the heat can flow to the hydrogen bottle body through the side wall of the radiating pipe unit to avoid heat exchange, and the heat can be quickly transferred out of the hydrogen bottle body to reduce the temperature inside the hydrogen bottle body.

4. The inside a plurality of cooling tubes that are equipped with of hydrogen bottle body, the cooling tube distributes evenly, and the inside of cooling tube is equipped with a plurality of hydrogen nets of inhaling, and the hydrogen of can effective even storage, the quick hydrogen of inhaling of realization hydrogen bottle body, the hydrogen release can guarantee the stability that hydrogen bottle body stored hydrogen moreover, and the storage capacity of hydrogen is stored to the increase hydrogen bottle body.

Drawings

FIG. 1 is a schematic structural view of a hydrogen bottle body according to the present invention;

FIG. 2 is a schematic view of the filter assembly of the present invention;

FIG. 3 is a schematic view of the structure of the support plate of the present invention;

FIG. 4 is a schematic structural diagram of a heat dissipating pipe unit according to the present invention;

fig. 5 is a sectional view of a radiating pipe unit according to the present invention;

FIG. 6 is a schematic structural view of a hydrogen-absorbing net according to the present invention;

FIG. 7 is an enlarged view taken at A in FIG. 6;

FIG. 8 is a schematic structural view of a bottle mouth of a hydrogen bottle body according to the present invention;

in the figure: 1. A hydrogen bottle body; 2. a support plate; 3. a radiating pipe; 4. a filter assembly; 5. a handle; 6. a filter screen; 7. defining an aperture; 8. inserting a column; 9. a jack; 10. a hydrogen absorption net; 11. a bottle mouth; 12. a collection tray; 13. a heat radiation pipe unit.

Detailed Description

In order to better understand the technical content of the invention, specific embodiments are provided below, and the invention is further described with reference to the accompanying drawings.

Referring to fig. 1 to 8, the present invention provides a high efficiency hydrogen storage bottle, which comprises a hydrogen bottle body 1, wherein a handle 5 is arranged on the hydrogen bottle body 1, a graphite layer is coated on the inner wall of the hydrogen bottle body 1, a filter assembly 4 and a collection disc 12 are detachably arranged on a bottle mouth 11 of the hydrogen bottle body 1, the filter assembly 4 comprises a plurality of filter screens 6 arranged at intervals, filter holes of the plurality of filter screens 6 are arranged in a staggered manner (the filter hole of a second filter screen is not aligned with the filter hole of a first filter screen, the filter hole of a third filter screen is not aligned with the filter hole of a second filter screen, and so on), a collection disc 12 is arranged on the edge of the filter screen, the collection disc 12 is detachably mounted on the bottle mouth 11 of the hydrogen bottle body 1, a support plate 2 and a plurality of radiating pipes 3 are arranged inside the hydrogen bottle body 1, a plurality of hexagonal limiting holes 7 are arranged on the support plate 2, the radiating pipes 3 comprise a plurality of radiating pipe units 13, the cross section of the radiating pipe units 13 is designed to be a hexagonal structure, the radiating pipe unit 13 penetrates through the limiting hole 7 of the supporting plate 2 and is erected on the limiting hole 7, the radiating pipe unit 13 is matched with the limiting hole 7, the stability of the radiating pipe unit 13 on the supporting plate 2 can be effectively enhanced, the radiating pipe unit 13 and the supporting plate 2 are both made of materials with good heat conducting performance, the heat conducting performance materials are selected from stainless steel, aluminum, copper, alloy, composite materials or mixtures of the stainless steel, the aluminum, the copper, the alloy and the composite materials, the heat generated by reaction of hydrogen and the hydrogen absorption net 10 can be effectively conducted to the inner wall of the hydrogen bottle body 1, the heat can be discharged conveniently, the temperature inside the hydrogen bottle body 1 is reduced, the service life and the service performance of the hydrogen bottle are prolonged, the heads and the tails of the adjacent radiating pipe units 13 are detachably connected with each other, specifically, the left side and the right side of the radiating pipe unit 13 are respectively provided with the inserting columns 8 and the inserting holes 9, the inserting columns 8 and the inserting holes 9 are matched, namely the heads and the tails of the two radiating pipe units 13 are mutually connected through the matching of the inserting columns 8 and the inserting holes 9, the radiating pipe unit 13 is internally provided with a plurality of grid-shaped hydrogen absorption nets 10, and the hydrogen absorption nets 10 are made of hydrogen storage alloy materials.

The working principle of the invention is as follows:

when storing hydrogen, at first, hydrogen flow through the bottleneck 11 of hydrogen bottle body 1 to pass filter assembly 4, utilize filter screen 6 of filter assembly 4 to filter this hydrogen, make hydrogen changeable to flow and pass a plurality of filter screens 6, and intercept its granule impurity and the dust that contains, can effectively improve the purity of the inside hydrogen of hydrogen bottle body 1.

This hydrogen gets into hydrogen bottle body 1's inside, because backup pad 2 sets up inside hydrogen bottle body 1, cooling tube unit 13 erects in backup pad 2 (cooling tube unit 13 is full of hydrogen bottle body 1 promptly), cooling tube unit 13's lateral wall design is hollow out structure, cooling tube unit 13 is inside to have a plurality of latticed hydrogen net 10 of inhaling, hydrogen can flow and wear into each cooling tube unit 13, this hydrogen combines with the inside hydrogen net 10 of inhaling of cooling tube unit 13, hydrogen net 10 of inhaling absorbs and stores hydrogen, hydrogen and the produced heat conduction of hydrogen net 10 emergence reaction of inhaling are to the inner wall of hydrogen bottle body 1, the wall of hydrogen bottle body 1 of being convenient for carries out the heat exchange rather than inside heat, reduce its inside temperature.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. An efficient hydrogen storage bottle is characterized in that: including the hydrogen bottle body, the dismantlement formula is equipped with filter assembly on the bottleneck of hydrogen bottle body, and its inside backup pad and a plurality of cooling tube that are equipped with to the heat dissipation pipe support in the backup pad, laminate each other between the adjacent cooling tube, and the pipe wall design of cooling tube is hollow out column structure, and the inside interval of cooling tube is equipped with a plurality of latticed hydrogen absorption net by hydrogen storage alloy preparation.

2. The high efficiency hydrogen storage cylinder of claim 1, wherein: and a graphite layer is coated on the inner wall of the hydrogen bottle body.

3. The high efficiency hydrogen storage cylinder of claim 1, wherein: the hydrogen bottle body is provided with a handle.

4. The high efficiency hydrogen storage cylinder of claim 1, wherein: the filter component comprises a plurality of filter screens arranged at intervals, and filter holes of the plurality of filter screens are arranged in a staggered mode.

5. The high efficiency hydrogen storage cylinder of claim 4, wherein: and a collecting disc is arranged on the edge of the hydrogen absorption net and is detachably connected with the bottle mouth of the hydrogen bottle body.

6. The high efficiency hydrogen storage cylinder of claim 1, wherein: the radiating pipe comprises several head-to-tail radiating pipe units, the head and tail both ends of radiating pipe unit are equipped with respectively and insert post and jack, insert post and jack looks adaptation.

7. The high efficiency hydrogen storage cylinder of claim 6, wherein: the cross section of the radiating pipe unit is designed to be of a hexagonal structure.

8. The high efficiency hydrogen storage cylinder of claim 7, wherein: the supporting plate is provided with a plurality of hexagonal limiting holes which are matched with the radiating pipe units.

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