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Preparation device for graphene-doped hydrogen storage material

A hydrogen storage material, graphene technology, applied in graphene, hydrogen, inorganic chemistry and other directions, can solve the problem that the electrical conductivity of the product cannot exert the maximum effect, the volume of flake graphite cannot be decomposed, and the hydrogen cannot be efficiently absorbed, etc. Achieve the effect of avoiding the decrease of hydrogen permeability, high hydrogen storage effect, and preventing the agglomeration of raw materials

Active Publication Date: 2019-09-27
GUIZHOU UNIV OF ENG SCI
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Problems solved by technology

[0004] Aiming at the deficiencies in the prior art, the purpose of the present invention is to provide a graphene-doped hydrogen storage material preparation device to solve the problem that the prior art preparation device cannot decompose the flake graphite volume when storing hydrogen. As a result, hydrogen cannot be efficiently absorbed into the interior during the preparation process, and the electrical conductivity of the finished product cannot exert its maximum effect, and the absorption time is relatively longer than that of the decomposed flake graphite, which needs to be optimized.

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  • Preparation device for graphene-doped hydrogen storage material
  • Preparation device for graphene-doped hydrogen storage material
  • Preparation device for graphene-doped hydrogen storage material

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Embodiment

[0029] see Figure 1-Figure 7 , the present invention provides a graphene-doped hydrogen storage material preparation device, its structure includes a controller H1, a heat sink H2, a fixed foot H3, a holding platform H4, a preparation port H5, a preparation tank H6, The control host H7 and the doping tank H8, the bottom of the doping tank H8 is installed on the top of the preparation tank H6 by embedding, the preparation tank H6 is fastened and connected with the middle part of the control host H7, and the fixed foot H3 is provided with Two, and installed on the bottom of the control host H7 by embedding, the heat sink H2 is located on the right side of the control host H7, and is an integrated structure, the preparation port H5 is installed on the bottom of the preparation tank H6 by fitting, The bottom of the controller H1 runs through the top of the control host H7. The doping tank H8 introduces the graphene raw material into the production tank H6 for hydrogen doping. The...

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Abstract

The invention discloses a preparation device for a graphene-doped hydrogen storage material; the structure of the device comprises a controller, a heat dissipation groove, fixed foot margins, a material holding table, a preparation port, a preparation tank, a control main engine, and a doping tank. Graphene raw materials in the doping tank uniformly pass through a material scraping groove when entering; the material scraping groove and a discharge ring are fixedly arranged; the raw materials are guided to an area in which the discharge ring and a grinding embedded ring are matched for pulverization treatment through poking blocks when a grinding mechanism rotates, and then enter a dispersion component for dispersed blanking; the decrease of hydrogen permeability caused by stacked blanking can be avoided; a gas compression mechanism can generate gas to pneumatically control the dispersion component under the driving of a built-in drive shaft; the clogging of the graphene raw materials is avoided; high-precision pulverization can be performed on flake graphite after the whole use; the raw materials are effectively prevented from agglomerating in the blanking process; a state of powdery falling is formed; the permeability of hydrogen doping is greatly improved; the hydrogen storage effect is higher.

Description

technical field [0001] The invention relates to the field of graphene preparation devices, in particular to a preparation device for graphene-doped hydrogen storage materials. Background technique [0002] In order to improve the conductivity, graphene will be used as a hydrogen storage material, so as to achieve an efficiency-enhancing material for conductivity. The hydrogen storage methods are mainly divided into gaseous hydrogen storage, solid hydrogen storage, and liquid hydrogen storage. The most widely used in the market is solid storage. Hydrogen is stored in solid materials such as graphene through the physical adsorption of hydrogen by solid materials such as graphene, or in conjunction with chemical reactions, and is doped into graphene in the production device for processing. There are such problems in the prior art in use: [0003] The production device of the current technology cannot decompose the volume of graphite flakes during hydrogen storage, resulting in...

Claims

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Application Information

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IPC IPC(8): C01B3/00C01B32/184
CPCC01B3/0021C01B32/184Y02E60/32
Inventor 杨敏建朱学琴姚新卯张顺科
Owner GUIZHOU UNIV OF ENG SCI
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