A kind of preparation method of graphene hydrogen-rich ceramic ball

A graphene, ceramic ball technology, applied in chemical instruments and methods, water/sludge/sewage treatment, water/sewage treatment, etc., can solve the problems of heavy metal production, high economic cost, increase, etc., and achieve nutritional mineral content. Increase and decrease ORP value, the effect of high hydrogen content

Active Publication Date: 2021-09-21
山东鑫永恒新材料有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

3. Use the electrolysis method to produce hydrogen-rich water. The electrodes of this method are very critical. Inferior electrodes are easily oxidized and the content of heavy metals in the water increases due to electrolysis; and hot water cannot be used. Long-term electrolysis may cause the metal ions in the water to gather and become Simple substance, heavy metals will be produced in water; in addition, the cost of electrodes used in electrolysis of rich hydrogen is high, and the economic cost is high

Method used

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  • A kind of preparation method of graphene hydrogen-rich ceramic ball
  • A kind of preparation method of graphene hydrogen-rich ceramic ball
  • A kind of preparation method of graphene hydrogen-rich ceramic ball

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Experimental program
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Effect test

Embodiment 1

[0029] A preparation method of graphene hydrogen-rich ceramic balls, comprising the following steps:

[0030] (1) In parts by weight, take 3 parts of platinum, 4 parts of iron, 3 parts of zinc, 4 parts of magnesium, 3 parts of silicon, mix with 1 part of graphene and 12 parts of alcohol, grind into a slurry in a pressure tank, The pressure in the pressure tank is 500kpa;

[0031] (2) Spray and granulate the slurry of step (1) in a spray granulation tower to make micron-scale micro-battery material;

[0032] (3) Add deionized water to the product of step (2) for molding treatment. The amount of deionized water can be flexibly increased or decreased here, generally adding 10 parts by weight to ensure better molding;

[0033] (4) Dry the product formed in step (3) at 400°C for 2.5 hours to dryness, then sinter at 800°C for a certain period of 2 hours, then drop to room temperature, then coat with one millimeter of nano-scale silicon powder, and heat it at 1150°C for two hours. ...

Embodiment 2

[0038] A preparation method of graphene hydrogen-rich ceramic balls, comprising the following steps:

[0039] (1) In parts by weight, take 1 part of platinum, 1 part of iron, 1 part of zinc, 1 part of magnesium, 1 part of silicon, mix with 1 part of graphene and 10 parts of alcohol, and grind it into a slurry in a pressure tank, The pressure in the pressure tank is 500kpa;

[0040] (2) Spray and granulate the slurry of step (1) in a spray granulation tower to make micron-scale micro-battery material;

[0041] (3) Add electrolyte to the micro-battery material of step (2), stir and mix in a mixer; wherein the electrolyte is calculated in parts by weight: 2 parts of sodium chloride, 2 parts of ammonium chloride;

[0042] (4) Add deionized water to the product mixed in step (3) for molding treatment. The amount of deionized water added here can be flexibly increased or decreased. Generally, 10 parts by weight is added to ensure better molding;

[0043] (5) Dry the product formed...

Embodiment 3

[0048] A preparation method of graphene hydrogen-rich ceramic balls, comprising the following steps:

[0049] (1) In parts by weight, take 4 parts of platinum, 3 parts of iron, 4 parts of zinc, 2 parts of magnesium, 3 parts of silicon, mix with 1 part of graphene and 14 parts of alcohol, grind into a slurry in a pressure tank, The pressure in the pressure tank is 500kpa;

[0050] (2) Spray and granulate the slurry of step (1) in a spray granulation tower to make micron-scale micro-battery material;

[0051](3) Add electrolyte to the micro-battery material of step (2), stir and mix in a mixer; wherein the electrolyte is calculated in parts by weight: 6 parts of sodium chloride, 5 parts of ammonium chloride, 30 parts of medical stone 25 parts of tourmaline, 30 parts of sepiolite, 7 parts of zeolite, 7 parts of albite, 7 parts of lithium feldspar, 7 parts of volcanic rock;

[0052] (4) Add deionized water to the product mixed in step (3) for molding treatment. The amount of dei...

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Abstract

The invention relates to a preparation method of graphene hydrogen-rich ceramic balls. The preparation method includes: (1) mixing the electrode material with graphene and alcohol, and grinding it into a slurry in a pressure tank; (2) spraying and granulating the slurry in step (1) to make a micron-sized micro-battery material; ( 3) Add electrolyte to the micro-battery material in step (2), stir and mix in a mixer; (4) add deionized water to the product mixed in step (3) for molding treatment; (5) (4) The molded product is dried at low temperature, then sintered once and kept warm for a certain period of time, then lowered to room temperature, then coated with nano-scale silicon powder, sintered for the second time and kept warm for a certain period of time, and the finished product is obtained. The hydrogen content of the hydrogen-rich water prepared by this preparation method can reach 1300ppb, and the water can be made into weakly alkaline water, and the ORP value of the water can be reduced to produce negative potential water. The hydrogen-rich water can be poured into hot water or soaked Tea is safe and healthy to drink.

Description

technical field [0001] The invention relates to a preparation method of graphene hydrogen-rich ceramic balls. Background technique [0002] Hydrogen-rich water is also called hydrogen-rich water, because "hydrogen" in Japanese means "hydrogen", so some people call it "hydrogen water", and it is also called hydrogen-rich water in China. Hydrogen-rich water is scientifically certified healthy drinking water. There are different methods for preparing hydrogen-rich water on the market: 1. Use a hydrogen water stick, use magnesium and water to react to generate hydrogen, put the hydrogen water stick into a container filled with drinking water, and generate small bubbles of hydrogen gas around the hydrogen water stick. This method works slightly better with a hydrogen water stick in an airtight container. Hydrogen gas can easily escape from water if used in an open container. In addition, magnesium particles are easily oxidized, and as the number of uses increases, the effect d...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C02F1/461C02F1/68C04B35/16C04B41/85C22C30/06C22C32/00C22C29/00
CPCC02F1/46109C02F1/46176C02F1/4618C02F1/68C02F2001/46133C02F2001/46152C02F2001/46185C04B35/16C04B41/009C04B41/5096C04B41/85C04B2235/3463C04B2235/3472C04B2235/349C04B2235/40C04B2235/401C04B2235/405C04B2235/408C04B2235/425C04B2235/428C04B2235/444C22C29/00C22C30/06C22C32/0089C04B41/4545
Inventor 王鑫利
Owner 山东鑫永恒新材料有限公司
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