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Enamel-lined reactor material special for polyaluminium chloride production

An enamel reaction kettle and polyaluminum chloride technology, applied in the chemical industry, can solve the problems of easy corrosion and wear of materials, shortened service life, explosive porcelain, etc., and achieve the goals of improving poor mechanical properties, increasing service life and reducing friction coefficient Effect

Active Publication Date: 2016-12-14
太仓市业洪净水新材料有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

During transportation, hoisting, impact, and sudden temperature changes, it is easy to explode porcelain, and it is difficult to repair. Moreover, under the conditions of high temperature, high pressure and strong acid, the material of the reactor is easy to corrode and wear, and its service life is greatly shortened.

Method used

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  • Enamel-lined reactor material special for polyaluminium chloride production
  • Enamel-lined reactor material special for polyaluminium chloride production

Examples

Experimental program
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Effect test

Embodiment 1

[0030] A preparation method of an enamel reactor material specially used for the production of polyaluminum chloride, the specific steps are:

[0031] (1) Preparation of enamel powder: 3g silicon carbide-acrylonitrile composite, 2g zirconium carbide-acrylonitrile composite, 1g lanthanum oxide-butadiene rubber composite, 4g promethium oxide-butadiene rubber composite, 2g acetonitrile Oxylauramide, 5g aluminum nitride, 5g boron nitride 5, 2g sodium oxide, 2g lithium oxide, 3g potassium oxide, 18g aluminum oxide, 25g silicon dioxide, 10g boron trioxide, 2g tin oxide, 1g of calcium oxide, 2g of zirconia, 2g of barium oxide, 1g of titanium dioxide, 2g of antimony trioxide, 3g of magnesia and 3g of zinc oxide are mixed in a mortar, put into a corundum crucible and heated in a muffle furnace until 500°C, keep warm for 0.5h, then transfer to high temperature box-type resistance furnace, heat up from room temperature to 1100°C with the furnace, keep warm for 1h, then pour the molten en...

Embodiment 2

[0035] A preparation method of an enamel reactor material specially used for the production of polyaluminum chloride, the specific steps are:

[0036] (1) Preparation of enamel powder: 4g titanium carbide-acrylonitrile composite, 1g silicon carbide-acrylonitrile composite, 1g zirconium carbide-acrylonitrile composite, 2g lanthanum oxide-butadiene rubber composite, 3g cerium oxide - Nitrile rubber composite material, 1g antimony tin oxide, 1g ethoxylated stearamide, 6g aluminum nitride, 6g boron nitride, 2g sodium oxide, 3g lithium oxide, 4g potassium oxide, 20g aluminum oxide, Put 25g silicon dioxide, 11g boron trioxide, 2g tin oxide, 1g calcium oxide, 2g zirconium dioxide, 3g barium oxide, 1g titanium dioxide, 3g antimony trioxide, 3g magnesium oxide and 4g zinc oxide into a mortar and mix After uniformity, put it into a corundum crucible, put it into a muffle furnace, heat it to 550°C, and keep it for 0.5h, then transfer it to a high-temperature box-type resistance furnace, ...

Embodiment 3

[0040] A preparation method of an enamel reactor material specially used for the production of polyaluminum chloride, the specific steps are:

[0041] (1) Preparation of enamel powder: 3g silicon carbide-acrylonitrile composite, 2g zirconium carbide-acrylonitrile composite, 2g praseodymium oxide-butadiene rubber composite, 3g neodymium oxide-butadiene rubber composite, 2g Oxylaurylamide, 1g glycerol-stearate, 1g ethoxylated stearylamide, 5g aluminum nitride, 5g boron nitride, 3g sodium oxide, 4g lithium oxide, 5g potassium oxide, 35g dioxygen trioxide Put aluminum, 45g silicon dioxide, 30g boron trioxide, 3g tin oxide, 2g calcium oxide, 3g zirconium dioxide, 3g barium oxide, 2g titanium dioxide, 3g antimony trioxide, 3g magnesium oxide and 4g zinc oxide into a mortar After mixing evenly, put it into a corundum crucible, put it into a muffle furnace, heat it to 600°C, and keep it for 0.5h, then transfer it to a high-temperature box-type resistance furnace, heat it from room tem...

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Abstract

The invention discloses an enamel-lined reactor material special for polyaluminium chloride production. The material is characterized by being prepared from, by weight, 5-6 parts of corrosion inhibitor, 5-6 parts of modified rubber, 2-4 parts of antistatic agent, 5-10 parts of aluminum nitride, 5-10 parts of boron nitride, 2-4 parts of sodium oxide, 2-4 parts of lithium oxide, 3-5 parts of potassium oxide, 18-40 parts of aluminum oxide, 25-48 parts of silicon dioxide, 10-30 parts of diboron trioxide, 2-4 parts of stannic oxide, 1-3 parts of calcium oxide, 2-5 parts of zirconium dioxide, 2-4 parts of barium oxide, 1-3 parts of titanium dioxide, 2-5 parts of antimonous oxide, 3-5 parts of magnesium oxide and 3-6 parts of zinc oxide. The material has the advantages that high corrosion resistance, mechanical property and electric conductivity are realized under high temperature, high pressure and strong acid, and the service life of a reactor is prolonged greatly. The material is applied to enamel-lined reactors for polyaluminium chloride production.

Description

【Technical field】 [0001] The invention relates to the field of chemical industry, in particular to a reaction kettle enamel material specially used for the production of polyaluminum chlorate. 【Background technique】 [0002] The enamel kettle is the abbreviation of the enamel reaction kettle, the enamel distillation kettle and the enamel storage kettle, also known as the glass-lined tank or the glass-lined reaction kettle. Burnt and firmly attached to the metal surface to become a composite product. The enamel kettle has the dual advantages of glass stability and metal strength. The enamel equipment has excellent properties such as acid resistance, alkali resistance, impact resistance and temperature change resistance. It is an excellent corrosion-resistant equipment. Has been widely used in chemical, petroleum, pharmaceutical, pesticide, food and other industries. [0003] Classification of enamel kettles: electric heating enamel kettles and steam heating enamel kettles. ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03C8/04C23D5/02C23D7/00C23D11/00
CPCC03C8/04C23D5/02C23D7/00C23D11/00
Inventor 韩再满
Owner 太仓市业洪净水新材料有限公司
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