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Method for preparing highly active light-burned magnesia in fixed-bed-fluidized-bed multi-fluid state

A light-burned magnesia and fluidized bed technology, applied in the field of metallurgy, can solve problems such as uneven quality of light-burned magnesia, short residence time, and incomplete decomposition of magnesite

Active Publication Date: 2021-05-18
UNIV OF SCI & TECH LIAONING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The reverberatory kiln can only use high-quality lump ore resources, and a large amount of powder resources are wasted; the energy consumption per ton of products is equivalent to more than 240 kg of standard coal, which is too large; a large amount of dust is emitted during the production process, and the concentration exceeds 200 mg / standard cubic meter. It has serious adverse effects on the environment and ecology; manual operation is used in production, which is labor-intensive and low in automation; the preparation of light-burned magnesia by this method is distributed in a piled state, and a large number of undecomposed raw meal blocks are accompanied by the generated light-burned magnesia. Discharge together, resulting in incomplete decomposition of magnesite, resulting in uneven quality of light-burned magnesia, unstable properties, poor activity, and low added value, which greatly limits the production and application of light-burned magnesia
[0004] The suspension method calcination technology that has appeared in recent years to prepare light-burned magnesia has the characteristics of large transfer area, large comprehensive transfer coefficient, large transfer power, fast calcination speed and high thermal efficiency. The gaseous suspension preheating and pre-decomposition device transplanted is not suitable for the decomposition and calcination of magnesite. Because the residence time of magnesite in the suspension kiln is very short, the heat transfer and reaction time are insufficient, and the material decomposition is not complete. Some magnesite The ore particles are not really decomposed, and the quality of the prepared light-burned magnesia is uneven and stable, so the effect of calcining magnesite by suspension method is not ideal in practical application

Method used

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  • Method for preparing highly active light-burned magnesia in fixed-bed-fluidized-bed multi-fluid state

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Embodiment

[0022] The method for preparing high-activity light-burned magnesium oxide in a fixed bed-fluidized bed multi-fluid state, the specific steps are as follows:

[0023] (1) The magnesite raw material with a particle size of 30-300mm is sent to the fixed bed calcining and decomposition furnace through the electric feeding car 1 of the feeding system. The material enters the preheating zone through the top of the furnace, and in the preheating zone, the magnesite is preheated to 200-700°C by means of the heat of the flue gas going up from the calcination zone, and the material preheated by the preheating zone goes down to the calcination zone, and is burned The chamber is located under the furnace bar, and the fuel is sent into the combustion chamber by the burner. The flame and heat formed by the fuel combustion pass through the furnace bar to roast the magnesite. The roasting temperature is 700-1000°C. The magnesite decomposes to form smaller blocks and powders, and at the same ...

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Abstract

The invention relates to a method for preparing high-activity light-burned magnesia in a fixed bed-fluidized bed multi-fluid state, using magnesite with a particle size of 30-300 mm as raw material, and sending the magnesite to a fixed bed for calcining and decomposition through a feeding system The massive magnesite decomposes into smaller chunks and powders, and 10-80% of the magnesite undergoes a decomposition reaction, which is decomposed in an accumulation state; the material particles from the fixed bed calcining and decomposition furnace are passed through The pipeline is sent to the fluidized bed boiling state decomposition furnace, so that the material particles are in a boiling state, and the undecomposed magnesite can continue to decompose in the process of simmering in the fluidized bed boiling state decomposition furnace. This decomposition reaction is boiling state decomposition; completely The decomposed light-burned magnesia enters the cooling device through the pipeline along with the hot flue gas and is collected from the discharge port after being cooled. The material presents a multi-fluid combination in the whole process. This multi-fluid combination is conducive to the full progress of the decomposition reaction of magnesite, which can ensure that the decomposition rate of magnesite is greater than 99%, and the product quality is uniform and stable.

Description

technical field [0001] The invention relates to the technical field of metallurgy, in particular to a method for preparing high-activity light-burned magnesia in a fixed bed-fluidized bed multi-fluid state. Background technique [0002] Magnesite is one of my country's advantageous mineral resources, with a total reserve of more than 3 billion tons, accounting for a quarter of the world's magnesite reserves and ranking first in the world. Light-burned magnesia produced by calcination of magnesite is the most productive magnesia material. The annual production capacity of light-burned magnesia in my country is over 10 million tons. Light-burned magnesia has excellent alkali resistance and electrical insulation, strong adsorption capacity, high thermal conductivity, and large thermal expansion coefficient. It is widely used in metallurgy, building materials, and national defense. It is also an important industrial raw material. Its downstream products include: High-grade refr...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B2/10
CPCC04B2/102C04B2/106
Inventor 郭玉香李媛徐东辉魏原驰张德航姚焯曲殿利
Owner UNIV OF SCI & TECH LIAONING
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