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Research on the preparation process of high-purity magnesium oxide

Hebei Messi Biology Co., Ltd. stated that high-purity magnesium oxide generally refers to magnesium oxide products with a purity greater than 99%. Because high-purity magnesium oxide has excellent physical properties such as ultra-high melting point, good magnetic conductivity and excellent insulation performance, as well as specific chemical properties, it is widely used in ceramics, metallurgy, medicine, electronics, national defense and other fields.

The development and industrialization of high-purity magnesium oxide will greatly promote the development of industries such as electronics, national defense, aerospace and advanced ceramics. China’s ordinary-grade magnesium oxide products have a large output, are exported in large quantities, and the market is weak; while some fine magnesium oxides such as high-purity magnesium oxide, active magnesium oxide, and silicon steel magnesium oxide have a large market demand, and products are imported in large quantities.

Magnesium hydroxide is not just a flame retardant

1 Preparation method of ordinary magnesium oxide

The raw materials for producing magnesium oxide mainly come from liquid ores and solid ores. The former is mainly seawater, underground brine, and salt lake brine; solid ores mainly include magnesite, brucite, dolomite, serpentine and asbestos tailings. The main methods for preparing magnesium oxide from brine or bischofite include lime milk method, ammonium carbonate method, ammonia method, soda ash method, and direct pyrolysis method of bischofite; the main methods for preparing magnesium oxide from solid ore include calcined magnesite method, carbonization method, acid hydrolysis method, ammonium sulfate method, and ammonium sulfate double salt method.

2 Preparation method of high-purity magnesium oxide

The production of high-purity magnesium oxide is generally achieved by adopting the preparation method of ordinary magnesium oxide and performing certain purification processing.

2.1 Brine precipitation method

2.1.1 Brine spray thermal decomposition method

After the brine is concentrated to a certain concentration, it is directly sprayed into the thermal decomposition reactor and thermally decomposed at 800℃~1000℃ to produce crude MgO. The crude MgO is washed with water to remove soluble chloride, and the crude MgO is completely converted into Mg(OH)2, and then calcined at 1600℃~2000℃ to produce high-purity MgO. This method adopts a secondary calcination process with a high calcination temperature, resulting in high production costs. At the same time, the by-product HCl gas in the primary calcination process has serious corrosion on the production equipment.

2.1.2 Dolomite/lime method

Dolomite/lime method is a mature and widely used high-purity magnesium oxide production technology. At present, except for a few manufacturers, nearly 20 major high-purity magnesium oxide manufacturers in the world use dolomite/lime method to produce high-purity magnesium oxide products. The dolomite/lime method is also called lime milk precipitation method, which is to add lime milk to brine containing a certain concentration of MgCl2 to react to generate Mg(OH)2, and then wash, dry and calcine to obtain MgO. This method has high requirements for the activity of Ca(OH)2, and the resulting precipitate is Mg(OH)2, which has small particles and is easy to adsorb impurities, so the product purity is low; at the same time, Mg(OH)2 precipitates as a colloid, which is difficult to filter, the filter cake has a high water content, the drying process has high energy consumption, and the generated CaCl2 has low added value, and serious environmental pollution.

2.1.3 Ammonia precipitation method

Similar to the dolomite/lime method, the ammonia precipitation method mainly produces magnesium oxide by adding alkaline precipitants to the brine to prepare magnesium hydroxide intermediates. The alkaline precipitants used in the ammonia method are liquid ammonia or ammonia gas. The process of producing high-purity magnesium oxide by the ammonia method is as follows: first, the old brine solution is decolorized and refined, and the selected treatment technology is similar to the dolomite/lime method; then liquid ammonia or ammonia gas precipitants are introduced into the refined old brine solution to react to generate magnesium hydroxide intermediates; finally, the magnesium hydroxide intermediates are washed, filtered, and calcined to produce high-purity magnesium oxide products, and the filtrate can be used for by-product ammonium chloride.

2.1.4 Soda ash method

The soda ash method adds soda ash solution precipitants to the brine to first generate heavy magnesium carbonate (MgCO3·3H2O) precipitation, and the heavy magnesium carbonate is washed with water, pyrolyzed, etc. to obtain basic magnesium carbonate, and finally calcined to obtain a light high-purity magnesium oxide product. The soda ash method for producing high-purity magnesium oxide is a traditional production method with simple process, low equipment requirements and high purity of magnesium oxide products. It has a production history of more than 60 years in my country. At present, most medium and small high-purity magnesium oxide production enterprises in my country still use the soda ash method for production.

2.1.5 Ammonium carbonate method

NH4HCO3 is used as a precipitant to react with MgCl2 in brine to generate 4MgCO3·Mg(OH)2·4H2O, which is washed, dried and calcined to obtain MgO. Using this method, the utilization rate of CO2 in NH4HCO3 is low, the production consumes a large amount of NH4HCO3, and the cost is relatively high.

2.2 Solid ore calcination and carbonization method

2.2.1 Magnesite calcination and carbonization method

This method is to calcine magnesite to generate light-burned magnesium oxide, and then digest and carbonize the light-burned magnesium oxide to obtain magnesium bicarbonate solution. Activated carbon is used as an adsorbent to remove iron ions in the magnesium bicarbonate solution. The magnesium bicarbonate solution after adsorption and impurity removal is pyrolyzed again. The basic magnesium carbonate obtained by pyrolysis is filtered, washed, dried, and then calcined to obtain a high-purity magnesium oxide product.

2.2.2 Dolomite calcination and carbonization method

The steps of preparing high-purity magnesium oxide by dolomite calcination and carbonization are basically the same as those of magnesite calcination and carbonization method, mainly including five steps: calcination, digestion, carbonization, pyrolysis and calcination.

2.3 Other preparation methods

In addition to the traditional preparation methods described above, some other preparation methods have emerged in recent years, such as microwave radiation method, metal alcohol salt hydrolysis method, direct precipitation method, uniform precipitation method, gas phase method and sol-gel method.

Summary

Hebei Messi Biology Co., Ltd. stated that with the development of industry, the application scale of high-purity magnesium oxide in traditional fields is expanding, new application fields are also being explored and developed, and the market capacity is expanding. From the development trend, the proportion of high-purity magnesium oxide consumption has increased year by year. However, my country has always lagged behind foreign countries in this field, and has been “stuck” by foreign countries in industrial production technology. Therefore, it is urgent to increase the research and development and industrialization of high-purity magnesium oxide preparation technology.

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