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The raw materials of the stainless steel reactor are generally explosive, corrosive and flammable substances. The production environment is mostly low temperature, high temperature, corrosion, toxic substances and other environments. Material transportation is effectively realized through chemical reactions, and the process operation of the stainless steel reactor has strong continuity.
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In daily life, the reactor is made of stainless steel, but how much do you know? 1. In terms of structure, stainless steel reactors are mainly used for large-scale working conditions such as 15 tons, 21 tons, and 30 tons. For rapid heating, they adopted an external coil structure to introduce hot water, steam and hot oil into the heat transfer medium. The electric heating method of the internal combustion engine is convenient and quick, which can greatly improve the production efficiency and reduce the water and electricity consumption. cost.
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The working process of the stainless steel reactor: In chemical production, the reactor is not only a simple chemical reaction process, but also physical mass transfer processes such as fluid flow, material heat transfer, mass transfer, and mixing.
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Characteristics of reactors for hydrogenation reaction Mixing method:Internal magnetic stirring, there is no leakage of shaft seal and maintenance problems, ensure no leakage of rotating parts, the test is safer
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Attention points of glass reactor in work: glass reactor is a pressure vessel which is widely used in petroleum, chemical industry, pesticide, medicine, food and other industries, and is used to complete vulcanization, nitrification, hydrogenation, alkylation, polymerization, condensation and other technological processes. With the development of science and technology, the development of glass reaction kettle industry is gradually accelerating, with increasing types and functions and wide application.
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Working process of stainless steel reaction kettle:In chemical production, there are not only simple chemical reaction processes, but also physical mass transfer processes such as fluid flow, material heat transfer, mass transfer and mixing.
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