High Pressure Chemical Reactor

High pressure chemical reactor is a device specially designed for chemical reaction under high pressure and high temperature. It usually consists of a solid metal container, which can withstand high pressure and high temperature.

The reactors uses high pressure and high temperature conditions to promote chemical reaction.

• Increase of reaction rate: According to the empirical law of reaction rate constant, the reaction rate will increase with the increase of temperature. In a high-pressure chemical reactor, by providing high-temperature conditions, the intermolecular energy and kinetics of reactants can be significantly increased, thus increasing the collision frequency and reaction rate. This is especially important for some slow reactions or reactions that require high conversion.
• Reaction equilibrium movement: According to Le Chatelier principle, when the system is in dynamic equilibrium, changing temperature or pressure can affect the reaction direction. In a high-pressure chemical reactor, the balance between reactants and products can be changed by providing high-pressure conditions. 
• Promote solid-state reaction: High-pressure chemical reactor can not only provide high-temperature conditions, but also apply high-pressure conditions to promote solid-state reaction. Under high pressure, solid reactants are easier to dissolve, the distance between molecules is closer and the reaction rate is higher. In addition, high pressure can also change the lattice structure and increase lattice defects, thus promoting the solid-state reaction.
• Changing the properties of reaction products: In a high-pressure chemical reactor, the selectivity and properties of reaction products can be changed by controlling the temperature and pressure conditions.

We provide High pressure chemical reactor, please refer to the following website for detailed specifications and product information.

Product: https://www.achievechem.com/chemical-equipment/high-pressure-chemical-reactor.html

CJF Series High Pressure Stirred Autoclave/Reactor

• No lifting device;
• Meet safety standard;
• Ceramic liner or PTFE liner (optional);
• Bottom drain valve is available (optional);
• Material cooling and magnetic stirrer cooling are standard configuration;
• We can add safety valve, drain valve and receiver;
• Big capacity can be customized as your demands;
• Customized configuration is available.

● High-pressure and high-temperature conditions: The high pressure chemical reactors can provide high-pressure conditions up to hundreds or even thousands of times of atmospheric pressure, as well as high-temperature conditions. 

● Multifunctional: High-pressure reactors are usually designed as multifunctional devices, which can adapt to different types of reaction requirements. They can carry out heterogeneous reactions, gas-liquid phase reactions, solid-liquid phase reactions and other reaction types, and can be used in conjunction with different types of catalysts and reactants. This versatility makes high-pressure chemical reactors widely applicable in research and application in different fields.

● Safety and reliability: Chemical reactors are usually equipped with a variety of safety devices, such as over-voltage protection, over-temperature protection and emergency discharge devices. These safety devices can provide additional safety protection and ensure the safety of operators and equipment. In addition, the structure and material selection of the high-pressure chemical reactor have been strictly designed and tested to ensure its reliability and durability under high pressure and high temperature conditions.

● Reproducibility of experimental results: The lab chemical reactor can provide a highly controlled experimental environment and can repeat and reproduce specific reaction conditions. This is very important for scientific research and process development, because it can ensure the reliability and repeatability of experimental results and help researchers verify and verify their theoretical assumptions.

● Safety performance improvement
High-pressure chemical reactors are increasingly designed with an emphasis on safety performance enhancement. For example, the safety risks of reactors at high pressure can be effectively reduced by optimizing the structure and material selection of the reactors, as well as introducing advanced monitoring and control systems.
For some specific high-risk chemical reactions, such as the synthesis of high-pressure polyethylene (Ref. Article 4), researchers are committed to exploring the reaction mechanisms, initiation systems and models in order to propose solution ideas and development directions for intrinsically safe production.

● Green Chemistry Trend
With the increasing awareness of environmental protection, high-pressure chemical reactors are increasingly focusing on the principles of green chemistry in their design and application. By optimizing the reaction conditions, reducing the generation of by-products, and improving the reaction efficiency and selectivity, a more environmentally friendly and sustainable chemical process can be achieved.

● Future Development Trends
With the continuous emergence of new materials, new energy and new technologies, high-pressure chemical reactors will play a more important role in the field of chemistry. For example, in the field of new energy, high-pressure chemical reactor can be used to prepare high energy density energy storage materials; in the field of materials science, high-pressure chemical reactor can be used to synthesize new materials with special structure and properties.
Meanwhile, with the continuous development of artificial intelligence, big data and other technologies, the design and optimization of high-pressure chemical reactors will rely more on computer simulation and data analysis and other technical means to achieve more accurate and efficient design and optimization.

High pressure chemical reactors are often used in chemical reactions such as hydrogenation, which is a method to convert oil into stearic acid and glycerol. Unsaturated double bonds in oils and fats are reduced to single bonds by high-pressure hydrogenation, thus obtaining stable stearic acid and glycerol.

Stearic acid is widely used in cosmetics, plastic plasticizer, release agent, stabilizer, surfactant, rubber vulcanization accelerator, waterproof agent, polishing agent, metal soap, metal mineral flotation agent, softener, medicine and other organic chemicals.

In the cosmetics industry, stearic acid is used to produce shampoo, soap, skin care products, etc., which can increase the lubrication and gloss of products. In the plastic industry, stearic acid, as a stabilizer and lubricant, can improve the quality and performance of products. In addition, stearic acid can also be used to produce surfactants, rubber vulcanization accelerators, waterproofing agents, polishing agents and so on.

Glycerol is widely used in cosmetics, food, medicines and other fields. In cosmetics, glycerol is used as humectant and solvent, which can improve the moisturizing effect of products. In food industry, glycerol is used as food additive, usually as sweetener and humectant. In the field of pharmaceuticals, glycerol is used as a solvent for pharmaceutical preparations, which can help drugs to dissolve and release better. In addition, glycerol can also be used to produce surfactants, plastic plasticizers and so on.

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