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In the field of new material preparation, by accurately controlling the reaction temperature, the influence of different temperatures on the microstructure and macroscopic properties of materials can be explored, thereby developing new materials with better performance and more comprehensive functions. For example, in the process of synthesizing high-performance polymers, nanomaterials, etc., the heating and temperature control system of the reaction kettle can ensure that the reaction proceeds at a suitable temperature, thereby improving key performance indicators such as conductivity and stability of the material.

The process of manufacturing catalytic materials that requires a chiller includes cooling process equipment, refrigerant circulation, freeze-drying, and cooling testing equipment. The chiller plays an important role in these processes, as follows:

• Cooling process equipment: In the chemical production process, chillers can be used to cool various process equipment, such as reaction vessels, distillers, dryers, etc. These devices need to be operated at low temperatures to ensure the stability and safety of the process. The chiller provides a stable low-temperature environment to ensure the smooth progress of the process.
• Refrigerant circulation: Various refrigerants are required for cooling and circulation in the chemical production process. A chiller can provide the low-temperature environment required for the refrigerant and control its circulation process to ensure its stability and safety throughout the entire production process.
• Freeze drying: In chemical production processes, freeze drying technology is used to remove moisture from products. The chiller provides the low-temperature environment required for freeze-drying and controls the temperature and humidity of freeze-drying to ensure that the product drying quality meets the requirements.
• Cooling testing equipment: The chiller can also be used to cool various testing equipment, such as temperature testers, pressure testers, etc. These devices need to be tested under specific temperature and pressure conditions to ensure that the quality and performance of the product meet the requirements. The chiller provides a stable temperature environment to ensure the accuracy and reliability of test results.

Specific application cases of chillers in the manufacturing process of catalytic materials include:

• Chemical reaction control: Many chemical reactions carried out at high temperatures may result in excessively fast reaction rates and even trigger side reactions, affecting the purity and yield of the product. The chiller can effectively control the reaction temperature, maintain it within an appropriate range, and ensure the controllability and safety of the reaction.
• Equipment cooling: Reactors, evaporators, condensers, and other equipment generate a large amount of heat during operation. The cooling water provided by the chiller can quickly remove this heat, prevent equipment from overheating, and extend the service life of the equipment.
• Post processing and storage: During the post-processing and storage process of the product, the chiller can provide a precise low-temperature environment to ensure the crystallization quality and purity of the product, and prevent chemicals from deteriorating or degrading during storage.
• The main functions of the chiller in the manufacturing process of catalytic materials include the following aspects:
• Cooling high-temperature gases: Catalytic coolers utilize the action of catalysts to convert and remove harmful substances from high-temperature gases, while reducing the temperature of the gas. Catalysts can accelerate the rate of chemical reactions, enabling gases to complete the cooling and purification process in a shorter period of time.
• Improve production efficiency: Catalytic coolers can quickly and effectively cool high-temperature gases, avoiding damage to production equipment caused by high gas temperatures, thereby improving production efficiency.
• Protecting the environment: Through the treatment of catalytic coolers, harmful substances in high-temperature gases are removed, reducing pollution to the environment and achieving harmonious development between industrial production and environmental protection.
• Energy saving and consumption reducing: Catalytic coolers can not only reduce gas temperature, but also recover some heat for use in other production processes, thereby achieving the goal of energy saving and consumption reducing.
• Точный контроль температуры: Catalytic coolers help reduce waiting time and energy consumption in the production process by precisely controlling the cooling rate and temperature of materials, thereby improving the overall operational efficiency of the production line.
• Stable production environment: An efficient cooling system helps reduce heat accumulation during the production process, lower the ambient temperature, and create a more comfortable working environment for workers.

LNEYA’s material manufacturing process includes multiple series and models of chillers with different temperature control ranges and cooling methods, meeting the needs of users from multiple industries and processes. Fully enclosed system with high temperature drop function, with a minimum precision of ± 0.05 ℃, providing customized solutions and installation support.