Precautions for using titanium reactor

1. The refrigerant inlet pipe valve must be closed before use;
2. Start the mixer, then input the material, and then open the steam valve and electric heating power supply;
3. When the required temperature is reached, the steam valve and electric heating power supply should be closed first, and after 2 to 3 minutes, the agitator should be turned off;
4. After the end of processing, after draining the remaining condensate in the titanium reactor pot and jacket, it should be washed with warm water as soon as possible, and then comprehensively cleaned with 40~500C alkali water in the inner wall of the container to achieve the purpose of durability. In the case of no material (heat absorbing medium) in the special pot, the steam valve and the electric heating power supply shall not be opened;
5. Pay special attention to the use of steam pressure, which shall not exceed the fixed working pressure.
The impact of corrosion on titanium acid
Titanium reactor has excellent corrosion resistance to acids, including organic acids, inorganic acids, oxidized acidic materials. In the process of practical consumption will also be affected by the reaction speed, chemical grade and so on. But remind everyone that hydrofluoric acid has a strong corrosive effect on titanium reactor, and strong concentration of phosphoric acid also has a strong corrosive effect on reactor. When the concentration of phosphoric acid reaches 95%, the maximum operating temperature is 95 degrees Celsius.

Alkali
The corrosion of alkaline materials to titanium reactor is greater than that of acidic materials. As the concentration increases, the corrosion will also increase. Temperature also has an effect on corrosion, with corrosion rates doubling for every 10 degrees Celsius increase in temperature. Therefore, when using hot alkali, it must be carefully operated.

Water
Water is also slightly corrosive to titanium reactors. Under normal conditions, the kettle has a strong corrosion resistance to water. At low temperatures, water will form condensate, and the condensate will synthesize alkaline ions, so that the container will form a slightly acidic material. In such cases, we usually recommend the use of headless containers to reduce the acid content.

At present, the market titanium reactor can be mainly divided into three categories: pure titanium reactor, composite titanium reactor, and titanium lined reactor, which are used in different process environments. Among them, the composite titanium reactor is widely used because of its superior performance and lower price than the pure titanium reactor.