Type |
Structure Type |
Design temperature |
Stirring speed |
Heating power |
Discharging type |
Mixing style |
Contact material |
Controller |
GSH100AEAHDW001 |
Open type |
-196 °C~400°C |
0~1000 |
15 KW |
Bottom |
Anchor |
hastelloy |
PID |
Volume |
Design pressure |
Motor |
Motor power |
Heating type |
Mixer shaft |
Seal type |
Kettle lid open port |
Other accessories |
100 L |
Negative pressure~20 |
AC motor |
1.5 KW |
Electric |
Self-lubricating wear-resistance sleeve made of stainless steel |
Magnetic seal |
Burst disc(safety valve ) port |
n/a |
The 100L complete set of reaction kettle is used to synthesize the precursor, mainly through the complexation and co-precipitation reaction of salt solution, alkali solution, and ammonia solution through the metering pump according to a certain ratio. During the whole process, the reacted slurry will overflow from the reactor, and then go through a series of processes of filtering, washing, filtering, and drying, and finally produce the finished precursor material.
A precursor is a form of existence before obtaining the target product, most of which exist in the form of organic-inorganic complexes or mixtures, and some exist in the form of sols. The term precursor is often used in material preparation methods such as the sol-gel method and co-precipitation method, but it is not an exact scientific term and has no specific concept.
The reactor shown here is mainly used for the preparation of lithium oxalate borate as an additive for lithium-ion battery electrolytes.