New energy/new material membrane separation technology
Inorganic ceramic membranes have the advantages of high separation accuracy, good wear resistance, and stable operation. They can replace traditional separation technologies such as plate frame and high-speed centrifugation, and achieve separation and purification of materials such as solar energy, lithium batteries, graphene, and nanoscale ultrafine powders (wet chemical method).
New energy battery
Shengchuan ceramic ultrafiltration membrane separation technology is used for the purification process of nano particles in materials such as lithium batteries and graphene, which can timely remove impurities in the production process and improve product yield. It is a powerful support for the industrialization of new energy batteries.
Shengchuan membrane integration technology is used for lithium extraction from salt lake brine, which has the advantages of short process, low operating cost, and year-round production.
Clean production of solar energy
The ceramic membrane process can directly treat the waste liquid containing silicon powder generated in the solar energy production process, collect the silicon powder, and reuse pure water and coolant. This process can separate silicon powder from pure water, recover more than 98% of silicon powder, reuse more than 90% of pure water, about 50% of coolant and molding agents, etc., which can significantly reduce the load of sewage treatment plants. This process technology has a short process flow, simple process composition and operation, and short cycle, and has become a standard process for benchmark enterprises in the silicon slicing industry.
Purification of new materials
For the purification of nano powders such as well dispersed targets, nano catalysts, and ultra pure non-ferrous metals, the inorganic ceramic membrane can effectively remove impurity ions from the slurry and prepare ultra fine ultra pure nano powders, saving more than 1/3 of the water compared with the traditional process. At the same time, it can effectively avoid the shortcomings of traditional washing methods such as plate and frame, high-speed centrifugation, which are easy to run off, turbid filtrate, large washing water volume, and high labor intensity.