Project Background:
Solid state battery technology can provide higher energy density (2.5 times) by enabling lithium metal anodes.
They can avoid the use of hazardous or toxic substances found in commercial batteries, such as organic electrolytes.
Due to the fact that most liquid electrolytes are flammable, while solid electrolytes are non flammable, the risk of ignition in solid-state batteries is relatively low. It requires fewer security systems, so further increasing energy density. Recent studies have shown that under thermal runaway, the generation of heat in traditional batteries with liquid electrolytes inside is only about 20-30%.
Solid state battery technology is believed to achieve faster charging. Higher voltage and longer cycle life are also possible.
Project Introduction:
In the research and mass production of solid-state batteries, the requirements for moisture and oxygen content are very high, so Japanese customers put them in glove boxes to complete research and development and production. How to realize under explosion-proof conditions of initial feeding, transfer materials, sample analysis and packaging, and ultimately achieve automated operation according to customer requirements.
Engineering highlights:
Accurate and reliable detection of moisture and oxygen content with low failure rate;
The gas adsorption capacity is large, and the moisture and oxygen content can reach 0.1PPM;
Multiple explosion-proof protection structures and explosion-proof design;
Sealing life exceeds ten years, stable and reliable;
Fully automated control;
Super large transition antechamber, powder bucket can be directly transferred.
Customer Introduction:
Idemitsu Corporation is one of the largest oil companies in Japan, a comprehensive petroleum group that specializes in the development (exploration), transportation, refining, and sale of various petroleum products.