PLG-φ1200×8 Dryer for Ternary Precursor Nickel Hydroxide

The conventional cathode material for batteries is lithium cobalt oxide, while the ternary precursor material is lithium nickel cobalt manganese oxide. The ternary composite cathode material precursor product uses nickel salts, cobalt salts, and manganese salts as raw materials, with the ratio of nickel, cobalt, and manganese adjustable according to actual needs. Compared to lithium cobalt oxide batteries, batteries using ternary materials as the cathode offer higher safety, lower cost, and higher specific capacity. Their operating voltage is compatible with existing electrolytes, making them suitable for power batteries and small electronic devices.
The nickel hydroxide ternary precursor drying system designed by Lima Drying ensures the quality of the dried product. This system fully considers various chemical properties of the material, such as moisture content, flowability, and heat resistance, and is enhanced based on existing drying technology. Due to the high moisture content of the nickel hydroxide ternary precursor, a twin-screw feeder is used to ensure continuous and stable feeding, preventing bridging phenomena. The residence time of the material in the dryer is adjustable, which facilitates the drying of heat-sensitive materials and achieves better drying results.

With the rapid development of consumer, digital, power, and medical products, along with the support of national policies, the development of lithium battery materials is full of momentum. Lithium battery technology is also becoming increasingly mature, leaving significant room for the growth of high-end products. Changzhou Lima also regards this as a crucial part of its future business strategic planning. The achievement of this cooperation signifies that Lima has successfully taken a key step. Adhering to the principle of "long-term development and mutual benefit," the company will continue to increase its efforts in expanding the lithium battery materials market and innovating equipment technology, providing sustained momentum for the advanced production of lithium battery materials!