In recent years, thanks to the rapid development of the electric vehicle industry, lithium battery materials are widely used in the production process of positive electrodes, negative electrodes and diaphragms of battery cells, whether it is bicarbonate or ternary lithium. These materials need to be calcined in a rotary kiln before they can be ground. J. Parker conducted in-depth research and development of a low-nitrogen burner for natural gas heating in rotary kilns. While meeting the high-temperature control accuracy, it ensures that nitrogen oxide emissions are at an extremely low level, supporting the development of "green electricity" technology from the source.
The typical drying process of battery core materials is often seen in spray or flash drying towers, which use the fast-flowing air in the air duct to directly heat the burner to remove excess moisture in the battery core material to achieve the purpose of rapid drying
J.Parker can provide customized hot air furnaces and direct combustion systems, which can seamlessly connect the combustion system with the customer's air duct, greatly reducing the workload of on-site installation and debugging, and meet the special needs of copper-free, iron-free, and zinc-free
The production process of battery core materials will produce various waste gases, which need to be collected, concentrated and then incinerated uniformly, otherwise it will pollute the environment and protect our blue sky and clear water living environment. The phased incinerator combustion system provided by J.Parker can be customized according to specific project requirements to achieve the purpose of rapid temperature rise and production, as well as the goal of precise temperature control.