With the continuous development of new energy vehicles, the demand for anode materials for new energy vehicle power batteries is also increasing, and anode materials will become the most important development direction of the lithium battery anode materials market in the future. At present, lithium battery anode materials are mainly used in the three major fields of lithium-ion batteries, energy storage batteries and power batteries.
According to data, China’s power lithium-ion battery production in 2021 was 10.31 billion, an increase of 81.3%. With the development of new energy vehicles, the future market demand for power lithium-ion batteries will further increase. Domestic lithium-ion battery anode material enterprises are currently in a state of rapid growth in production capacity, especially the domestic anode material enterprises represented by Zhongke Haijia, Zhongke Xingtu, Sugi Stocks, and Betray, which are increasing investment in equipment and technological research and development, and continuing to expand the scale of production capacity while maintaining the stable growth of existing capacity.
In the rise of electric vehicles, the demand for negative electrode materials has ignited a heat wave in the market. In the production process of negative electrode materials, the use of special gases is playing an important role, leading a revolutionary breakthrough in the negative electrode materials industry.
First of all, Fluidised Bed Vapour Deposition Reactor FB-CVD shows its unique charm. As one of the core equipments for the production of negative electrode materials, it relies on special gas silane to inject excellent conductivity and stability into negative electrode materials, which enables negative electrode materials not only to store energy efficiently, but also to have excellent cycle life.
Secondly, Fluidised Bed Spray Nano-coating FB-SDNC offers unlimited possibilities for the performance of anode materials. In this process, the special gas acetylene plays an important role. Through the nano-coating technology, the surface of the negative electrode material is covered with a thin film, which greatly enhances the surface area and reaction activity of the negative electrode material, enabling it to store and release energy more efficiently.
Finally, the powder atomic layer deposition equipment PALD equipment allows the negative electrode material to further sublimate its performance. In this process, the use of special gas nitrogen injects strong stability and high-temperature resistance into the negative electrode material, enabling it to still perform excellent energy storage capacity in harsh working environments.
As a speciality gas pipeline installation company with 13 years of experience, we understand the importance of speciality gases in the production process of negative electrode materials. Over the years, we have been committed to providing excellent services to a number of representative companies of negative electrode materials, such as Betray. We not only have rich experience in controlling speciality gases, but also provide customised speciality gas solutions to our customers with our strong team strength and expertise, ensuring a safe and reliable supply for the production process.
Special gas pipeline project installation requires a high level of professional and technical level, the current domestic special gas pipeline project installation market, the number of enterprises, fierce competition. In this market, Wofei has established a strong competitive advantage in the market by virtue of its own technical strength and good reputation.
At the same time, the installation of special gas pipeline project is a complex project, which not only requires a high level of technical skills, but also needs to have a good professionalism and professional ethics. From the current market, not many companies can do this. Wofei has many years of experience in the installation of special gas pipeline projects, and has strong advantages in technology and management, and has been recognised by many customers.
Post time: Feb-20-2024