Recycling and utilization of new energy materials

Shenzhen Xinmao New Energy Technology Co., Ltd. is an independent research and development enterprise in the processing of lithium-ion battery negative electrode materials and the recycling and utilization technology of waste battery secondary cycle positive and negative electrode materials. Its main focus is on the physical recycling and utilization of negative electrode graphite materials, and the physical recycling and utilization of positive electrode materials, mastering energy-saving, environmental protection, and ultra-low cost recycling technology.

 

Recycling category - negative electrode graphite products:RG1  RG1-A

The company adopts a full physical method to recycle and reuse the graphite negative electrode waste generated during the production process of lithium-ion batteries. Through surface modification and repair treatment, the recycled graphite negative electrode material improves the low-temperature performance of the material. Through this technology, the graphite negative electrode of waste lithium-ion batteries can be efficiently recycled, reducing dependence on primary resources, ensuring the safe supply capacity of key resources, and playing a leading role in the recycling and utilization of waste lithium-ion battery negative electrode materials in the industry.

 

RG1 Application scenarios: digital, energy storage, small power, etc. VIEW PRODUCTS 》

RG1-A Application scenarios: energy storage, small power, power, etc. VIEW PRODUCTS》

 

 

Conventional - negative electrode graphite products 

Household energy storage uses high-quality Petroleum coke as raw material to produce primary and secondary particle products. The control range of each physical and chemical index is narrow, and the impurity content is strictly controlled, which is conducive to ensuring product consistency and improving product cycle life.

 

Electric energy storage uses isotropic coke as raw material to produce single particle finished products, with a narrow control range of various physical and chemical indicators, which is conducive to ensuring product consistency and improving product cycle life.

 

The electric energy storage optimization products use high-quality Petroleum coke and needle coke raw materials to produce secondary particle products, reduce the lithium intercalation energy barrier of materials, shorten the solid phase movement path, and ensure the dynamic performance, good consistency and high safety while increasing compaction.

 

At the same time, in response to the low temperature and low temperature demand scenarios of the energy storage end, optimizing the selection of raw materials, adjusting product particle size, modifying and other processes can ensure that the product meets the requirements of high temperature and low temperature in complex scenarios, which is conducive to improving the frequency of product use and improving the satisfaction of the end client experience.

 

G1  Application scenarios: electric energy storage, small power, power, etc. VIEW PROCUCTS》

K1  Application scenarios: household energy storage, small power, power, etc. VIEW PROCUCTS》

K3  Application scenarios: energy storage batteries, two wheeled vehicles, low-speed electric forklifts, etc. VIEW PROCUCTS》

Q1  Application scenarios: household energy storage, small power, power, etc. VIEW PROCUCTS》

Q3  Application scenarios: electric energy storage, power, etc. VIEW PROCUCTS》

 

 

Recovery products of positive Lithium iron phosphate:F-1   F-2

The company is currently a global physical method to repair Lithium iron phosphate material recycling industrialization enterprise. For the recycling of positive Lithium iron phosphate material, the company's technical advantage is to control different temperature curves for capacity repair and the separation technology of Lithium iron phosphate powder and aluminum foil, which ensures the product capacity, purity and product consistency. The recycling process mainly involves physical reactions, with mature technological controls for process temperature, peeling, crushing, reduction, and spheroidization during the recycling process, resulting in a recycling rate of over 98%. It is relatively environmentally friendly, with minimal pollution, and can be produced without hazardous waste qualifications. It has high recycling value, low energy consumption, and high yield.

 

F-1 Application scenarios: communication energy storage, small power, etc. VIEW PROCUCTS》

F-2 Application scenarios: communication energy storage, electric energy storage, small power, etc. VIEW PROCUCTS》