Lithium Battery Manufacture & Recycling Industry Wastewater Treatment Solution
Lithium-ion batteries serve as the catalyst for energy storage, leading the charge in the eco-conscious movement across diverse sectors and bolstering our shared dedication to a greener tomorrow. In the dynamic contemporary realm, the market’s appetite for lithium batteries has experienced an extraordinary surge, propelled by the swift embrace of electric vehicles, the widespread use of portable electronic devices, and the seamless integration of renewable energy infrastructures.
Arrange a discussion with our wastewater treatment specialists at a time whenever it suits your schedule, or simply submit your inquiry to us for expert assistance in wastewater management.
Lithium battery is a promising and eco-friendly energy source that is gaining traction in the market. However, the manufacturing process of lithium batteries leads to the massive production of wastewater, specifically high concentration organic wastewater. Lithium-ion battery production wastewater predominantly contains:
N-methylpyrrolidone(NMP) Ammonium Carbon powder Sodium Sulphate (Na2SO4) Organic lipids Traces of heavy metals Organic pollutants
Why Choose Evoaeo Wastewater Treatment Process?
Evoaeo's cutting-edge electrochemical oxidation wastewater processing solutions play a pivotal role across various segments of the lithium value chain. This encompasses the manufacturing and recycling of lithium-ion batteries, This sustainable approach not only maximizes resource efficiency but also promotes eco-friendly practices throughout the industry.
Reasonable Operational Cost
Our advanced wastewater treatment systems eliminate the necessity of resorting to costly and inefficient incineration methods for treating wash water and hazardous compounds, given the nature of boron-doped diamond BDD electrode capable of withstanding corrosive elements, and high temperature/pressure environments while efficiently removing refractory organic pollutants from wastewater.
Degrading Refractory Organic Pollutants
Lithium-ion battery (LIB) production wastewater boasts elevated organic content, our pilot wastewater treatment module integrated with Boron-doped diamond BDD electrode could degrade refractory organic pollutants to extremely low concentrations, which secure effluent discharge and enhanced traceability & sustainability .
Sustainable Approach
Our wastewater treatment systems deliver impressive results without adding environmentally harmful chemicals, free from hazardous byproducts.
Contact Evoaeo Team To Get Started Today!
Revolutionizing Battery Manufacturer & Recycling Wastewater Treatment
Discover an innovative solution for recycling battery water like never before – Evoaeo’s pilot modular system. This cutting-edge electrochemical oxidation process harnesses the remarkable power of hydroxyl radicals (·OH) to effectively eliminate organic contaminants, setting new industry standards for efficiency.
Experience the simplicity and hands-off operation of this groundbreaking system. Whether your focus is on achieving safe effluent discharge or working towards a zero liquid discharge goal, the pilot module system stands as the ultimate solution for water purification and recycling. Elevate your sustainability initiatives today with the BDD pilot module system.
Lithium Battery Production & Recycling Wastewater Treatment Case Studies
Guangxi Pengyue Ecological Technology Co., Ltd,a subsidiary of Guizhou Chanhen Chemical Corporation, 002895 (SHE),a publicly listed company and pioneer of the phosphate industry.
The project revolves around the concept of “copper, sulfur, and phosphorus”, with a primary focus on utilizing phosphate ore as the main raw material. By consuming sulfuric acid, which is a by-product of copper electrolysis, the project effectively treats the waste acid generated during the copper electrolysis process. This innovative approach addresses the challenges faced by two major industries – copper electrolysis and the phosphorus chemical industry – and aims to achieve sustainable development for both. The production process for phosphoric acid is based on the hemi-dihydrate wet process, which is then further refined to produce high-purity phosphoric acid, calcium dihydrogen phosphate, ferric phosphate, and valuable by-products. However, the project does encounter challenges, particularly concerning high COD (Chemical Oxygen Demand), high phosphorus, and fluorine organic wastewater. The wastewater primarily contains organic phosphorus, which exhibits poor biochemical properties with a B/C ratio less than 0.06. These complexities demand effective wastewater treatment strategies to ensure environmental sustainability and the overall success of the project.
Precious Metal Recovery & Wastewater Degradation
Brunp Recycling Technology, a recycling subsidiary of CATL, which owns large plants for battery raw materials recycling and further processing for production of new batteries.
With operations span across Guandong, Hunan and Hube Province, and then expanded to Indonesia. Brunp Recycling exstablished strategic partnerships with leading automotive companies such as Mercedes-Benz China, to initialize a power battery recycling industry chain.
Brunp have achieved an impressive 99.3% metal recovery rate for nickel, cobalt, and manganese. Additionally, CATL contribute significantly to the environment, achieving a 50% comprehensive recycling rate for used batteries in China as Brunp’s waste battery disposal capacity stands at an impressive 120,000 tons.
Evoaeo take an active role in efficient metal recovery and waste disposal process related to battery recycling and battery materials, and we join forces to build and enhance battery recycling industry.
Free Industrial Wastewater Consultation
Share with us the specific organic compounds you aim to eliminate from your water, and our consultants will offer their guidance, which may encompass: