How does Nonferrous Metal Sorting System work?
Nonferrous Metal Sorting System uses sensors, air jets, and sophisticated software to analyze the material and identify different types of metal. The system can sort metals based on their size, shape, and density. Once the system identifies the metal, a high-speed air jet separates it from the waste material. Nonferrous Metal Sorting System can process large volumes of materials, detect and remove impurities, and increase the purity of the metal.What are the benefits of using Nonferrous Metal Sorting System?
Nonferrous Metal Sorting System offers numerous benefits for industries and waste management companies. Some of the benefits include:- Improved product quality
- Increased purity of metals
- Reduced waste and landfill
- Higher productivity and efficiency
- Cost-effective solution
- Environmental-friendly technology
What industries can benefit from Nonferrous Metal Sorting System?
Nonferrous Metal Sorting System is beneficial for industries that deal with metal scraps and recycling. Some of the industries that can benefit from this technology include:- Scrap metal dealers
- Recycling companies
- Metal processing plants
- Waste management companies
- Mining companies
- Manufacturing plants
In conclusion, Nonferrous Metal Sorting System is an essential technology for industries that deal with metal waste and recycling. Using this technology can help industries improve product quality, increase productivity, reduce waste, and save resources. If you are in the metal recycling or waste management industry, consider investing in Nonferrous Metal Sorting System to enhance your operations and stay ahead of the competition.
Fujian Huixin Environmental Protection Technology Co., Ltd. is a leading provider of waste management solutions and nonferrous metal sorting system. We offer a wide range of high-quality products and services to meet the unique needs of our clients. Visit our website at https://www.incineratorsupplier.com to learn more about our products and services. For inquiries, please contact us at hxincinerator@foxmail.com.
References
1. Li, J., Wang, E., & Zhang, M. (2019). Application of non-ferrous separation technology in waste printed circuit board processing. Journal of Cleaner Production, 209, 1444-1451.
2. Cheng, T., Chen, J., & Wu, L. (2018). Metal recovery from municipal solid waste incinerator fly ash by non-ferrous separation: a review. Journal of Hazardous Materials, 341, 424-436.
3. Park, J. H., & Lee, J. C. (2018). Non-ferrous metals recovery from waste printed circuit boards using supergravity separation. Resources, Conservation and Recycling, 128, 32-40.
4. Li, J., Zhang, Q., & Xu, Z. (2017). Application of non-ferrous metal particles induction separation in electronic waste recycling. International Journal of Mineral Processing, 159, 38-44.
5. Han, L., Liu, Y., & Lee, J. (2017). Feasibility study of non-ferrous separation from automobile shredder residue by rotary triboelectrostatic separator. Journal of Environmental Management, 196, 523-527.
6. Shin, D., Pandey, B., & Lee, J. C. (2016). Combined separation of non-ferrous metals from waste incineration bottom ash: beneficiation of the light fraction and potential improvement by sieving. Waste Management, 48, 133-142.
7. Li, J., Yang, F., & Xu, Z. (2015). Study on non-ferrous metals recovery process from electronic waste by plasma-assisted triboelectric separation. Waste Management, 45, 437-441.
8. Liu, H., Wu, W., & Xu, Z. (2014). Study on non-ferrous metals recovery from boiler slag by air separation. Minerals Engineering, 56, 25-28.
9. Yang, J., Wang, H., & Chen, Y. (2013). Separation of non-ferrous metals from waste toner cartridges by electrostatic beneficiation. Waste Management, 33(9), 1786-1791.
10. Wu, Y., Zhang, J., & Chen, M. (2012). Separation and recovery of non-ferrous metals from shredded automobile waste by density and magnetic classification. Journal of Hazardous Materials, 221, 118-125.