environmental friendly decoating machine

In the world of industrial waste processing, carbonization technology is gaining attention for its efficient and eco-friendly approach to treating used beverage cans. While it might sound technical, the process is straightforward: it uses controlled heat to cleanly separate metal from its painted surface, making recycling far more effective. ​Why Special Treatment is Needed​Aluminum cans—those lightweight containers we use every day—are actually composite materials. While the core material is aluminum (or sometimes steel), each can is coated with a thin layer of paint and protective coatings. These organic coatings, though making up only 2-5% of the can's weight, cause significant problems during traditional recycling. When melted directly, they release harmful gases and contaminate the molten metal. The carbonization process offers a smarter solution. ​The Thermal Conversion Process​Inside a carbonization furnace, shredded can fragments undergo a transformation at 500-600°C in an oxygen-free environment. This controlled heating causes the paint coatings to break down into harmless gases and a small amount of solid carbon—a process known as "thermal desorption." After about 30 minutes of treatment, up to 99% of the coating is removed, leaving behind clean metal ready for smelting. ​How the Technology Works​Modern continuous carbonization furnaces operate like a precise assembly line with three zones: Preheating zone: Gradually raises the temperature Thermal processing zone: Where coating removal occurs Cooling zone: Prepares material for collection This staged approach prevents metal damage while ensuring complete coating removal. The result is metal clean enough to be reused even for new food packaging. ​Energy Efficiency and Environmental Benefits​The process is designed to be self-sustaining: gases produced during carbonization are captured, purified, and reused to fuel the furnace. This innovative approach reduces energy consumption by over 60% compared to traditional chemical stripping methods. Most importantly, it eliminates toxic wastewater and air pollution associated with conventional recycling. ​Tangible Improvements in Recycling​The benefits are clear and measurable: Metal recovery rates increase by 15-20% Resulting metal purity exceeds 98% Energy consumption drops significantly Environmental impact is minimized   This technology represents more than just an improvement—it's a fundamental shift toward sustainable material recovery. By transforming waste cans into high-quality raw material, carbonization technology closes the loop in aluminum recycling, supporting both economic and environmental goals for a circular future.