In the copper smelting industry, the quality of anode copper directly determines the final grade and value. The tilting rotary furnace deep impurity removal and refining process is a key solution for improving the quality of anode copper. The core of this process lies in a deep oxidation-reduction system, which, through precise control of the rhythm and intensity of oxidation and reduction, can thoroughly remove key impurities that easily affect electrolytic efficiency and cathode copper purity, achieving deep removal of impurities.

Based on the above, by precisely controlling the furnace atmosphere, temperature, and operating procedures, the target impurity content can be effectively stabilized within the ideal range, ensuring the uniformity and purity of the anode copper composition, thus guaranteeing the excellent quality of the final product, cathode copper, from the source.

In the reduction process, the technology utilizes clean and efficient natural gas as fuel, which not only significantly improves the reduction speed and thermal efficiency, shortening the operating cycle, but also significantly reduces energy consumption and pollution.

Consistency in physical specifications is equally crucial. The accompanying automatic quantitative casting system ensures that each anode plate is highly consistent in weight, thickness, and lug strength. This greatly facilitates the subsequent tank loading and current distribution management in the electrolysis process, and is a key guarantee for improving electrolysis efficiency and the physical quality of cathode copper.

In summary, the core value that the tilting rotary furnace process creates for customers is clear and profound. With its integrated capabilities for deep impurity removal and efficient refining, the tilting rotary furnace is not only a single piece of equipment for producing high-quality anode copper, but also a systematic guarantee that ensures the final product meets Grade A copper standards.