ADVANCED ELECTROCHEMICAL TECHNIQUES
Electrochemical techniques are essential in a wide range of industrial applications, serving as core processes for the extraction and purification of metals. Electrolysis is a process that drives a non-spontaneous chemical reaction by applying an electric current. In this process, an electric current is passed through an electrolyte, resulting in the decomposition of the compound. Specifically, electrolysis utilizes a specialized electrolytic cell, where gold or silver ions are reduced and deposited onto the cathode, while impurities remain dissolved in the electrolyte solution.
Electrowinning, a highly efficient electrochemical method, is employed to recover gold and silver in their purest form from metal-rich solutions, typically after a leaching process. By applying an electric current to a solution containing dissolved metal ions, the metal ions are reduced and deposited as solid metal onto the cathode. This process ensures the recovery of high-purity gold and silver, contributing to a sustainable and efficient metal recovery system.
The chemical processing of precious metals begins with materials extracted from anode molds. In the initial stage, electrolysis units specifically designed according to daily production capacities are utilized. Through electrochemical reactions initiated by specific chemical agents, copper remains deposited on the anode surface, while other precious metals are collected within anode bags. Following electrolysis, the process continues with the refining system. At this stage, materials obtained from electrolysis are purified individually to achieve high-purity recovery of each precious metal.
Electrolysis and Electrowinning Systems are designed to deliver maximum efficiency and superior performance in metal recovery and purification. Engineered to meet the demands of modern industry, these systems optimize energy consumption and enhance process control. Utilizing advanced electrochemical technology, they ensure high-purity metal recovery while minimizing operational costs. Their corrosion-resistant and modular design provides long-term durability and ease of maintenance, making them a reliable solution for industrial applications. With optimized current distribution and state-of-the-art electrode design, our systems significantly reduce energy consumption while ensuring consistent process efficiency. Ideal for metal refining, recycling, and electroplating applications, our electrowinning solutions offer a sustainable, cost-effective approach to metal recovery.
