Industrial Wastewater Treatment. Environmental pollution is a global problem requiring effective and integrated solutions. An important part of protecting the environment is keeping the water resources pure and clean, when they are contaminated with heavy metals, acids, alkalis and other industrial wastes.

The existing wastewater treatment technologies are not always reliable and efficient, requiring the development of new technologies and new generation devices that can overcome these limitations. GlobeCore offers new equipment: its vortex layer device AVS 100 (150). This equipment operates using the energy of rotating electromagnetic fields of high intensity. The AVS operating space is a chamber with ferromagnetic particles inside. The rotating electromagnetic field turns the particles into dipoles. The particles begin to move in complex trajectories colliding with each other, with the walls of the chamber and with the material.

The AVS chamber performs the following processes:

• Decontamination of water;
• Recovery of various compounds;
• Partial decomposition of water;
• Oxidation;
• Deposition of metals from the solution as hydroxides;
• Partial decomposition of organic compounds with complex and polyatomic structure.

Rapid movement of the needles (ferromagnetic particles) and the resulting cavitation in the liquid can significantly speed up the flow of physical and chemical reactions (hundreds and even thousands of times) improving industrial wastewater treatment.

Practical studies show that the AVS dissolves components in water faster than a stirrer with heating. It uses less energy and saves production space (with smaller size of the equipment).

Wastewater treatment with the AVS includes pre-filtering, cleaning and decontamination, controlling chemical composition of clarified water and sludge disposal.

Among the other advantages of the AVS units in wastewater treatment are:

• Ability to operate with virtually any wastewater composition;
• Easy integration into existing production lines;
• Management and control of the device by changing the process parameters.

Depending on the degree of purification achieved, the purified water can be directed to urban wastewater treatment plants, or to the open waterways.