Engineers and maintenance managers worldwide rely on Blasch high performance Oxytron™ and Altron™ silicon carbide SiClone™ mechanical dust collector components. Because they are engineered to replace existing steel components or liners, Blasch SiC dust collectors give maintenance managers freedom to worry about other parts of their plant. Blasch’s abrasion resistant silicon carbide composition far outlasts traditional cast iron or Ni-Hard by orders of magnitude. As a result, it is easier for plant operators to achieve financial performance objectives by optimizing separation efficiencies, maximizing cyclone life and eliminating maintenance/replacement costs traditionally found with metallic components.
One of the biggest costs incurred in the operation of a plant is the maintenance and repair of the dust collection system. A mechanical dust collector faces extreme abrasive wear due to the attack of particles at low acute angles of impingement. However, engineering and shape-making capabilities unique to the Blasch process allow for pre-cast refractory multicyclone parts with superior abrasive resistance. Blasch components are made of silicon carbide and come with engineered mounting rings for structural reliability and ease of installation. Also, Blasch multicyclone dust collectors are 38% the weight of comparable iron components, making them easier to install, and are available in all sizes and all designs. Most importantly, the Blasch Multicyclone has proven its superiority in plants worldwide, often exceeding the life of existing iron by 10x.
With the aid of the Blasch casting process, recent changes in geometry have resulted in a new generation of ultra-high efficient multi cyclones. The surface of a typical cast iron cone is quite rough with some irregularities. In contrast, the Blasch ceramic multicyclone surface is extremely smooth due to our patented and precise casting process. In addition, dimensional accuracy and geometric tolerances like roundness far exceed traditional metallic castings. This results in a dust collector assembly that is more efficient than metal or cast iron.