As a leader in this market segment, CMI offers a modular design that guarantees its customers the optimal solution for all their individual process requirements and applications, with acid recovery of virtually 100%.
Carbon steel and silicon steel applications
For carbon steel, including silicon steel, applications, CMI offers 2 types of pyrohydrolysis processes for its Acid Regeneration Plants (ARP):
- Fluidised Bed Acid Regeneration Plant
- Spray roaster Acid Regeneration Plant
All CMI’s Acid Regeneration Plants are equipped with a highly automated control system that minimizes field intervention by the operator and enables safe and reliable daily operation from a single control room.
With TOMAREG®, its Total Mixed Acid Regeneration Plant, CMI offers a system for pickling stainless steel that allows highly flexible operation of the pickling line, due to the adjustable acid concentration of the regenerated acid. TOMAREG® can produce oxide either in the form of a fine powder or coarse particles, as the plant can be delivered optionally with spray roaster or fluidised bed technology.
Compared to conventional neutralisation plants, TOMAREG® reduces annual costs by 70% and hazardous waste discharged to the environment by more than 98%.
|Environmental protection due to recovery of hazardous chemicals|
|Virtually emission-free operation|
|Recovery of costs by sale of oxide as high quality by-product|
|Highest achievable production rates|
|Optimised pickling due to constant operating parameters|
|Independence from chemical suppliers|
|Short payback time|
|Present and future legal requirements on emissions are met|
|Low maintenance costs|
|Adaptable to all types of Pickling Lines|
CMI Industry's value proposition
As a global partner with decades of experience and in depth-knowledge in the machinery and plant construction in steel and nonferrous metals processing, CMI Industry supplies « fit-to-purpose » engineered lines or equipment providing consistent product quality and increased production performance. (for more information: click here)