Refractories that will optimize your burning zone

Combustion engineering and generation of clinker coating are the two factors paramount to the optimal functioning of the burning zone.

The most manageable, from a technical viewpoint, is the question of combustion engineering - the achievement of proper flame pattern, heat and combustion.

Succesful combustion engineering supports optimum clinker formation, and minimizes wear and stress on refractories and kiln shell. Poor combustion engineering leads to thermal overload and rapidly fluctuating redox conditions, which are bad for both refractory lining and clinker. Thermal overload will ultimately cause the refractory to melt. Redox conditions lead to the brick's accelerated friability, or brittleness.

The second factor is equally important: the generation of clinker coating on the refractory brick. This protects the brick and helps the clinkerization reaction throughout the kiln.

Several variables can affect the maintenance of this coating including large fluctuations in raw meal parameters and poorly nodularised clinker can result in liquid phase segregation, the use of high-sulfur fuels, combined with poor combustion engineering and a number of factors that can cause coating to disappear completely.

The following products will improve your refractory life:

Magkor-S20-LE, or Magkore B-RA.