Why has CINAR created MI-CFD?

CINAR was seeking to meet the needs of the industry that did not have a model capable of simulating both fluid motion and there actions (combustion, calcinations and clinkerisation). For this reason MI-CFD was created, a software designed to simulate these reactions allowing to compute combustion and to meet the co-processing needs of the industry. In MI-CFD, it is possible to understand how heat istransferred and its influence on clinker phase formation, besides monitoring calcinations and combustion, inside of the equipment.

Advantages of using MI-CFD technology

A CINAR ao desenvolver o MI-CFD encapsulou a sua extensa experiência em processamento de minerais, entendendo de maneira profunda os seus elementos para criar modelos matemáticos eficazes para simulação de processos envolvendo combustão. Esta tecnologia permite:

Developing MI-CFD, CINAR has encapsulated its extensive experience in mineral processing, deeply understanding its elements to create effective mathematical models for simulating industrial processes involving combustions. This technology enables companies to:

Improve flame stability in kilns

Optimize processes

Reduce pollutant emissions

Increase combustion efficiency

Evaluate alternative fuels

Simulate accurately

Why should you use this technology?

1

VIRTUAL TOUR INSIDE THE EQUIPMENT

MI-CFD allows “3-D virtual tours” inside equipment, revealing both performance and limitations.

2

PREDICTABILITY

The MI-CFD software is unique in simulating the combustion of multiple fuels, with several sizes and shapes, coupled with the mineral interactions (calcination, clinker formation and sintering) and the emissions formation.

3

EFFICIENCY

Reduce the trial-and-error approach, and its costs, and ensure that only high-ROI modifications are implemented.

CINAR Brasil provides customized solutions related to industrial combustion.

Technologies only available in MI-CFD

Combustion, Calcinatio nand Clinkerisation

The only simulation software capable of coupling combustion, calcinations and clinkerisation.

It simulates multiple fuels.

It calculates the thermal radiation accurately.

It calculates NOx, SNCR/SCR and “reburn”.

It models the SO2/SO3 cycle.

Several fuels modeling.

MI-CFD has an extensive database and validated physical-chemicalmodels, enabling more accurate simulations.
PROPOSAL