Kinetic Analysis of Reduction Reaction of MnO from High Carbon Ferromanganese Slag using Fractional Differential Equations (FDE)
DOI:
https://doi.org/10.70844/ijas.2025.1.18Keywords:
Fractional Differential Equation (FDE), Fractional rate constant, MnO reduction, Kinetics, Conversion factorAbstract
In this paper, a kinetic model for the reduction process by solid carbon of MnO in high-carbon ferromanganese slags using Fractional Differential Equations (FDE) was developed, the relationship between fractional order, fractional rate constant and temperature was determined and the accuracy of the fractional order model was verified. The fractional order q is 0.892, 0.808 and 0.522, at 1,450 ℃, 1,500 ℃ and 1,600 ℃ respectively and the fractional rate constant kq 1.176E-03, 2.856E-03 and 3.477E-02. A linear relationship exists between the fractional
order and the temperature and an exponential relationship exists with the fractional rate constant. Comparing the conversion factors calculated from the FDE and previous model with the experimental values, the RMSE were 0.005 and 0.029, respectively and the r2 0.999 and 0.980. This means the FDE model is more accurate. The apparent activation energy of the MnO reduction process calculated using the model was 181.1 kJ/mol.
