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Minería y Geología
On-line version ISSN 1993-8012
Abstract
ZALAZAR-OLIVA, Carlos et al. Mathematical modeling of Ni-lateritic ore drying in a rotary cylindrical kiln on a semi-industrial scale. Min. Geol. [online]. 2022, vol.38, n.4, pp. 346-362. Epub Dec 31, 2022. ISSN 1993-8012.
The lack of knowledge about the relationship between variables that characterize the thermal drying process prevents reaching the required moisture values in the Ni-lateritic ore at the exit of the rotating horizontal cylinder on a semi-industrial scale, with lowest possible fuel consumption and least impact on environment. For this reason, a steady state phenomenological model was established. This model consists of a system of differential equations and ordinary equations obtained from the mass and energy balances in the Ni-laterites ore, in the gas and in the wall of the dryer. Besides, from the bond equations that allow obtaining the thermophysical properties of the Ni-ore laterites and gases and the heat and mass transfer coefficients involved in the process, solved by using the fourth order Runger-Kutta numerical method. This model allows establishing the distribution temperature behavior of the gas, the Ni-laterites ore and the variation of moisture of the last one along the entire cylinder length.
Keywords : mathematical modeling; thermal drying; lateritic Ni-ore; rotating horizontal cylinder; energy balance.