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Conference Papers Year : 2022

Full scale design of bioleaching pond concept through numerical simulation

Abstract

New bioreactor technology was recently developed for bioleaching applications. It consists of ponds where pulp suspension and gas-liquid mass transfer are achieved with floating agitators. Bioleaching reactions are significantly exothermic with high oxygen requirements. Temperature regulation is usually required in bioleaching reactors to maintain biological activity. Contrary to conventional stirred tank reactors, the temperature in ponds cannot be easily regulated through heat exchangers. A numerical strategy was developed to design an industrial application of the concept and to select suitable operating parameters. First, computational fluid dynamics (CFD) was used to model the hydrodynamics of the system and to define the volume of influence of one single agitator, the number of floating agitators and the mechanical power dissipated into the fluid. Then, a numerical model was developed using MatLab to quantify the contribution of the operating and environmental conditions to the heat balance and their influence on temperature regulation. Various scenarios were simulated (equatorial and sub-arctic climates, sulfide concentration, pond geometries). At industrial scale, the environmental conditions have little influence on the heat balance, which is mainly dominated by the reaction enthalpy. It was demonstrated that the temperature could be maintained in a suitable range (40 to 50°C) by controlling the fresh pulp inlet conditions (flow rate, temperature) and the aeration (flow rate, oxygen partial pressure), even at low sulfide concentration (between 5 and 10%).
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Dates and versions

hal-03771305 , version 1 (07-09-2022)

Identifiers

  • HAL Id : hal-03771305 , version 1

Cite

Céline Loubière, Anne-Gwenaelle Guezennec, Agathe Hubau, Douglas O. Pino-Herrera, Eric Olmos. Full scale design of bioleaching pond concept through numerical simulation. 24th International Biohydrometallurgy Symposium (IBS) 2022, Nov 2022, Perth, Australia. ⟨hal-03771305⟩
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