Journal of Siberian Federal University. Engineering & Technologies: Algorithm for Calculating the Optimization of the Parameters for the Electroextraction of Metal Based on the Example of Zinc

Journal of Siberian Federal University. Engineering & Technologies / Algorithm for Calculating the Optimization of the Parameters for the Electroextraction of Metal Based on the Example of Zinc

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Issue: Journal of Siberian Federal University. Engineering & Technologies. 2026 19 (1)
Authors: Kashapov, Nail F.; Kashapov, Lenar N.; Chebakova, Violletta Yu.
Contact information: Kashapov, Nail F. : Federal Research Center «Kazan Scientific Center of Russian Academy of Sciences» Kazan, Russian Federation, Republic of Tatarstan; Kashapov, Lenar N. : Institute of Advanced Research of the Academy of Sciences of the Republic of Tatarstan Kazan, Russian Federation, Republic of Tatarstan; Kazan Federal University Kazan, Russian Federation, Republic of Tatarstan; Chebakova, Violletta Yu. : Institute of Advanced Research of the Academy of Sciences of the Republic of Tatarstan Kazan, Russian Federation, Republic of Tatarstan; Kazan Federal University Kazan, Russian Federation, Republic of Tatarstan;
Keywords: Electroextraction optimisation; Hooke–Jeeves method; Inverse reaction kinetics; Zinc powder deposition; Runge–Kutta simulation
Abstract: A numerical algorithm combining the fourth-order Runge–Kutta scheme with the Hooke–Jeeves direct-search optimiser is proposed to solve an inverse kinetic problem that arises during zinc powder electrodeposition from alkaline electrolytes. The model describes two competing cathodic chains – zinc reduction and parasitic hydrogen evolution – through a coupled Cauchy system with positivity constraints. Unknown rate constants are estimated by minimising the squared deviation between calculated and experimental zinc yields, which reduces the amount of laboratory testing required. An applied result of the calculations also provides the ability to predict the yield of the deposited metal powder. Verification against published data at current densities of 125–500 A/m² shows relative errors below 5 % after 60 min of electrolysis and confirms that nucleation effects dominate only at the earliest stages. The approach therefore offers an efficient tool for parametrising and optimising electroextraction processes for zinc and other metals. At the same time, the velocity constants that are found can be used for calculations based on larger-dimensional models when calculating the spatial characteristics of an electrical system
Pages: 92–105
EDN: APHBFS
Paper at repository of SibFU: https://elib.sfu-kras.ru/handle/2311/158142

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