MATHEMATICAL MODEL OF CHEMICAL PURIFICATION OF WATER IN A MECHANICAL FILTER

Olha  Chernukha; Yurii  Bilushchak; Anastasiia  Chuchvara

doi:10.36074/logos-08.07.2022.053

Фізико-математичні науки

July 8, 2022; Paris, France: III Міжнародна науково-практична конференція «DÉBATS SCIENTIFIQUES ET ORIENTATIONS PROSPECTIVES DU DÉVELOPPEMENT SCIENTIFIQUE»

MATHEMATICAL MODEL OF CHEMICAL PURIFICATION OF WATER IN A MECHANICAL FILTER

Olha Chernukha⁺⁻
Yurii Bilushchak⁺⁻
Anastasiia Chuchvara⁺⁻

DOI: https://doi.org/10.36074/logos-08.07.2022.053
Опубліковано: 21.07.2022

Анотація

Based on the thermodynamic approach, a mathematical model of chemical water purification in a mechanical filter is constructed. For each of the components of the system, the mass transfer equation is obtained, on the basis of which the initial-boundary value problem of convective diffusion accompanied by a chemical reaction is formulated. Considering the terms corresponding to the components generated as a result of chemical reactions as internal sources, the system of integro-differential equations is assigned with the original initial-boundary value problem. The solution of this system is found by the method of successive iterations.

Посилання

Bilushchak, Yu., Chernukha, O. and Chuchvara, A. (2021). Approximation of boundary condition at unknown time interval in modeling of convective diffusion processes in industrial water filters. Proceedings of the International Scientific Conference "Modern Problems of Thermomechanics - 2021", (P. 20-19) Pidstryhach Institute for Applied Problems of Mechanics and Mathematics National Academy of Sciences of Ukraine.
Bryndzia, I.V. (2011). Estimation of surface waters of Prykarpattia according to its physical and chemical parameters. Scientific notes of Ternopil National Pedagogical University. 2. 7-11.
Burak, Y., Chaplya, Y. and Chernukha, O. (2006). Continual-thermodynamical models of solid solution mechanics, Kyiv: Naukova Dumka Publishers.
Chaplya, E.Ya. and Chernukha, O.Yu. (2009). Mathematical modeling of diffusion processes in random and regular structures. Kyiv: Naukova Dumka Publishers.
De Groot, S.R. (1951). Thermodynamics of irreversible processes, von S. R. de Groot. North-Holland Publishing Comp., Amsterdam.
Gyarmati I. (1970). Non-equilibrium Thermodynamics. Field Theory and Variational Principles. Springer-Verlag, Berlin, Heidelberg, New York.
Korn, G.A. and Korn, T.M. (1968). Mathematical Handbook for Scientists and Engineers: Definitions, Theorems, and Formulas for Reference and Review. McGraw-Hill.
Mandrik B.M., Chomko D.F. and Chomko F.V. (2005). Hydrogeology. Kyiv University Publishing and Printing Center.
Martinenko, N.A. and Pustilnikov, L.M. (1986). The finite integral transformations and their applications to investigating the systems with distributed parameters. Nauka.
Prigogine, I and Mazur, P. (1953). Sur l'extension de la thermodynamique aux phénomènes irreversibles liés aux degrés de liberté internes. Physica. 19. 241-254.
Safranov, T.A., Grabko, N.V., Polishchuk, A.A. and Trokhimenko G.G. (2016). Balance of mineral composition of drinking water as a factor influencing the health of the population of urban agglomerations of the North-Western Black Sea coast. Bulletin of Odessa State Ecological University. 20. 5-17.
Sneddon, I.N. (1951). Fourier Transforms. McGraw-Hill Book Company.
Zyuman, B.V. and Kotiy, K.V. (2013). Quality of drinking water from different sources of water supply. Scientific Bulletin of KU-EITU. New technologies. 1-2. 39-40.

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Як цитувати

Chernukha, O. ., Bilushchak, Y. ., & Chuchvara, A. . (2022). MATHEMATICAL MODEL OF CHEMICAL PURIFICATION OF WATER IN A MECHANICAL FILTER. Збірник наукових праць «ΛΌГOΣ», (July 8, 2022; Paris, France), 192–203. https://doi.org/10.36074/logos-08.07.2022.053

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Статті цього автора (авторів), які найбільше читають

Olha Chernukha, Yurii Bilushchak, Anastasiia Chuchvara, Halyna Bilushchak, SOLUTION CONSTRUCTION OF A PARABOLIC INITIAL-BOUNDARY VALUE PROBLEM FOR DIFFERENT REGRESSION MODELS AT THE LOWER BODY BOUNDARY , Збірник наукових праць «ΛΌГOΣ»: April 4, 2025; Paris, France: VIII Міжнародна науково-практична конференція «DÉBATS SCIENTIFIQUES ET ORIENTATIONS PROSPECTIVES DU DÉVELOPPEMENT SCIENTIFIQUE»

[1] Bilushchak, Yu., Chernukha, O. and Chuchvara, A. (2021). Approximation of boundary condition at unknown time interval in modeling of convective diffusion processes in industrial water filters. Proceedings of the International Scientific Conference "Modern Problems of Thermomechanics - 2021", (P. 20-19) Pidstryhach Institute for Applied Problems of Mechanics and Mathematics National Academy of Sciences of Ukraine.

[2] Bryndzia, I.V. (2011). Estimation of surface waters of Prykarpattia according to its physical and chemical parameters. Scientific notes of Ternopil National Pedagogical University. 2. 7-11.

[3] Burak, Y., Chaplya, Y. and Chernukha, O. (2006). Continual-thermodynamical models of solid solution mechanics, Kyiv: Naukova Dumka Publishers.

[4] Chaplya, E.Ya. and Chernukha, O.Yu. (2009). Mathematical modeling of diffusion processes in random and regular structures. Kyiv: Naukova Dumka Publishers.

[5] De Groot, S.R. (1951). Thermodynamics of irreversible processes, von S. R. de Groot. North-Holland Publishing Comp., Amsterdam.

[6] Gyarmati I. (1970). Non-equilibrium Thermodynamics. Field Theory and Variational Principles. Springer-Verlag, Berlin, Heidelberg, New York.

[7] Korn, G.A. and Korn, T.M. (1968). Mathematical Handbook for Scientists and Engineers: Definitions, Theorems, and Formulas for Reference and Review. McGraw-Hill.

[8] Mandrik B.M., Chomko D.F. and Chomko F.V. (2005). Hydrogeology. Kyiv University Publishing and Printing Center.

[9] Martinenko, N.A. and Pustilnikov, L.M. (1986). The finite integral transformations and their applications to investigating the systems with distributed parameters. Nauka.

[10] Prigogine, I and Mazur, P. (1953). Sur l'extension de la thermodynamique aux phénomènes irreversibles liés aux degrés de liberté internes. Physica. 19. 241-254.

[11] Safranov, T.A., Grabko, N.V., Polishchuk, A.A. and Trokhimenko G.G. (2016). Balance of mineral composition of drinking water as a factor influencing the health of the population of urban agglomerations of the North-Western Black Sea coast. Bulletin of Odessa State Ecological University. 20. 5-17.

[12] Sneddon, I.N. (1951). Fourier Transforms. McGraw-Hill Book Company.

[13] Zyuman, B.V. and Kotiy, K.V. (2013). Quality of drinking water from different sources of water supply. Scientific Bulletin of KU-EITU. New technologies. 1-2. 39-40.