Highly productive methods to model the adsorption with feedback in heterogeneous multicomponent nanoporous media / Petryk, / Boyko, / Khimich, / Petryk. (2022)
Ukrainian

English  Cybernetics and Systems Analysis   /     Issue (2022, 58 (5))

Petryk M.R., Boyko I.V., Khimich O.M., Petryk O.Y.
Highly productive methods to model the adsorption with feedback in heterogeneous multicomponent nanoporous media

The authors developed new high-performance analytical methods for modeling diffused gas concentration fields in intra- and interparticle spaces in heterogeneous n-component nanoporous media using the Heaviside operational method and Cauchy influence matrices for heterogeneous adsorption boundary-value problems for systems of partial differential equations with feedback. © 2022, Springer Science+Business Media, LLC, part of Springer Nature.

Keywords: adsorption and diffusion of gases, Cauchy influence matrices, Heaviside operational method, heterogeneous nanoporous media, Langmuir equilibrium condition, mathematical modeling, Boundary value problems, Adsorption and diffusion of gas, Cauchy influence matrix, Equilibrium conditions, Heaviside, Heaviside operational method, Heterogeneous nanoporous medium, Influence matrix, Langmuir equilibrium condition, Langmuirs, Mathematical modeling, Nano-porous media, Operational methods, Adsorption


Cite:
Petryk M.R., Boyko I.V., Khimich O.M., Petryk O.Y. (2022). Highly productive methods to model the adsorption with feedback in heterogeneous multicomponent nanoporous media. Cybernetics and Systems Analysis, 58 (5), 129–148. doi: https://doi.org/10.1007/s10559-022-00512-8 http://jnas.nbuv.gov.ua/article/UJRN-0001348617 [In Ukrainian].


 

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