Mathematical modeling of physical and chemical processes in porous media in solving the problems of nanocomposite materials and water-filling
Автор: Kuzina V.V., Samchenko S.V., Kozlova I.V., Koshev A.N.
Журнал: Нанотехнологии в строительстве: научный интернет-журнал @nanobuild
Рубрика: Строительное материаловедение
Статья в выпуске: 4 т.15, 2023 года.
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Introduction. The complexity and laboriousness of system studies of physical and chemical processes in the volume and at the interface of the porous medium determines the need to apply mathematical modeling. This allows not only to identify and study the determining physical and chemical processes in a porous medium, but also to solve the problems of optimization and optimal control of processes and regimes by selecting the most favorable conditions. Methods and Materials. The method of mathematical modeling is used to study the processes, including the creation of composite and nanocomposite materials, as well as the moistening and moisture absorption in porous materials. In this context, the porous material is treated as a pseudohomogeneous medium with averaged physical and technological parameters. Results. The mathematical models of physical and chemical processes in the porous medium have been developed, the boundary conditions have been formulated, physical and effective constants have been determined. The processes in porous medium during metallization of carbon-graphite fibrous material, moistening of compacted textile material by an air flow, and moisture absorption by porous construction materials have been studied. Discussion. The adequacy of mathematical models to real physical and chemical processes is discussed. The results of calculations obtained by modeling equations implemented in the form of computer computational algorithms and experiments are compared. Conclusions. The effectiveness of the method for studying physical-chemical processes in a porous medium and for calculating optimal values of technological parameters has been established. ACKNOWLEDGEMENTS. The research was carried out with the financial support of Moscow State University of Civil Engineering. (Contract No. PSUAC/K-23 dated 05.06.2023) within the 2023 competition for basic and applied research (R&D) by scientific teams of organizations - members and strategic partners of the Industry Consortium "Construction and Architecture" in order to implement the Development Program of Moscow State University of Civil Engineering and Architecture for 2021-2030 as part of the Strategic Academic Leadership the "Priority-2030".
Porous media, creation of composite and nanocomposite materials, mathematical modeling, moisture absorption and humidification processes
Короткий адрес: https://sciup.org/142238803
IDR: 142238803 | DOI: 10.15828/2075-8545-2023-15-5-298-309