SRL «Multiphysical modeling of structures, devices and processes» («MMSDP»)»

Purpose: Creation of an algorithm and development of multiphysical models of structures, devices and processes.

Scientific directions of research:

• Analysis of individual and interrelated physical processes, creation and administration of models and applications using the universal numerical modeling environment COMSOL Multiphysics;
• Application of COMSOL Multiphysics expansion modules, which contain special functions for modeling electromagnetic and acoustic fields, calculating the stress-strain state of solids, numerical analysis of hydrodynamic, heat exchange and chemical processes;
• A mathematical transformation that adapts the system of finite element equations to the requirements of an iterative solver, which allows the use of preconfigured combinations of multiphysical interfaces and takes into account physical phenomena not included in the consideration initially;
• Studies of ordinary flow in a porous medium based on Darcy's law, analysis of non-Darcy flow and multiphysical flow analysis, including heat transfer effects, applications in chemical production, etc.

Multiphysical modeling in COMSOL Multiphysics software is particularly useful because nanoscale phenomena and complex systems require the analysis of various physical processes and the use of a complete set of modeling tools. COMSOL Multiphysics software is used in numerical modeling to solve various technical and research problems, including in relation to educational activities. Today, the COMSOL Multiphysics package is one of the market leaders in software for numerical modeling of interdisciplinary (multiphysical) tasks and is increasingly being used not only in research laboratories and training centers, but also in the industry.

In 2024, the Research Institute for "Multiphysical Modeling of Structures, Devices and Processes" was created, equipped with modern high-speed computer equipment consisting of 8 electronic computers and 2 servers, and licensed COMSOL Multiphysics software was purchased at the expense of research grant projects. In the laboratory, scientists are developing innovative, cost—effective and environmentally friendly solutions from the initial concept to the final product - this is not an easy task for both managers and engineers. With the help of multiphysical modeling, scientists have the opportunity to simulate any physical phenomena and describe their relationship. They create accurate numerical models at the edge of technological capabilities, while reducing the need for physical prototypes.  This enables users to conduct virtual trials of new ideas through numerical simulation.

In 2022-23, 9 articles were published in the Scopus database (including 1 article in the journal Q1, percentile 95 and 1 article in the journal Q2, percentile 75).

In 2021-23, 2 projects were completed in the amount of 114,682,921 tenge under the grant financing program for scientific projects on the following topics:

 1. AP09261098 "Development of an information and analytical control system for electrochemical corrosion protection of main pipelines" in the amount of 53,452,921 tenge;

 2. AP09260365 "Application of integrated technologies to reduce environmental pollution and increase energy efficiency of industrial territorial complexes" in the amount of 61,230,000 tenge.

1 Khussanov, A., Jamalova, Z. I., Zholshybek, A., Kaldybayeva, B. M., Dosmakanbetova, A. A., & Zhumadullayev, D. K. (2024). CFD Modeling of the Interaction of a Gas Flow with a Fixed Layer of Activated Carbon Fibers Obtained from Cotton Stalks. International Review of Mechanical Engineering-IREME, 18(6), 304. https://doi.org/10.15866/ireme.v18i6.25331

1 А. Жолшыбек, А.Е. Хусанов Ет өңдеу комбинатының ағынды суларын тазалаудың интеграцияланған технологиясы/ Механика және технологиялар / Ғылыми журнал. – 2024. – №4(86). – Б.282-292. https://doi.org/10.55956/IOOJ5201. 

2 D.M. Kenzhebekov, A.Ye. Khussanov, I. Iristaev1, A. Zholshybek. MULTIPHYSICAL MODELING OF A PIPE-IN-PIPE HEAT EXCHANGER WITH A FLOW INTENSIFIER IN THE FORM OF A TWISTED PROFILED STRIP //NEWS OF THE NATIONAL ACADEMY OF SCIENCES OF THE REPUBLIC OF KAZAKHSTAN SERIES CHEMISTRY AND TECHNOLOGY. Vol 4. Nu. 461 (2024), 111–128. https://doi.org/10.32014/2024.2518-1491.254  

3 Волненко, А.А. Расчет порозности и эквивалентного диаметра насадки тепломассообменного аппарата с регулярной вращающейся насадкой [Текст] / A.А. Волненко, А. Сериков, А.А. Абжапбаров, А.Э. Левданский, Д.К. Жумадуллаев // Механика и технологии / Научный журнал. – 2024. – №2(84). – Б.289-298. https://doi.org/10.55956/IAWS4277

4 Kenzhebekov D.M., Khussanov А.Е., Iristaev I., Zholshybek А. Generation and configurationof a heat exchanger model grid for CFD modeling in comsol multiphysics/ Mechanics and Technology / Scientific journal. – 2025. – No.1(87). – P.279-285. https://doi.org/10.55956/PTUL4611  

1 Хусанов А.Е., Хусанов Ж.Е. Информационная аналитическая система контроля и управления электрохимической защитой от коррозии магистральных трубопроводов. - Шымкент: Южно-Казахстанский университет им. М.О.Ауэзова, 2024. – 290 с.

2 Хусанов А.Е., Джанабаев Д.Ж. Фильтрационная сушка материалов растительного происхождения волокнистой структуры. - Шымкент: Шымкентский университет, 2024. – 258 с. 

 

1 Патент РК №36995 по заявке №2023/0587.1 от 07.09.2023г. МПК B01D 53/20(2006.01), B01D 47/14 (2006.01). Аппарат с насадкой для тепломассообмена и пылеулавливания / Волненко А.А., Шамбилова А.С., Исмаилов Б.Р., Абжапбаров А.А., Корганбаев Б.Н., Нурымбетов Р.А. Опубл. 18.10.24, бюл. №42