Modeling of the Processes and Apparatus of the Chemical Technology

Major: Chemical Technology and Engineering
Code of subject: 7.161.10.O.131
Credits: 4.00
Department: Chemical Engineering
Lecturer: PhD, Senior Research Fellow, Associate Professor Ivashchuk Oleksandr Sergiyovych
Semester: 2 семестр
Mode of study: денна
Мета вивчення дисципліни: The purpose of the course for students is mastering the basic approaches to computer modeling of chemical-technological processes and chemical technology devices, in-depth study and improvement of professional training of masters in the field of engineering analysis, and expansion of practical skills in working with the modern software complex of the SOLIDWORKS automated design system and its SOLIDWORKS application module Flow Simulation. Special attention is paid to teaching students the methods of modeling gas-hydrodynamics of equipment taking into account the specific requirements of chemical production, building computer models of the main processes of chemical technology, their verification with experimental data and solving optimization problems.
Завдання: The study of an educational discipline involves the formation of competencies in students of education: Integral competence (INT): Ability to solve complex specialized tasks and problems of chemical technologies and engineering during professional activity or in the process of learning, which involves conducting research and/or implementing innovations and characterized by complexity and uncertainty of conditions and requirements. general competences: ZK3. Ability to search, process and analyze information from various sources. professional competences: FK1. Ability to research, classify and analyze quality indicators of chemical products, technological processes and equipment of chemical production. FKS 10.1. The ability to use professional knowledge and practical skills in the field of computational mathematics (mathematical statistics) for statistical processing of experimental data and mathematical modeling of chemical and chemical-technological processes and design of chemical technology equipment, in particular using CAD. FKS 10.2. The ability to perform computer modeling and simulation of the operation of technological equipment for the development and design of chemical equipment, as well as modeling of the main processes of chemical technology, their analysis and optimization.
Learning outcomes: As a result of the study of the academic discipline, the student must be able to demonstrate the following learning outcomes: PR 1. Critically interpret scientific concepts and modern theories of chemical processes and chemical engineering, apply them in conducting scientific research and creating innovations. PR 4. To evaluate the technical and economic characteristics of the results of scientific research, research and development, technologies and equipment of chemical industries. PR 7. Search scientific and technical literature, patents, databases, and other sources for the necessary information on chemical technology, processes and equipment for the production of chemical substances and materials based on them, systems
Required prior and related subjects: Physics Higher mathematics Physical chemistry Processes and devices of chemical technology Machines and devices of chemical industries Basics of aided design Numerical modeling of hydromechanical processes Numerical modeling of mass transfer processes Numerical modeling of chemical reactors
Summary of the subject: The discipline allows to master the basics of computer modeling, verification, optimization of chemical-technological processes and chemical technology devices using the SOLIDWORKS automated design and engineering analysis software complex and the SOLIDWORKS Flow Simulation module.
Опис: Basic capabilities of Solidworks Flow Simulation New Project Setup Wizard. Engineering database in Solidworks Flow Simulation. Entry of atypical environments into the engineering database Project settings: calculation area, flows, boundary conditions, targets, grid. Solver. Output of project results Parametric modeling in Solidworks Flow Simulation Variable setting of the grid of the calculation area Calculation of the external problem of hydrodynamics in Solidworks Flow Simulation. The use of equations in the selection of project goals Modeling mixing of fluid flows in Solidworks Flow Simulation Investigating the effectiveness of particle trapping in SolidWorks Flow Simulation Investigation of porous media in SolidWorks Flow Simulation
Assessment methods and criteria: Examination control, oral survey, current control, performance of practical, laboratory work.
Критерії оцінювання результатів навчання: Current control 30 Examination control 70 Total for discipline 100
Recommended books: Basic 1. Flow Simulation 2022 Technical Reference. 158 p. 2. Tutorials Solidworks Flow Simulation 2022. 478 p. Auxiliary 1. Ivashchuk O. S. Fundamentals of engineering analysis and preparation of production of chemical equipment. part 1: training manual / O. S. Ivashchuk. – Lviv: Publishing House of Lviv Polytechnic, 2020. – 140 p. – ISBN 978-966-941-562-2.

Modeling of the Processes and Apparatus of the Chemical Technology (курсовий проєкт)

Major: Chemical Technology and Engineering
Code of subject: 7.161.10.O.132
Credits: 3.00
Department: Chemical Engineering
Lecturer: PhD, Associate Professor Havryliv Roman Ivanovych PhD, Associate Professor Kostiv Iryna Svitozarivna
Semester: 2 семестр
Mode of study: денна
Мета вивчення дисципліни: The purpose of teaching this discipline is to familiarize with new approaches of computer modeling of chemical and technological processes, in-depth study and improvement of professional training in the field of conducting theoretical research and expansion of practical skills in working with modern software complexes of the automated design system - ANSYS, SOLIDWORKS. Special attention is paid to taking into account the specific requirements of chemical production, building computer models of the main processes of chemical technology, their verification with experimental data.
Завдання: The study of an educational discipline involves the formation of competencies in students of education: Integral competence (INT): The ability to solve complex specialized tasks and problems of chemical technologies and engineering during professional activity or in the process of learning, which involves conducting research and/or implementing innovations and characterized by complexity and uncertainty of conditions and requirements. general competences: ZK1. Ability to generate new ideas (creativity) ZK2. Ability to apply knowledge in practical situations. ZK3. Ability to search, process and analyze information from various sources. professional competences: FK1. The ability to research, classify and analyze indicators of the quality of chemical products, technological processes and equipment of chemical production. FC3. The ability to use the results of scientific research and research and development for the improvement of existing and/or development of new technologies and equipment of chemical industries. FK4. The ability to use modern special scientific equipment and software when conducting experimental research and conducting research and development in the field of chemical technologies and engineering. FCS 10.1. The ability to use professional knowledge and practical skills in the field of computational mathematics (mathematical statistics) for statistical processing of experimental data and mathematical modeling of chemical and chemical-technological processes and design of chemical technology equipment, in particular using CAD. FCS 10.2. The ability to perform computer modeling and simulation of the operation of technological equipment for the development and design of chemical equipment, as well as modeling of the main processes of chemical technology, their analysis and optimization.
Learning outcomes: As a result of the study of the academic discipline, the student must be able to demonstrate the following learning outcomes: PR 1. Critically interpret scientific concepts and modern theories of chemical processes and chemical engineering, apply them in conducting scientific research and creating innovations. PR 4. To evaluate the technical and economic characteristics of the results of scientific research, research and development, technologies and equipment of chemical industries. PR 5. Communicate freely in national and foreign languages ??orally and in writing to discuss and present the results of professional activities, research and projects. PR 6. Develop and implement projects in the field of chemical technologies and related interdisciplinary projects taking into account social, economic, environmental and legal aspects. PR 7. Search scientific and technical literature, patents, databases, and other sources for the necessary information on chemical technology, processes and equipment for the production of chemical substances and materials based on them, systematize, and analyze and evaluate the relevant information. KOM 1. Clear and unambiguous presentation of own knowledge, conclusions and arguments to specialists and non-specialists, in particular, to persons studying AiV 1. Management of work or learning processes that are complex, unpredictable and require new strategic approaches. AiB 3. Ability to continue learning with a high degree of autonomy.
Required prior and related subjects: • Processes and apparatuses of chemical technology • Mathematical modeling CTE • Basics of the aided equipment design for chemical production
Summary of the subject: Implementation of a course project
Опис: The types of analyzes in ANSYS. Using the finite element method elements for solving problems of hydro- and gas dynamics in ANSYS FLUENT. Overview and classification of problems of hydro- and gas dynamics, which are solved in ANSYS FLUENT. Using the finite element method for thermal analysis processes in chemical technology. An overview of the models implemented in the ANSYS FLUENT software complex. Using the finite element method for process analysis involving multiphase flows in ANSYS FLUENT. Using the finite element method for research mass transfer and reaction processes in ANSYS FLUENT. Creation of a project of a numerical experiment in software ANSYS modules. Basics of work in ANSYS WORKBENCH. Work with the project in ANSYS Workbench. Creation of geometric models of the researched object in Design Modeler. Creating a mesh of finite elements. Structured and unstructured grids. Work in the Mesher software module. Preparation and setup of a numerical experiment in ANSYS FLUENT. Choice of physical models. Adjustment of working conditions, properties of materials, compounds and flows. Setting initial and boundary conditions modeling. Choosing and setting up a solver in the Fluent program, use of explicit and implicit discretization schemes. Processing and visualization of simulation results.
Assessment methods and criteria: A course project - 100 %
Критерії оцінювання результатів навчання: A course project - 100 %
Recommended books: 1. The official website of the Ansys program: http://ansys.com 2. Tickoo Sham. Solidworks 2016 for Designers. / 14th Edition. — CADCIM Technologies, 2016. — 1825 p. — ISBN: 978-1-942689-18-8. 3. Official website of the SolidWorks program: http://solidworks.com 4. CFD modeling of heat transfer and hydrodynamics processes using the software complex: monograph / O. V. Baranyuk, M. V. Vorobyov, A. Yu. Rachynskyi. – Kyiv: KPI named after Igor Sikorskyi, Polytechnic Publishing House, 2023. - 164 p.