Zachodniopomorski Uniwersytet Technologiczny w Szczecinie

Wydział Technologii i Inżynierii Chemicznej - Chemical Engineering (S1)

Sylabus przedmiotu Computational Fluid Dynamics:

Informacje podstawowe

Kierunek studiów Chemical Engineering
Forma studiów studia stacjonarne Poziom pierwszego stopnia
Tytuł zawodowy absolwenta inżynier
Obszary studiów nauki techniczne, studia inżynierskie
Profil ogólnoakademicki
Moduł
Przedmiot Computational Fluid Dynamics
Specjalność przedmiot wspólny
Jednostka prowadząca Instytut Inżynierii Chemicznej i Procesów Ochrony Środowiska
Nauczyciel odpowiedzialny Anna Story <Anna.Story@zut.edu.pl>
Inni nauczyciele Anna Story <Anna.Story@zut.edu.pl>
ECTS (planowane) 5,0 ECTS (formy) 5,0
Forma zaliczenia zaliczenie Język angielski
Blok obieralny 6 Grupa obieralna 1

Formy dydaktyczne

Forma dydaktycznaKODSemestrGodzinyECTSWagaZaliczenie
wykładyW5 30 2,00,50zaliczenie
laboratoriaL5 45 3,00,50zaliczenie

Wymagania wstępne

KODWymaganie wstępne
W-1Fluid dynamics
W-2Chemical engineering fundamentals
W-3Applied mathematics

Cele przedmiotu

KODCel modułu/przedmiotu
C-1This course is aimed at increasing and developing students' knowledge about fundamental principles of computational fluid dynamics, as well as improving their abilities to solving complex engineering problems with using a novel numerical approach and commercial software. Methods of creating the geometry of the body and generation the numerical mesh will be presented. Different models and methods of the simulations will be discussed and applied to solving the selected flow issues.

Treści programowe z podziałem na formy zajęć

KODTreść programowaGodziny
laboratoria
T-L-1Introduction to Computational Fluid Dynamics in ANSYS Workbench. Graphical User Interface1
T-L-2Creating the geometry in ANSYS DesignModeler8
T-L-3Generation of mesh in ANSYS Mesher6
T-L-4Introduction to CFD simulations in ANSYS Fluent. Definition of materials of the object and boundary conditions for fluid flow3
T-L-5Postprocessing in ANSYS Fluent3
T-L-6Analysis of a laminar flow in ANSYS Fluent3
T-L-7Applying turbulence model in ANSYS Fluent3
T-L-8Analysis of a heat transfer in ANSYS Fluent3
T-L-9Simulation of multiphase flow in ANSYS Fluent3
T-L-10Modeling of rotating elements in fluent (e.g. rotating wall, multiple reference frame, sliding mesh)3
T-L-11Modeling of a selected issue including creating the geometry, generating the mesh, performing the simulations and postprocessing9
45
wykłady
T-W-1Introduction to Computational Fluid Dynamics. CFD applications in chemical engineering. Advantages and disadvantages of the CFD approach2
T-W-2Fundamental theoretical principles of conservation: Reynolds transport theorem, Conservation of mass, Conservation of linear momentum: Navier-Stokes equation, Conservation of Energy, General scalar transport equation4
T-W-3Mathematical models of transport processes in fluids: turbulent flows, multiphase flows, non-Newtonian flows. Fundamentals and modeling6
T-W-4Basic structure of numerical analysis using CFD: Pre-processing, Processing, Post-processing2
T-W-5Different types of meshes - structured and unstructured grid formulation. Methods of mesh generation4
T-W-6Principles of numerical solving methods: Finite Element Method, Finite difference method, Finite volume method. Types of boundary conditions6
T-W-7The convergence of a numerical method: accuracy and stability. Role of the validation2
T-W-8Step-by-step analysis of numerical modeling of selected fluid flow cases4
30

Obciążenie pracą studenta - formy aktywności

KODForma aktywnościGodziny
laboratoria
A-L-1Classroom participation45
A-L-2Preparation of reports30
A-L-3Literature studies10
A-L-4One-on-One Teaching Consultations5
90
wykłady
A-W-1Lecture participation30
A-W-2Individual literature studies18
A-W-3Repetition of the lecture content to the written test10
A-W-4One-on-On Teaching Consultation2
60

Metody nauczania / narzędzia dydaktyczne

KODMetoda nauczania / narzędzie dydaktyczne
M-1Activating methods – lecture and didactic discussion, multimedia presentation
M-2Practical methods – Numerical analysis by solving chemical engineering problems using ANSYS software

Sposoby oceny

KODSposób oceny
S-1Ocena podsumowująca: Written final exam based on the lecture contents
S-2Ocena formująca: Mid-term exam 1 – ANSYS DesignModeler and ANSYS Mesher
S-3Ocena formująca: Written final report – ANSYS Fluent

Zamierzone efekty kształcenia - wiedza

Zamierzone efekty kształceniaOdniesienie do efektów kształcenia dla kierunku studiówOdniesienie do efektów zdefiniowanych dla obszaru kształceniaOdniesienie do efektów kształcenia prowadzących do uzyskania tytułu zawodowego inżynieraCel przedmiotuTreści programoweMetody nauczaniaSposób oceny
ChEn_1A_C17a_W01
Student possesses a general knowledge about the computational methods of solving partial differential equations of transport processes in fluids, understands mathematical characteristic of those equations. Student learns different methods of computational solution of flow issues.
ChEn_1A_W12, ChEn_1A_W07, ChEn_1A_W08, ChEn_1A_W15C-1T-W-1, T-W-3, T-W-5, T-W-2, T-W-6, T-W-7, T-W-8, T-W-4M-1S-1

Zamierzone efekty kształcenia - umiejętności

Zamierzone efekty kształceniaOdniesienie do efektów kształcenia dla kierunku studiówOdniesienie do efektów zdefiniowanych dla obszaru kształceniaOdniesienie do efektów kształcenia prowadzących do uzyskania tytułu zawodowego inżynieraCel przedmiotuTreści programoweMetody nauczaniaSposób oceny
ChEn_1A_C17a_U01
Student possesses an ability to identify geometry of the body and generation of the mesh. Student is able to using commercial CFD packages to analyze and solve flow issues, including selection of models and methods of the simulations.
ChEn_1A_U10, ChEn_1A_U09, ChEn_1A_U16, ChEn_1A_U01, ChEn_1A_U07, ChEn_1A_U08, ChEn_1A_U03, ChEn_1A_U05C-1T-L-3, T-L-11, T-L-8, T-L-7, T-L-2, T-L-6, T-L-4, T-L-10, T-L-1, T-L-9, T-L-5M-2S-2, S-3

Zamierzone efekty kształcenia - inne kompetencje społeczne i personalne

Zamierzone efekty kształceniaOdniesienie do efektów kształcenia dla kierunku studiówOdniesienie do efektów zdefiniowanych dla obszaru kształceniaOdniesienie do efektów kształcenia prowadzących do uzyskania tytułu zawodowego inżynieraCel przedmiotuTreści programoweMetody nauczaniaSposób oceny
ChEn_1A_C17a_K01
Student understands the importance of numerical simulation in industrial applications. Student has ability independently or in group to use CFD as a tool to analyze and optimize real flow problems.
ChEn_1A_K05, ChEn_1A_K04, ChEn_1A_K03, ChEn_1A_K01C-1T-L-4, T-L-11, T-L-3, T-L-2, T-L-6, T-L-1, T-L-7, T-W-4, T-W-1, T-L-5, T-W-8, T-L-8, T-L-9, T-L-10M-2, M-1S-2, S-3, S-1

Kryterium oceny - wiedza

Efekt kształceniaOcenaKryterium oceny
ChEn_1A_C17a_W01
Student possesses a general knowledge about the computational methods of solving partial differential equations of transport processes in fluids, understands mathematical characteristic of those equations. Student learns different methods of computational solution of flow issues.
2,0Unacceptable understanding of course material
3,0Serious deficiencies in understanding the core subject material
3,5Some deficiencies in understanding the subject material
4,0Some deficiencies in understanding the core subject material
4,5Some mild deficiencies in Mastery of subject material
5,0Complete Mastery of subject material

Kryterium oceny - umiejętności

Efekt kształceniaOcenaKryterium oceny
ChEn_1A_C17a_U01
Student possesses an ability to identify geometry of the body and generation of the mesh. Student is able to using commercial CFD packages to analyze and solve flow issues, including selection of models and methods of the simulations.
2,0Unacceptable understanding of course material
3,0Serious deficiencies in understanding the core subject material
3,5Some deficiencies in understanding the subject material
4,0Some deficiencies in understanding the core subject material
4,5Some mild deficiencies in Mastery of subject material
5,0Complete Mastery of subject material

Kryterium oceny - inne kompetencje społeczne i personalne

Efekt kształceniaOcenaKryterium oceny
ChEn_1A_C17a_K01
Student understands the importance of numerical simulation in industrial applications. Student has ability independently or in group to use CFD as a tool to analyze and optimize real flow problems.
2,0Unacceptable understanding of course material
3,0Serious deficiencies in understanding the core subject material
3,5Some deficiencies in understanding the subject material
4,0Some deficiencies in understanding the core subject material
4,5Some mild deficiencies in Mastery of subject material
5,0Complete Mastery of subject material

Literatura podstawowa

  1. Hirsch, C, Numerical Computation of Internal and External Flows, Butterworth Heinemann, 2007
  2. Pletcher, R. H., Tannehill, J. C., Anderson, D., Computational Fluid Mechanics and Heat Transfer, CRC Press, 2011
  3. Moin, P., Fundamentals of Engineering Numerical Analysis, Cambridge University Press, 2010

Literatura dodatkowa

  1. Ferziger, J. H., Numerical Methods for Engineering Application, Wiley, 1998
  2. Ferziger, J. H., Peric, M., Computational Methods for Fluid Dynamics, Springer, 2002

Treści programowe - laboratoria

KODTreść programowaGodziny
T-L-1Introduction to Computational Fluid Dynamics in ANSYS Workbench. Graphical User Interface1
T-L-2Creating the geometry in ANSYS DesignModeler8
T-L-3Generation of mesh in ANSYS Mesher6
T-L-4Introduction to CFD simulations in ANSYS Fluent. Definition of materials of the object and boundary conditions for fluid flow3
T-L-5Postprocessing in ANSYS Fluent3
T-L-6Analysis of a laminar flow in ANSYS Fluent3
T-L-7Applying turbulence model in ANSYS Fluent3
T-L-8Analysis of a heat transfer in ANSYS Fluent3
T-L-9Simulation of multiphase flow in ANSYS Fluent3
T-L-10Modeling of rotating elements in fluent (e.g. rotating wall, multiple reference frame, sliding mesh)3
T-L-11Modeling of a selected issue including creating the geometry, generating the mesh, performing the simulations and postprocessing9
45

Treści programowe - wykłady

KODTreść programowaGodziny
T-W-1Introduction to Computational Fluid Dynamics. CFD applications in chemical engineering. Advantages and disadvantages of the CFD approach2
T-W-2Fundamental theoretical principles of conservation: Reynolds transport theorem, Conservation of mass, Conservation of linear momentum: Navier-Stokes equation, Conservation of Energy, General scalar transport equation4
T-W-3Mathematical models of transport processes in fluids: turbulent flows, multiphase flows, non-Newtonian flows. Fundamentals and modeling6
T-W-4Basic structure of numerical analysis using CFD: Pre-processing, Processing, Post-processing2
T-W-5Different types of meshes - structured and unstructured grid formulation. Methods of mesh generation4
T-W-6Principles of numerical solving methods: Finite Element Method, Finite difference method, Finite volume method. Types of boundary conditions6
T-W-7The convergence of a numerical method: accuracy and stability. Role of the validation2
T-W-8Step-by-step analysis of numerical modeling of selected fluid flow cases4
30

Formy aktywności - laboratoria

KODForma aktywnościGodziny
A-L-1Classroom participation45
A-L-2Preparation of reports30
A-L-3Literature studies10
A-L-4One-on-One Teaching Consultations5
90
(*) 1 punkt ECTS, odpowiada około 30 godzinom aktywności studenta

Formy aktywności - wykłady

KODForma aktywnościGodziny
A-W-1Lecture participation30
A-W-2Individual literature studies18
A-W-3Repetition of the lecture content to the written test10
A-W-4One-on-On Teaching Consultation2
60
(*) 1 punkt ECTS, odpowiada około 30 godzinom aktywności studenta
PoleKODZnaczenie kodu
Zamierzone efekty kształceniaChEn_1A_C17a_W01Student possesses a general knowledge about the computational methods of solving partial differential equations of transport processes in fluids, understands mathematical characteristic of those equations. Student learns different methods of computational solution of flow issues.
Odniesienie do efektów kształcenia dla kierunku studiówChEn_1A_W12Has detailed knowledge related to selected issues within the scope of chemical engineering and technology.
ChEn_1A_W07Has systematic, theory-based general knowledge within the scope of chemical engineering and technology.
ChEn_1A_W08Has systematic, theory-based knowledge of the key issues in chemical engineering and technology connected with the unit operations and processes.
ChEn_1A_W15Knows basic methods, techniques, tools and materials used for solving simple engineering tasks within the scope of chemical engineering and technology.
Cel przedmiotuC-1This course is aimed at increasing and developing students' knowledge about fundamental principles of computational fluid dynamics, as well as improving their abilities to solving complex engineering problems with using a novel numerical approach and commercial software. Methods of creating the geometry of the body and generation the numerical mesh will be presented. Different models and methods of the simulations will be discussed and applied to solving the selected flow issues.
Treści programoweT-W-1Introduction to Computational Fluid Dynamics. CFD applications in chemical engineering. Advantages and disadvantages of the CFD approach
T-W-3Mathematical models of transport processes in fluids: turbulent flows, multiphase flows, non-Newtonian flows. Fundamentals and modeling
T-W-5Different types of meshes - structured and unstructured grid formulation. Methods of mesh generation
T-W-2Fundamental theoretical principles of conservation: Reynolds transport theorem, Conservation of mass, Conservation of linear momentum: Navier-Stokes equation, Conservation of Energy, General scalar transport equation
T-W-6Principles of numerical solving methods: Finite Element Method, Finite difference method, Finite volume method. Types of boundary conditions
T-W-7The convergence of a numerical method: accuracy and stability. Role of the validation
T-W-8Step-by-step analysis of numerical modeling of selected fluid flow cases
T-W-4Basic structure of numerical analysis using CFD: Pre-processing, Processing, Post-processing
Metody nauczaniaM-1Activating methods – lecture and didactic discussion, multimedia presentation
Sposób ocenyS-1Ocena podsumowująca: Written final exam based on the lecture contents
Kryteria ocenyOcenaKryterium oceny
2,0Unacceptable understanding of course material
3,0Serious deficiencies in understanding the core subject material
3,5Some deficiencies in understanding the subject material
4,0Some deficiencies in understanding the core subject material
4,5Some mild deficiencies in Mastery of subject material
5,0Complete Mastery of subject material
PoleKODZnaczenie kodu
Zamierzone efekty kształceniaChEn_1A_C17a_U01Student possesses an ability to identify geometry of the body and generation of the mesh. Student is able to using commercial CFD packages to analyze and solve flow issues, including selection of models and methods of the simulations.
Odniesienie do efektów kształcenia dla kierunku studiówChEn_1A_U10Based on general knowledge, is able to explain basic phenomena connected with significant processes in chemical engineering and technology.
ChEn_1A_U09Is able to use analytic, numerical and experimental methods to formulate and solve engineering tasks.
ChEn_1A_U16Is able to assess the usefulness of routine methods and tools used for solving a simple engineering task of practical nature characteristic for chemical engineering and technology as well as select and use a proper performance method and tools.
ChEn_1A_U01Is able to obtain information from literature, data bases and other sources related to chemical engineering and technology as well as related areas; is able to integrate the obtained information, interpret it, draw proper conclusions and formulate opinions with their justification.
ChEn_1A_U07Is able to use computer programs supporting the accomplishment of basic engineering tasks.
ChEn_1A_U08Is able to plan and conduct process experiments, including measurements and computer simulations, as well as to interpret the obtained results and draw conclusions.
ChEn_1A_U03Is able to prepare, in English or another foreign language, a well-documented study of problems within the scope of chemical and process engineering; is able to develop documentation concerning the accomplishment of an engineering task.
ChEn_1A_U05Has the ability to learn, e.g. to raise professional competences.
Cel przedmiotuC-1This course is aimed at increasing and developing students' knowledge about fundamental principles of computational fluid dynamics, as well as improving their abilities to solving complex engineering problems with using a novel numerical approach and commercial software. Methods of creating the geometry of the body and generation the numerical mesh will be presented. Different models and methods of the simulations will be discussed and applied to solving the selected flow issues.
Treści programoweT-L-3Generation of mesh in ANSYS Mesher
T-L-11Modeling of a selected issue including creating the geometry, generating the mesh, performing the simulations and postprocessing
T-L-8Analysis of a heat transfer in ANSYS Fluent
T-L-7Applying turbulence model in ANSYS Fluent
T-L-2Creating the geometry in ANSYS DesignModeler
T-L-6Analysis of a laminar flow in ANSYS Fluent
T-L-4Introduction to CFD simulations in ANSYS Fluent. Definition of materials of the object and boundary conditions for fluid flow
T-L-10Modeling of rotating elements in fluent (e.g. rotating wall, multiple reference frame, sliding mesh)
T-L-1Introduction to Computational Fluid Dynamics in ANSYS Workbench. Graphical User Interface
T-L-9Simulation of multiphase flow in ANSYS Fluent
T-L-5Postprocessing in ANSYS Fluent
Metody nauczaniaM-2Practical methods – Numerical analysis by solving chemical engineering problems using ANSYS software
Sposób ocenyS-2Ocena formująca: Mid-term exam 1 – ANSYS DesignModeler and ANSYS Mesher
S-3Ocena formująca: Written final report – ANSYS Fluent
Kryteria ocenyOcenaKryterium oceny
2,0Unacceptable understanding of course material
3,0Serious deficiencies in understanding the core subject material
3,5Some deficiencies in understanding the subject material
4,0Some deficiencies in understanding the core subject material
4,5Some mild deficiencies in Mastery of subject material
5,0Complete Mastery of subject material
PoleKODZnaczenie kodu
Zamierzone efekty kształceniaChEn_1A_C17a_K01Student understands the importance of numerical simulation in industrial applications. Student has ability independently or in group to use CFD as a tool to analyze and optimize real flow problems.
Odniesienie do efektów kształcenia dla kierunku studiówChEn_1A_K05Is able to manage his/her own professional development, taking decisions and solving problems, including interpersonal ones connected with job performance.
ChEn_1A_K04Is able to determine the priorities used for performance of the tasks of his/her own or other team members in order to achieve the goal set.
ChEn_1A_K03Is able to cooperate and work in a group. Is able to perform the function of a team leader; is able to estimate the time necessary to accomplish the assigned task.
ChEn_1A_K01Understands the need of learning and raising professional and personal competences, motivating other colleagues.
Cel przedmiotuC-1This course is aimed at increasing and developing students' knowledge about fundamental principles of computational fluid dynamics, as well as improving their abilities to solving complex engineering problems with using a novel numerical approach and commercial software. Methods of creating the geometry of the body and generation the numerical mesh will be presented. Different models and methods of the simulations will be discussed and applied to solving the selected flow issues.
Treści programoweT-L-4Introduction to CFD simulations in ANSYS Fluent. Definition of materials of the object and boundary conditions for fluid flow
T-L-11Modeling of a selected issue including creating the geometry, generating the mesh, performing the simulations and postprocessing
T-L-3Generation of mesh in ANSYS Mesher
T-L-2Creating the geometry in ANSYS DesignModeler
T-L-6Analysis of a laminar flow in ANSYS Fluent
T-L-1Introduction to Computational Fluid Dynamics in ANSYS Workbench. Graphical User Interface
T-L-7Applying turbulence model in ANSYS Fluent
T-W-4Basic structure of numerical analysis using CFD: Pre-processing, Processing, Post-processing
T-W-1Introduction to Computational Fluid Dynamics. CFD applications in chemical engineering. Advantages and disadvantages of the CFD approach
T-L-5Postprocessing in ANSYS Fluent
T-W-8Step-by-step analysis of numerical modeling of selected fluid flow cases
T-L-8Analysis of a heat transfer in ANSYS Fluent
T-L-9Simulation of multiphase flow in ANSYS Fluent
T-L-10Modeling of rotating elements in fluent (e.g. rotating wall, multiple reference frame, sliding mesh)
Metody nauczaniaM-2Practical methods – Numerical analysis by solving chemical engineering problems using ANSYS software
M-1Activating methods – lecture and didactic discussion, multimedia presentation
Sposób ocenyS-2Ocena formująca: Mid-term exam 1 – ANSYS DesignModeler and ANSYS Mesher
S-3Ocena formująca: Written final report – ANSYS Fluent
S-1Ocena podsumowująca: Written final exam based on the lecture contents
Kryteria ocenyOcenaKryterium oceny
2,0Unacceptable understanding of course material
3,0Serious deficiencies in understanding the core subject material
3,5Some deficiencies in understanding the subject material
4,0Some deficiencies in understanding the core subject material
4,5Some mild deficiencies in Mastery of subject material
5,0Complete Mastery of subject material