Curriculum
scheda docente
materiale didattico
Compressible potential flows, linear theory and supersonic thin qirfoil. Characteristic method (in 2D and steady).
Boundary layer theory: Falkner-Skan solutions and integral methods.
Fundamentals of Signal theory, Fourier series and Fourier transform. Fundamentals of the theory of probability and statistics, correlation functions and Power Spectral Density.
Turbulence: general equations for incompressible flows, modelling, Kolmogorov theory, turbulent boundary layer.
Computational Fluid Dynamics (CFD): discretization of the governing equations using Finite Difference method and Finite Volumes; Application of industrial codes.
Further references are the following:
- Anderson, Jr. J.D. , Fundamentals of Aerodynamics, 2nd Editino, McGraw Hill, 1991.
Programma
Potential flows in 2D and 3D, Green's theorem and Green's function, BEM methods.Compressible potential flows, linear theory and supersonic thin qirfoil. Characteristic method (in 2D and steady).
Boundary layer theory: Falkner-Skan solutions and integral methods.
Fundamentals of Signal theory, Fourier series and Fourier transform. Fundamentals of the theory of probability and statistics, correlation functions and Power Spectral Density.
Turbulence: general equations for incompressible flows, modelling, Kolmogorov theory, turbulent boundary layer.
Computational Fluid Dynamics (CFD): discretization of the governing equations using Finite Difference method and Finite Volumes; Application of industrial codes.
Testi Adottati
- Notes distributed by the teacherFurther references are the following:
- Anderson, Jr. J.D. , Fundamentals of Aerodynamics, 2nd Editino, McGraw Hill, 1991.
Bibliografia Di Riferimento
Anderson, Jr. J.D. , Fundamentals of Aerodynamics, 2nd Edition, McGraw Hill, 1991.Modalità Frequenza
It is strongly recommended to attend the course in view of the complexity of the treated arguments.Modalità Valutazione
Oral examination. The examination dates will be communicated appropriately and published on the web site. Several possibilities will be given to the students to fix the exam starting from the first available date at the beginning of the exam session.
scheda docente
materiale didattico
Programma
Fundamentals of Fluid Dynamics. Theory of potential flows and Boundary Element method. Basic concepts on the generation of lift for 2D and 3D bodies, the induced drag and the lifting line theory. Basic concepts of signal analysis, probability and statistics. Fundamental of Turbulence and RANS methodologies for CFD. Procedures for the discretization of the governing equations using finite difference and finite volume approach. Applications using an industrial code.Testi Adottati
Notes distributed by the teacher.Bibliografia Di Riferimento
[1] Anderson, J.D.Jr, “Computational Fluid Dynamics – The Basics with Applications”, McGraw-Hill, 1995. [2] An Introduction to Computational Fluid Dynamics: The Finite Volume Method, Henk Kaarle Versteeg, Weeratunge Malalasekera, Pearson Education. [3] Ferziger, J.H. and M. Perić, “Computational Methods for Fluid Dynamic”, Springer, 2002.Modalità Erogazione
The course is carried out through traditional lessons given in the room and completed by suited laboratory sessions. Educational material will be rendered available through the web site (including the Moodle platform). During the course, seminars from industry experts will be given. Visits to research centers and companies close to the city area, are also planned. The number and location of the visits will be decided during the course along with possible organization constrain. In case of restrictions related to the persistence of the COVID-19 emergency, the procedures that will be adopted will be in line with the general provisions and will be based on the use of the Moodle platform as well as of other systems suited for the management of lessons and exams in remote mode (e.g. the MS Teams platform).Modalità Frequenza
Attending the course is not mandatory but highly recomended.Modalità Valutazione
Assessment of learning occurs through a discussion of the assigned project in class before the end of lessons.
scheda docente
materiale didattico
Compressible potential flows, linear theory and supersonic thin qirfoil. Characteristic method (in 2D and steady).
Boundary layer theory: Falkner-Skan solutions and integral methods.
Fundamentals of Signal theory, Fourier series and Fourier transform. Fundamentals of the theory of probability and statistics, correlation functions and Power Spectral Density.
Turbulence: general equations for incompressible flows, modelling, Kolmogorov theory, turbulent boundary layer.
Computational Fluid Dynamics (CFD): discretization of the governing equations using Finite Difference method and Finite Volumes; Application of industrial codes.
Further references are the following:
- Anderson, Jr. J.D. , Fundamentals of Aerodynamics, 2nd Editino, McGraw Hill, 1991.
Programma
Potential flows in 2D and 3D, Green's theorem and Green's function, BEM methods.Compressible potential flows, linear theory and supersonic thin qirfoil. Characteristic method (in 2D and steady).
Boundary layer theory: Falkner-Skan solutions and integral methods.
Fundamentals of Signal theory, Fourier series and Fourier transform. Fundamentals of the theory of probability and statistics, correlation functions and Power Spectral Density.
Turbulence: general equations for incompressible flows, modelling, Kolmogorov theory, turbulent boundary layer.
Computational Fluid Dynamics (CFD): discretization of the governing equations using Finite Difference method and Finite Volumes; Application of industrial codes.
Testi Adottati
- Notes distributed by the teacherFurther references are the following:
- Anderson, Jr. J.D. , Fundamentals of Aerodynamics, 2nd Editino, McGraw Hill, 1991.
Bibliografia Di Riferimento
Anderson, Jr. J.D. , Fundamentals of Aerodynamics, 2nd Edition, McGraw Hill, 1991.Modalità Frequenza
It is strongly recommended to attend the course in view of the complexity of the treated arguments.Modalità Valutazione
Oral examination. The examination dates will be communicated appropriately and published on the web site. Several possibilities will be given to the students to fix the exam starting from the first available date at the beginning of the exam session.
scheda docente
materiale didattico
Programma
Fundamentals of Fluid Dynamics. Theory of potential flows and Boundary Element method. Basic concepts on the generation of lift for 2D and 3D bodies, the induced drag and the lifting line theory. Basic concepts of signal analysis, probability and statistics. Fundamental of Turbulence and RANS methodologies for CFD. Procedures for the discretization of the governing equations using finite difference and finite volume approach. Applications using an industrial code.Testi Adottati
Notes distributed by the teacher.Bibliografia Di Riferimento
[1] Anderson, J.D.Jr, “Computational Fluid Dynamics – The Basics with Applications”, McGraw-Hill, 1995. [2] An Introduction to Computational Fluid Dynamics: The Finite Volume Method, Henk Kaarle Versteeg, Weeratunge Malalasekera, Pearson Education. [3] Ferziger, J.H. and M. Perić, “Computational Methods for Fluid Dynamic”, Springer, 2002.Modalità Erogazione
The course is carried out through traditional lessons given in the room and completed by suited laboratory sessions. Educational material will be rendered available through the web site (including the Moodle platform). During the course, seminars from industry experts will be given. Visits to research centers and companies close to the city area, are also planned. The number and location of the visits will be decided during the course along with possible organization constrain. In case of restrictions related to the persistence of the COVID-19 emergency, the procedures that will be adopted will be in line with the general provisions and will be based on the use of the Moodle platform as well as of other systems suited for the management of lessons and exams in remote mode (e.g. the MS Teams platform).Modalità Frequenza
Attending the course is not mandatory but highly recomended.Modalità Valutazione
Assessment of learning occurs through a discussion of the assigned project in class before the end of lessons.