CODE 60487 ACADEMIC YEAR 2018/2019 CREDITS 6 cfu anno 2 INGEGNERIA MECCANICA - ENERGIA E AERONAUTICA 9270 (LM-33) - GENOVA SCIENTIFIC DISCIPLINARY SECTOR ING-IND/06 LANGUAGE Italian TEACHING LOCATION GENOVA SEMESTER 2° Semester TEACHING MATERIALS AULAWEB AIMS AND CONTENT LEARNING OUTCOMES The aim of the course is to provide key notions on hydrodynamics stability and transition to turbulence (mainly for the case of boundary layer flows) . The fully developed turbulence regime will be investigated also exploiting the Reynolds averaged Navier-Stokes equations. Basic notions of numerical modelling will be also provided. AIMS AND LEARNING OUTCOMES The course aims to introduce the key concepts of hydrodynamic stability and transition to turbulence. The study of turbulence will also be based on the Reynolds Averaged Navier-Stokes Equations (RANS) and Large-eddy simulation (LES). The CFD approach will also be introduced with special emphasis on the open source model, OpenFOAM, of which we will show the main characteristics via a specific training in the informatics lab. TEACHING METHODS The course is based on 60 hours of frontal lectures, 40 dedicated to theory and 20 to exercises to fix key theoretical aspects. There will be one midterm written examination and a final written examination followed by an oral examination in the case both written examinations were successful.Instructors can be contacted by the students for questions and clarifications during office hours during the semester or by arrangement. SYLLABUS/CONTENT A brief overview of basic concepts of fluid mechanics; Inviscid and viscous stability: Rayleigh, Orr-Sommerfeld and Squires equations Transition to turbulence through the dynamical system approach; Fully developed turbulence (FDT): statistical description; Proliferation of degrees of freedom in FDT: need for coarse-grained models of turbulence; RANS, LES and DNS strategies; Quick tour on numerical issues in turbulence. The Open Source CFD model OpenFoam: generalities and exercises in the informatics room. RECOMMENDED READING/BIBLIOGRAPHY P.J. Schmid & D.S. Henningson, Stability and Transition in Shear Flows, Springer, 2001 U. Frisch, Turbulence, Cambridge Univ. Press. 1995; E. Ott, Chaos in Dynamical Systems, Cambridge Univ. Press. 1993; T. Bohr et al, Dynamical system approach to turbulence, Cambridge Univ. Press. 1998; J. M. McDonough, Introductory lectures on Turbulence, University of Kentucky, 2004 TEACHERS AND EXAM BOARD ANDREA MAZZINO Ricevimento: To be arranged via email communication. Exam Board ANDREA MAZZINO (President) ALESSANDRO BOTTARO JOEL ENRIQUE GUERRERO RIVAS JAN OSCAR PRALITS LESSONS Class schedule TURBULENCE AND CFD MODELS EXAMS EXAM DESCRIPTION After the semester, examinations will consist of a written examination plus an oral examination. ASSESSMENT METHODS Written exam (mandatory) and oral exam (optional) Exam schedule Data appello Orario Luogo Degree type Note 29/01/2019 09:30 GENOVA Scritto 26/02/2019 09:30 GENOVA Scritto 12/06/2019 09:30 GENOVA Scritto 10/07/2019 09:30 GENOVA Scritto 11/09/2019 09:30 GENOVA Scritto FURTHER INFORMATION Pre-requisites : Basic knowledge of Fluid Mechanics.
