CODE 118172 ACADEMIC YEAR 2025/2026 CREDITS 6 cfu anno 2 INGEGNERIA MECCANICA - ENERGIA E AERONAUTICA 9270 (LM-33) - GENOVA SCIENTIFIC DISCIPLINARY SECTOR ING-IND/08 TEACHING LOCATION GENOVA SEMESTER 2° Semester OVERVIEW The course of Road Vehicles Aerodynamics gives an overview on the aerodynamic performance of different kind of vehicles and the design criteria taking into accound the aerodynamic concepts. The aerodynamic analysis of the vehicle is nowadays not only necessary to lower energy consumption or to improve the dynamic performance but also to optimise the sensors and camera installation around the vehicle and the vehicle handling. The aerodynamic forces and moments give also a relevant contribution to the vehicle dynamics and a proper understanding of these aspects is crucial. AIMS AND CONTENT AIMS AND LEARNING OUTCOMES Participation in lessons and practical applications together with the student individual learning time will provide the student with: - good knowledge of the bluff body aerodynamics - understanding of the effects of geometry on flow structure and performance - design criteria for ordinary or racing cars - knowledge on experimental and numerical techniques for aerodynamic analysis - understand the aspects related to car setup and the methods to check performance from track telemetry - get the proper language and terminology to study and discuss vehicle aerodynamics. TEACHING METHODS Lesson on theory. Exercises on car dynamics using a car simulation code. SYLLABUS/CONTENT Introduction to bluff body aerodynamics; Numerical techniques for aerodynamic analysis Experimental techniques for aerodynamic analysis Influence of geometry on road vehicle aerodynamics Influence of auxiliary flows (cooling, ventilation, ..) on aerodynamic performance Aerodynamic aspects of commercial vehicles; Racing car aerodynamics Car setup and handling for motorsport. RECOMMENDED READING/BIBLIOGRAPHY Wolf-Heinrich Hucho: “Aerodynamics of Road Vehicles", SAE Int. Publisher, 1998; Computational fluid dynamics –the basics with applications, John Anderson, McGraw-Hill Low speed aerodynamics, Joseph Katz, Allen Plotkin, McGraw-Hill Race Car Aerodynamics, Joseph Katz, Bentley Publishers Race Car Handling Optimization, Ralph Putz , Ton Sernè, Springer The teacher provides reference written documentation as basic reference for every part of the program. TEACHERS AND EXAM BOARD CARLO CRAVERO Ricevimento: contact the teacher by email to agree the hours for support LESSONS LESSONS START https://corsi.unige.it/en/corsi/9270/studenti-orario Class schedule The timetable for this course is available here: Portale EasyAcademy EXAMS EXAM DESCRIPTION Oral exam: the student prepares a report on a selected argument (at his/her choice) on theory or application. Please contact always the teacher to agree the exam date ASSESSMENT METHODS The exam consists in the discussion of the report and in some question related to the program FURTHER INFORMATION Ask the professor for other information not included in the teaching schedule. Agenda 2030 - Sustainable Development Goals Quality education