OVERVIEW

The course deals with the most relevant topics relating to reciprocating Internal Combustion Engines (ICE).

AIMS AND CONTENT

LEARNING OUTCOMES

The objective of the course is to provide critical knowledge on low carbon propulsion systems for different applications, delving into some of the most important topics with particular reference to the automotive application. An appropriate qualification in the field of reciprocating internal combustion engines (ICE) is provided together with the reduction of exhaust emissions through advanced technologies for thermal and hybrid propulsion systems.

AIMS AND LEARNING OUTCOMES

The student attendance during the lessons and related study activities will allow:

- to know the main features related to environmental impact of internal combustion engines;

- to identify the main features of environmental friendly propulsion systems.

TEACHING METHODS

Lectures on the different items presented in the course programme and experimental activities on two different test rigs, focusing on specific arguments developed within the course. Moreover, seminars offered by academic and industrial experts and technical visits can be organised.

SYLLABUS/CONTENT

Lectures

• Real cycle and operational aspects of ICE – Real cycles of SI and diesel engines: analysis of loss contributions - ICE energy balance - Fuel supply circuits of SI and diesel engines. Combustion process in SI and diesel engines. 
• Engine part load operation – Control engine parameters – Constant speed and constant load curves, engine performance maps – Part load operation of spark ignition and diesel engines – Analysis of engine performance and fuel consumption at different speed and load levels – Road vehicle performance simulation – Engine downsizing – Valve control systems in ICE: Variable Valve Timing (VVT) and Variable Valve Actuation (VVA) systems, developed applications, control strategies, use in SI and diesel engines, effect on fuel consumption and exhaust emissions.
• ICE pollutant emissions and control strategies – Normalized test procedures for vehicle emissions determination, European emission limits – Advanced devices and control strategies of aftertreatment systems. CO2 reduction in automotive ICE – General overview on problems, legislation and possible actions. Electric and hybrid propulsion, Fuel cell application to propulsion systems.
• Supercharging and turbocharging – Engine-compressor matching in mechanical supercharging and turbocharging - Determination of turbocharger operating conditions – Constant pressure and pulse turbocharging: quantitative considerations, energy aspects, engine exhaust circuit design – Transient response, torque characteristic curves of supercharged and turbocharged engines – Turbocharger control systems (waste-gate valve, variable geometry turbine) – Design aspects of exhaust turbochargers - Alternative charging systems.Advanced layout for single and two stage turbocharging systems – Energy recovery.

Practice

• Test bench measurements on an engine or a turbocharging system for automotive application

RECOMMENDED READING/BIBLIOGRAPHY

Lesson notes and classroom material (which can be downloaded in aulaweb) are sufficient for the exam preparation.

• S. Marelli - “Motori e Sistemi Propulsivi per la Transizione Energetica” – Appunti del corso.
• G. Ferrari -  "Motori a combustione interna" - Esculapio, 2016.
• J.B. Heywood -  "Internal Combustion Engine Fundamentals" - Mc. Grow-Hill, 1988.
• K. Zinner -  "Supercharging of Internal  Combustion  Engines" - Springer Verlag, 1977.
• N. Watson, M.S. Janota – “Turbocharging the Internal Combustion Engine” – MacMillan Press Ltd, 1982.
• AA.VV. – “Bosch Automotive Handbook” – 7th Edition, Robert Bosch GmbH, 2007.
• K. Owen, T. Coley, Automotive Fuels Reference Book, Society of Automotive Engineers.
• L.J.M.J. Blomen, M.N. Mugerwa, Fuel Cell Systems, Plenum Press, New York, 1993.

TEACHERS AND EXAM BOARD

Exam Board

ANDREA CATTANEI (President)

CARLA CORDALONGA

MATTEO DELLACASAGRANDE

DAVIDE LENGANI

FRANCESCA SATTA

DANIELE SIMONI

VITTORIO USAI

SILVIA MARELLI (President Substitute)

GIORGIO ZAMBONI (President Substitute)

LESSONS

LESSONS START

https://corsi.unige.it/9270/p/studenti-orario

EXAMS

EXAM DESCRIPTION

Examination: oral test focusing on specific arguments developed within the course. Exam allowed also by appointment.

Students with SLD, with disabilities, or with other regularly certified special educational needs will agree with the teacher on the exam method and the compensatory instruments, by contacting the instructor at least 10 days before the exam. They will also be able to take advantage of the additional time required by law.

ASSESSMENT METHODS

The oral examination will be focused on the topics treated during the lessons and will be aimed at evaluating not only the fulfilment of an adequate knowledge level, but also the acquisition of critical analysis skills on the topics of the exam.

Exam schedule

FURTHER INFORMATION

Pre-requisites:

- Basic thermodynamic and fluid dynamics knowledge.

- Basic knowledge on ICE: ICE classification, components and nomenclature, main operational parameters – Ideal and real operation of 2 and 4 stroke engines – Indicated diagrams, indicated and brake mean effective pressure, engine power correlations. Reference thermodynamic cycles for SI and diesel engines - Combustion processes in SI and diesel engines.  ICE pollutant emissions, emission control systems and aftertreatment devices for SI and diesel engines.