Md. Zahurul Haq, Ph.D., CEA, FBSME, FIEB Professor Department of Mechanical Engineering BUET, Dhaka, Bangladesh

Syllabus                                          3.00 Credit Hours Introduction: basic engine types, their operation and testing; Idealized cycles and processes; IC engine fuels: Stoichiometry, properties and tests; Combustion: SI engine, CI engine and gas turbines; Exhaust gas analysis and air pollution: pollution formation mechanism, measurement and control; Fuel metering: SI engines, CI engines; Air capacity of engines: two and four stroke cycles, naturally aspirated and supercharged; IC engine cooling and lubrication systems; Performance and design: Naturally aspirated engines and supercharged engines, design considerations, application of principle of similitude in engine design. • Underlined sections (1 cr hr) will be covered by Prof. A K M Monjur Morshed References • Heywood (2018), Internal Combustion Engine Fundamentals, McGraw-Hill. • Ferguson & Kirkpatrick (2015), Internal Combustion Engines, J. Wiley & Sons. • Taylor (1985), The Internal-Combustion Engine in Theory & Practice, The MIT Press. • Stone (2012), Introduction to Internal Combustion Engines, Palgrave Macmillan. • McAllister, Chen & Pello (2011), Fundamentals of Combustion Processes, Springer. • Lumley (2000), Engines - An Introduction, Cambridge University Press. • Obert (1973), Internal Combustion Engines & Air Pollution, Harper & Row.

Notices • Additional archived materials [from previous years]: o Engine cycles o Fuels o Engine fuel-metering o Engine exhaust-emissions: formation & measurements • Assignment

Course Notes [2022] • Course Outline • Combustion Basics                                                         • Combustion in SI Engines • Combustion in CI Engines and Gas Turbines • Engine Intake & Exhaust Systems • Engine Air Charging • Engine Volumetric Efficiency & Similitude in Design • Engine Performance Parameters • Engine Cooling & Lubrication • Engine Testing