Lecture 1 - Introduction to Engine Systems and Its Types: A Focus on Ignition System
Lecture 2 - A Focus on Lubrication and Cooling Systems
Lecture 3 - Engine Classifications and Nomenclature
Lecture 4 - Analysis of Basic Cycles
Lecture 5 - Description of Engine Components
Lecture 6 - Design and Constructional Features of Engine Hardware
Lecture 7 - Shape and Material of Engine Components
Lecture 8 - Concept of Hybrid Engines and Working Principle
Lecture 9 - Types of Hybrid Arrangements
Lecture 10 - Description of Energy Transfer Mechanism
Lecture 11 - Components Involved: Energy Transfer
Lecture 12 - Components Involved and Numerical Problems: Energy Transfer
Lecture 13 - Introduction to Electronic Control Unit (ECU) and its functions
Lecture 14 - Description of Electronic Control Unit (ECU) and types of control system: Open-loop and Close loop
Lecture 15 - Memory-based and Adaptive-based control systems
Lecture 16 - Control system layout and types of sensors: Coolant temperature sensor and Crankshaft position sensor
Lecture 17 - Manifold Absolute Pressure sensor (MAP) and Throttle Position Sensor (TPS)
Lecture 18 - Actuators in control system: Solenoids, Piezoelectric and Stepper motor
Lecture 19 - Key elements of ECU: Microprocessor and Memory chips
Lecture 20 - Introduction to electronic devices and circuits
Lecture 21 - Introduction to Transistors
Lecture 22 - Introduction to Digital circuits
Lecture 23 - Functional layout of Electronic Control Unit (ECU)
Lecture 24 - Electronic ignition system
Lecture 25 - Electronic Fuel-Injection System: Injection schemes
Lecture 26 - An overview of injection duration calculation
Lecture 27 - Modes for fuel control, Integrated engine control system
Lecture 28 - Introduction to Engine performance and its measurement
Lecture 29 - Measurement of fuel flow rate, air flow rate and needle lift in a CI engine
Lecture 30 - Measurement of indicated work, Numerical problem
Lecture 31 - Measurement of torque: Power output from engine, Numerical problem
Lecture 32 - Measurement of volumetric efficiency
Lecture 33 - SI engine performance curves and Performance characteristics
Lecture 34 - Performance map, Analytical method of performance estimation
Lecture 35 - CI engine performance, factors affecting engine performance
Lecture 36 - Introduction to Superchargers
Lecture 37 - Performance Map of Superchargers and Numerical Problems
Lecture 38 - Introduction to Turbocharger and Phenomenon of Turbo-lag in Turbochargers
Lecture 39 - Introduction to Variable Geometry Turbine
Lecture 40 - Numerical Problems on Turbocharger
Lecture 41 - Engine heat balance
Lecture 42 - Measurement of heat losses in engines and Numerical problem
Lecture 43 - Speed control of IC engines
Lecture 44 - Mechanical and Electronic governor
Lecture 45 - Trend of recent technologies to achieve better performance and reduce pollution
