GRADUATION IN MECHANICAL ENGINEERING

4 YEAR COURSE

 

Third Year
	Fluid mechanics I (double module)
	Fluid mechanics II (double module)
	Thermodynamics and power generation
	Heat and mass transfer
	Electric drive systems
	Materials processing and design
	Dynamics
	Vibration
	Mechanics of solids
	Machine design
	Fracture mechanics of materials and structures
	Structural materials and design
	Finite element methods
	Building physics and environmental geotechnics
	Signals and systems
	Systems and control
	Mathematical physiology
	Medical imaging and 3D computer graphics
	Biomaterials
	Mathematical methods
	Design methods
	Partial differential equations and variational methods
	Nuclear power engineering

Fourth Year
	Computational fluid dynamics
	Turbomachinery I
	Aircraft stability and control
	Aerodynamics
	Environmental fluid mechanics
	Molecular thermodynamics
	Flow instability
	Turbomachinery II
	Turbulence and vortex dynamics
	Combustion and IC engines
	Aeroacoustics
	Electronic sensors and instrumentation
	Renewable electrical power
	Designing with composites
	Electrical and nano materials
	Design methods
	Design case studies
	Advanced linear vibration
	Random and non-linear vibrations
	Applications of dynamics
	Continuum mechanics
	MEMS: design
	Advanced machine design
	Dynamics in civil engineering
	Plate and shell structures
	Control system design
	Digital filters and spectrum estimation
	Biomimetics
	Cellular and molecular biomechanics
	Materials and processes for microsystems (MEMS)
	Partial differential equations and variational methods
	Complex analysis and optimisation
	Nuclear power engineering