Module information for the next academic year is available below. Current academic year information is also available.
Combustion, Safety and Fire Dynamics
Module aims
The overall aim of the course is to provide the scientific foundations of combustion, the greatest discoveries in human history, and an understanding of the physics and chemistry involved. The emphasis is on considering the challenges faced in power generation, propulsion and fuel processing regarding efficiency, emissions and safety.
ECTS units: 5
Learning outcomes
On successfully completing this module, students will be able to:
1. Explain the principal terminology, concepts and theories of combustion, flames, engines and pollutants.
2. Discuss issues and trends relating to the global utilisation of fuels for energy consumption.
3. Analyse combustion problems using thermodynamics, heat transfer, fluid mechanics, reaction kinetics, flame theory, and dimensionless groups.
4. Explain the mechanisms and implications of ignition and flame types on pollutant formation, distinguishing reaction types and the effects of fuel/air mixture, pressure and temperature.
5. Explain why combustion systems remain being the most formidable competitor to electric vehicles and renewable energies.
Module syllabus
Energy trends
Fuels
Thermodynamic
Chemical Kinetics
Ignition
Premixed and Diffusion Flames
Laminar and Turbulent Flames
Droplets and Particles
Emissions
Engines
Teaching methods
Students will be introduced to the main topics through lectures (2 hrs per week), supported by technology (PowerPoint, Panapto and Blackboard). Short activities (using interactive pedagogies) will occasionally be introduced in the classroom setting to reinforce learning, for example through pentameter and the like. You will be provided with problem solving sheets and should complete these as part of your independent study. Tutorials sessions (1 hr per week) will provide an opportunity for interaction with teaching staff where you can discuss specific problems. The Department lends to each student a print copy of the core textbook by McAllister "Fundamentals of combustion processes" Springer.
Assessments
Assessment details | ||||
Pass mark | ||||
Grading method | Numeric | 50% | ||
Assessments | ||||
Assessment type | Assessment description | Weighting | Pass mark | Must pass? |
Examination | 3 Hour exam | 90% | 50% | Y |
Coursework | Calculations of flame temperatures and flame speeds | 10% | 50% | N |