MSc Fire Safety Engineering is concerned with the study of fire development and prevention and the means by which its consequence may be reduced to a minimum in human, environmental and financial terms. This postgraduate degree emphasises Fire Safety Engineering in the context of buildings and infrastructure. This involves skills and knowledge crossing all areas of learning including fire chemistry, physics of heat transfer, biology and toxicity, structures, law and legislation, environmental impact, risk management and design. It is supported by an established research base and builds on the training and educational programmes offered by the Institution of Fire Engineers.
This course is designed for students who will eventually hold senior positions within the fire-related professions. Throughout the programme, emphasis will be placed on self-motivation, critical thinking and analytical depth. The application of Fire Safety Engineering is multi-disciplinary and, as in the professional world, you will carry out project work, which will facilitate dialogue between the Fire Engineer and other members of the design and management teams.
This MSc is accredited by both the Energy Institute (EI) and the Chartered Institution of Building Services Engineers (CIBSE) as fulfilling the further learning requirement for Chartered Engineer status, whilst also being a recognised course by the Institution of Fire Engineers (IFE).
LEARNING ENVIRONMENT AND ASSESSMENT
The course will be delivered through lectures, tutorials and practical exercises. Guided teaching and formal assessments will enhance the development of transferable skills such report-writing, maintenance of case notes, formal presentations, participation in discussions, ability to work to deadlines, computing skills, public speaking, scientific analysis, adherence and development of laboratory protocols and research methods.
There are different assessment methods employed across the modules. Some modules are assessed by both examination and coursework while others are assessed by coursework only, which may take the form of group projects, modelling exercises or time-controlled assignments or seminar presentations.
Benefiting from extensive research funding, we hold an enviable reputation for the quality of our teaching and research activities. All Fire courses are underpinned by the Research Centre in Fire and Hazards and benefit from the dedicated fire laboratories including equipment for small and intermediate scale facilities.
Our well-equipped modern fire engineering laboratory facilities comprise of state-of-the-art fire research equipment, used by experienced academics, are available for research and teaching. There are specialist facilities which include analytical and material characterisation equipment. A number of experiments, ranging from the investigation of fire retardants to the combustion properties of materials, and fire toxicity can be undertaken. We also have computational fluid dynamics facilities, that provide the use of CFD based fire modelling for research, teaching and consultancy.
Combined into a single-discipline, our Fire Safety Engineering Master’s degree meets a challenge of modern industrial needs. Graduates have become leaders in a range of backgrounds from fire services to civil engineering to safety management. The course is fully accredited by three professional institutions (CIBSE, EI and IFE) that play an active part in ensuring the course is developed to meet professional needs.
This course is supported by an established research base (Centre for Research in Fire and Hazards Science) which builds on the training and educational programmes offered by the Institution of Fire Engineers. Full-time students can underpin their studies with a range of balancing modules. The remainder of the MSc is a series of options which may involve external speakers as well as expertise from our staff. Students should check availability if they wish to undertake any option in particular.
MSc Fire Safety Engineering commences in Semester 1 with Fires in Buildings which examines: fundamental principles; mechanisms controlling spread of fires and fire development in enclosures; movement and smoke control; fire resistance and fire severity; human behaviour in fires and evacuation; the mechanism of fire suppression agents. Running in parallel, a Research Methods module supports the Dissertation, which is an in-depth study involving theoretical, computational, experimental or investigative analysis. The Dissertation is undertaken in Semester 3 together with the Engineering Design Project, which is an integration of themes of design, ICT and technology within a practical context requiring students to work in teams as well as individuals.