In just a brief duration of time - in a few minutes or even in a fraction of a second - a fire or an explosion can have catastrophic consequences in residential buildings or in industrial plant. In UK alone, hundreds get killed and tens of thousands are injured every year. Some single incidents cost millions of pounds, the total monetary cost of fire and explosions in the UK is estimated at £12 billion per year or approximately 1% of GDP.This course offers students from diverse academic backgrounds advanced training in the field of Fire and Explosion Engineering for those wishing to embark on a career, or further develop their career, in the industry. Particular emphasis is placed on fire and explosion protection systems within a legislative framework that is complex and fast-changing.Core modules will cover both foundation and advanced aspects of fire and explosion engineering, from the factors that influence flame spread to the latest research in explosion prediction. You’ll also gain a firm grounding in fire safety design and have the chance to design a fire protection system for a complex building.
Some of the modules on this programme are offered as short courses by the Faculty of Engineering’s Continuing Professional Development unit.
Find out more about our Fire Engineering short courses
This programme is also available to study part-time over 36 months.
You’ll study core modules that allow you to understand issues such as flame spread and steady burning, as well as developing your knowledge of fire protection designs for complex buildings. You’ll also review research around explosions, how they can be predicted and mitigated.
A major part of the MSc are two projects that will give you valuable experience and skills.
The first project involves the design of a protection system, so you’ll learn about the application of techniques such as sprinklers, pressurisation, smoke venting, automatic fire detectors, means of escape and emergency lighting systems.
The other is a lab or computational based project taking into account your own preferences. You can choose from the list of topics we offer each year, but most part-time students choose to put forward their own topic which may be related to the interests of the employer or sponsor. If you take this course part-time with the support of your employer, you can undertake your projects in the workplace.
Both projects are assessed on the basis of a written dissertation and an oral presentation.
If you choose to study part-time, you’ll need to visit Leeds six or seven times over three years. You’ll attend two presentation days and either four or five teaching weeks, depending on whether you choose the e-learning module Fire Risk Assessment and Management.
Course features include:
The taught modules are assessed by coursework and 'open book' tests; typically within a period of 6-10 weeks from start to finish.
Want to find out more about your modules?
Take a look at the Fire and Explosion module descriptions for more detail on what you will study.
Each taught module is delivered in an intensive one-week block, allowing full and part-time students to study alongside each other. These teaching weeks will allow you to benefit from the expertise of our own academics – informed by their groundbreaking research – as well as a range of visiting lecturers from industry to gain an understanding of fire and explosion engineering in theory and practice.
Taught modules are assessed by via coursework and ‘open book’ tests, typically within 6-10 weeks from start to finish.
Challenging career opportunities for fire and explosion professionals are available in just about every type of business, industry and government operation.
They include fire and explosion consultancies, fire safety planning offices of local authorities, civil engineering and architectural companies, chemical/pharmaceutical companies, the oil and gas industries, fire and explosion protection equipment manufacturers, government bodies and departments, specialist research and testing labs and insurance companies.
Links with industry
Throughout the course you will have the opportunity to meet potential employers at the week-long taught courses.
The Fire programme at Leeds is actively supported and sponsored by, amongst others, the following companies/organisations:
Subsea engineering plays a vital role in the exploitation of oil and gas resources. The subsea engineering industry help to specify the curriculum so we meet their requirements. The course is designed for you as an experienced or recently graduated engineer who wants to develop your subsea knowledge.
Your teaching modules operate in short 'intensive schools' with time after the module to complete the assignments, where applicable. They include:
-Input from industry experts
-Teaching from other disciplines
Teaching consists of lectures, practical sessions, seminars and personal supervision covering a variety of topics in subsea engineering. The degree is taught using a mix of the academic staff from the School of Marine Science and Technology as well as visiting lecturers and experts from industry.
You will undertake a research project leading to a dissertation. This may be a critical review and/or computational or experimental project using the University's world leading testing facilities. The research project is supported by an academic supervisor and may be conducted with an industrial partner which, where appropriate, may be your employer.
Ten taught modules worth 120 credits are delivered in blocks through semester one and/or two. A dissertation or research project, worth 60 credits, is undertaken across the three semesters.
Our course is accredited by the Royal Institution of Naval Architects (RINA) and the Institute of Marine Engineering, Science and Technology (IMarEST) on behalf of the Engineering Council. This means that you are automatically recognised as satisfying the educational requirements leading to Chartered Engineer (CEng) status.
The Royal Institution of Naval Architects is an internationally renowned professional institution whose members are involved at all levels in the design, construction, maintenance and operation of marine vessels and structures. Members of RINA are widely represented in industry, universities and colleges, and maritime organisations in over 90 countries.
IMarEST is the first Institute to bring together marine engineers, scientists and technologists into one international multi-disciplinary professional body.
Our accreditations give you an additional benchmark of quality to your degree, making you more attractive to graduate employers. It can also open the door to higher-level jobs, most of which require Chartered Engineer status.
You have access to dedicated facilities including:
You also have access to a set of excellent testing facilities:
Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Environmental Biology: Conservation & Resource Management at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).
The MSc Environmental Biology: Conservation and Resource Management course focuses on the relationships between living organisms and the terrestrial, freshwater and marine environments, coupled with the interactions that result from natural and anthropogenic processes.
On the Environmental Biology: Conservation and Resource Management course you will benefit from advanced training in the interpretation of local and global environmental issues, field and theoretical aspects of biology and ecology, and in analytical techniques. You will also develop the skills necessary to work confidently in vocational areas such as conservation, environmental impact assessment, environmental management, monitoring and education, and foster an objective, scientific and realistic approach to environmental biological issues that you may have to face in a professional capacity.
Graduates from the Environmental Biology: Conservation and Resource Management course go on to work for government agencies such as CCW, Environment Agency, English Nature, Scottish Heritage, Fisheries Research Services, CEFAS. Other organisations include zoos, wildlife parks and reserves, national parks, environmental departments, research and development of SMEs as well as large companies. Graduates also go on to do postgraduate research.
Modules on the Environmental Biology: Conservation & Resource Management MSc include:
Core Science Skills and Research Methods
Conservation of Aquatic Resources
Term papers in Environmental Biology
Environmental Assessment and Management
Remote sensing of the changing environment
Geographical Information Systems
Please visit our website for a full description of modules for the Environmental Biology: Conservation & Resource Management programme.
As a student on the MSc Environmental Biology: Conservation & Resource Management programme, you will benefit from a range of facilities such as:
Our excellent facilities include a unique built Animal Movement Visualisation Suite (£1.35m), incorporating an electronic wall linked to a computer-tesla cluster for high-speed processing and visualisation of complex accelerometry and magnetometry data derived from animals. Coupled with this facility is the Electronics Lab with capacity for research, development and realisation of animal tags with new capacities (sensors, energy-harvesting systems, miniaturization, 3-D printing of housings etc.); a custom-designed 18m on coastal research vessel; a recent investment of £4.2m on a new suite of state-of-the art Science laboratories; and the £2m unique Centre for Sustainable Aquatic Research (CSAR) with a 750 m2 controlled environment building, with programmable recirculating aquatic systems, unique within the UK’s higher-education sector. These are tailored for research on a diverse range of organisms, ranging from temperate to tropical and marine to freshwater. Coupled with this are nutrient and biochemical analytical capabilities.
“I’ve spent four years as a student at Swansea University, three years as an undergraduate studying Marine Biology and a year as a postgraduate undertaking the MSc in Environmental Biology: Conservation and Resource Management. Whether studying or partying I can honestly say I had a fantastic time the whole way through! It was through my undergraduate study that I realised how amazingly diverse the marine ecosystem is, but also how vulnerable it can be and the level of exploitation it endures. This prompted me to undertake the MSc, which furthered my knowledge in many aspects of conservation and environmental issues around the world on sea and land. With my experience and expertise gained from studying at Swansea I have secured a job working with WWF Cymru in Cardiff as Marine Policy Officer where I am helping work towards a sustainable future for the Welsh marine environment.”
BSc Marine Biology
MSc Environmental Biology: Conservation & Resource Management
Marine Policy Officer, WWF Cymru, Cardiff
We are 7th in the UK and top in Wales for research excellence (REF 2014)
93.8% of our research outputs were regarded as world-leading or internationally excellent and Swansea Biosciences had the highest percentage of publications judged ‘world-leading’ in the sector. This is a great achievement for the Department, for the College of Science and indeed for Swansea University.
All academic staff in Biosciences are active researchers and the department has a thriving research culture.