Civil EngineeringFind a programme
|Run by||Faculty of Engineering|
|Awards available||PhD, MSc by research|
MScR: One year full-time; two years part-time
PhD: Three years full-time; six years part-time
Both programmes (part-time and full-time) then have one further year to write up.
|Location of programme||Clifton campus|
|Part-time study available||Yes|
|Start date||Not fixed|
Our multidisciplinary research addresses the global need for delivering long-term, sustainable performance of existing and new infrastructure systems. We are leaders in modelling and managing the impacts of extreme natural and human hazards, such as earthquakes, climate change, flooding, industrial processes, traffic and crowds.
Our application studies range from complete national and regional systems (such as national hydrological models, water systems, electricity and transport networks) through individual artefacts (such as nuclear facilities, dams, long-span bridges and buildings), down to local scale buckling models of reinforcing bars in concrete.
Much of the research includes monitoring of prototypes or modelling at large scale, for example the dynamics of cable-stayed bridges such as the Second Severn Crossing, analysis of deep excavations and flood prediction based on real-time radar detection of rainfall.
We collaborate widely with academic and industrial partners from across the engineering, science and social science disciplines, and from around the world.
Applicants should contact a potential academic adviser to discuss available projects before submitting an application.
Fees for 2019/20
We charge an annual tuition fee. Fees for 2019/20 are as follows:
- UK/EU: full-time
- UK/EU: part-time
- Overseas: full-time
- Channel Islands/Isle of Man: full-time
Fees are subject to an annual review. For programmes that last longer than one year, please budget for up to a five per cent increase in fees each year. Find out more about tuition fees.
University of Bristol students and graduates can benefit from a ten per cent reduction in tuition fees for postgraduate study. Check your eligibility for an alumni scholarship.
Funding for 2019/20
A number of funded studentships are available each year, supported by research council, industry, University or other funds. View the faculty website for a list of currently available funded projects or visit jobs.ac.uk.
Self-funded or sponsored students are also very welcome to apply.
Further information on funding for prospective UK, EU and international postgraduate students.
A master's degree or an upper second-class honours degree (or international equivalent).
See international equivalent qualifications on the International Office website.
English language requirements
If English is not your first language, you need to meet this profile level:
Further information about English language requirements and profile levels.
Read the programme admissions statement for important information on entry requirements, the application process and supporting documents required.
Earthquake and Geotechnical Engineering
This area encompasses structural engineering, advanced composite materials and geomechanics. Based around BLADE (the £20 million Bristol Laboratories for Advanced Dynamics Engineering) and the Earthquake Engineering Research Centre, the group focuses on the non-linear performance and reliability of civil engineering infrastructure, with an emphasis on dynamic loading. It develops techniques for theoretical and numerical analysis, physical testing of infrastructure in the field and laboratory, structural and geotechnical material behaviour characterisation and modelling, structural vulnerability and overall non-linear dynamic performance assessment.
The Earthquake Engineering Research Centre has made notable advances in several areas, including the mechanisms of wind and pedestrian-induced vibrations, the non-linear dynamics of masonry and other buildings, dynamics of long-span bridges, cable structures, wind turbines, and seismic response of bridges and large dams. The research group also works on analysis, design and assessment of earthquake resistant structures including novel numerical and analytical methods, retrofit techniques, risk studies, and on-site inspection of buildings, bridges and critical infrastructure.
The group has an active interest in solving geotechnical problems using a multi-scale approach, combining laboratory testing, constitutive modelling, physical modelling, field observation and numerical simulation. Recent research focuses on measurements of deformation properties of soils using novel techniques of laboratory geophysics at very small strains for stiffness, dynamic soil-structure interaction with an emphasis on piles and retaining walls, and foundations of offshore wind turbines.
The group also has a strong interest in the characterisation of treated geomaterials: mixtures of soil with various inclusions such as fibres, cement, fly ash and soft tyre chips. The Soil Mechanics Laboratory possesses a series of triaxial and a unique set of multiaxial soil test apparatus: true triaxial apparatus (independent variation of three principal stresses, rigid boundaries), cubical cell (independent variation of three principal stresses, flexible boundaries) and hollow cylindrical torsional apparatus (independent control of four stress variables).
Water and Environment
The Water and Environmental Engineering Research Group is concerned with characterising and simulating the water environment in a changing world. We advance the sustainable use of water resources, provide design variables for infrastructure and enhance the security of society regarding floods and other environmental hazards. Focus areas include: hydrology, water and health, climate change impacts, water quality, risk from natural hazards, and new observational methods.
Water and environmental security is crucial for the sustainable and safe existence of both people and nature. Ensuring water security requires protection from floods and water scarcity, and the sufficient supply of fresh water of appropriate quality to ensure environmental and human health. The future of our society is less likely to be threatened by armed conflict than by population growth, climate change, water shortages and pollution, as well as poverty and rising food prices. The water and environment research group focuses on developing the theory and tools needed to address the complex issue of water security in a changing world. The group consists of an interdisciplinary team of engineers and scientists who combine process understanding, mathematical modelling, novel monitoring approaches and engineering principles to solve societal water problems.
Systems and Safety
The infrastructure systems research group develops novel, holistic approaches for characterising and managing the safe and sustainable performance of complex socio-technical systems. Key areas of work include sustainable systems, problem structuring methods, the vulnerability and resilience of infrastructures, infrastructure interdependencies, smart cities and communities, and safety and vulnerability of embedded software systems. Within the infrastructure systems research group, the Safety Systems Research Centre performs novel research into the safe and resilient performance of complex systems, including computational and organisational factors. The centre is also part of the Bristol-Oxford Nuclear Research Centre, and Bristol’s strategic relationship with EDF.
Civil engineering PhD graduates are found in a variety of careers, including world-leading research. Many also work as consultants or as part of large-scale engineering industries.
Dr Jitendra Agarwal BTech, MTech, PhD, (Senior Lecturer in Structural Engineering), Civil engineering systems; networked infrastructure; non-linear dynamics; structural safety
Dr Nick Alexander BSc(Eng) Lond, PhD(UCLond), CMath MIMA, CSci, (Senior Lecturer in Structural Engineering), Structural engineering
Dr Adam Crewe BEng PhD CEng MICE MIStructE,, (Reader in Earthquake Engineering), Bridges; earthquake engineering; seismic testing; soil dynamics; steel and concrete design.
Dr Flavia De Luca MSc in Structural and Geotechnical Engineering (Italy), PhD in Seismic Risk (Italy), (Lecturer in Civil Engineering), modelling and damage analysis of reinforced concrete structures; Performance Based Earthquake Engineering; structural reliability; Structures and Earthquakes
Dr Andrea Diambra BSc, MSc(Marche), PhD(Bristol), (Senior Lecturer), advanced soil laboratory testing; Computational geotechnics; ground improvements; offshore geotechnics; soil-structure interaction.
Dr Katsu Goda BSc, MSc(Kyoto), PhD(WOnt), (Reader in Earthquake Hazard & Risks), Earthquake engineering and structures.
Professor Dawei Han BEng, MSc(Huabei), PhD(Salf), CEng, FCIWEM, (Professor of Hydroinformatics), big data; Flood risk management; hydrology; natural hazards; remote sensing; water resources.
Professor Sally Heslop BSc(Lond), PhD(Lanc), (Professor of Sustainable Systems Academic Director of Graduate Studies), Engineering education; environmental systems; sustainability.
Dr Liz Holcombe MSci, PhD(Bristol), (Senior Lecturer), Slope stability.
Dr Nicholas Howden MEng(Dunelm), DIC PhD(Lond), FGS, FRGS, (Reader in Water & Environmental Engineering), Hydrogeology; hydrology.
Dr Erdin Ibraim PhD (INSA/ENTPE Lyon), (Reader in Geomechanics), Advanced soil laboratory testing; granular materials; soil mechanics; soil reinforcement; soil-structure interaction.
Dr Anders Johansson MSc(Chalmers), PhD(TUDresden), (Senior Lecturer in Systems Engineering), Systems; transportation.
Dr Dimitris Karamitros MSc(Greece), PhD(Greece), (Lecturer in Geotechnical Engineering), advanced numerical methods; constitutive modelling; Geotechnical and earthquake engineering; liquefaction; non-linear soil-structure interaction; pipelines
Dr John Macdonald MA(Cantab), PhD(Bristol), (Reader in Structural Dynamics), Bridges; human-structure interaction; structural dynamics; wind engineering.
Dr John May BSc Engineering Mathematics, PhD, (Reader in Safety Systems), Organisational safety; reliability of digital systems; safety systems.
Professor George Mylonakis DIPL(Greece), PhD(New York), (Chair in Geotechnics and Soil-Structure interaction), Analytical and computational geomechanics; earthquake engineering; static and dynamic soil-structure interaction.
Dr James Norman MEng(Nots) PhD(Bristol) CENG MICE FHEA, (Senior Teaching Fellow in Civil Engineering), Structural Engineering and Sustainable Construction.
Dr Francesca Pianosi BSc, MSc (Milan), PhD (Milan), (Lecturer in Water and Environmental Engineering), Modelling and optimisation; uncertainty and sensitivity analysis; water resources management.
Dr Miguel Rico-Ramirez BEng (Mexico), MEng (Mexico), PhD(Bristol), (Senior Lecturer in Radar Hydrology and Hydroinformatics), Flood risk management; hydroinformatics; radar hydrology; remote sensing; water resources.
Dr Rafael Rosolem BSc(SPaulo), MSc(SPaulo), PhD(Arizona), (Lecturer in Hydrometeorology), land surface modelling and field observations; Soil-vegetation-atmosphere processes
Dr A S M Mostaquimur Rahman BSc, MSc, PhD(Bonn), (Research Associate in Land Surface Modelling and Moisture Scaling), Climate change impacts on freshwater; groundwater hydrology; surface water-groundwater interactions
Dr Anastasios Sextos MSc-DIC, PhD CEng MASCE, (Reader in Earthquake Engineering), bridge engineering; Earthquake engineering; risk assessment.; structural dynamics
Dr Theo Tryfonas BSc(Crete), MSc(Athens), PhD(Athens), MBCS CITP, CISA, (Senior Lecturer in Systems Engineering), Digital forensics; security penetration testing; systems engineering.
Dr Paul Vardanega BE(Hons), MEngSc (QldUT), PhD (Cantab), MIEAust, MASCE, (Lecturer in Civil Engineering), Geotechnical engineering.
Professor Thorsten Wagener BSc(Siegen), MSc(Delft), PhD(Imperial), (Professor of Water and Environmental Management), Analysis of hydrologic systems; climate change; risk and natural hazards.
Dr Mohammed Wanous BSc, PhD(Liv), (Senior Lecturer in Engineering Management), Engineering education; engineering management.
Dr Ross Woods BSc(Cant), MComm(Cant), PhD(WAust), (Reader in Water & Environmental Engineering), Catchment hydrology.
We welcome applications at any time of year.
Find out more about becoming a student at Bristol, applying for a visa and the support we offer to international students.
REF 2014 results
- General Engineering:
- 38% of research is world-leading (4*)
- 55% of research is internationally excellent (3*)
- 6% of research is recognised internationally (2*)
- 1% of research is recognised nationally (1*)
Results are from the most recent UK-wide assessment of research quality, conducted by HEFCE. More about REF 2014 results.
The Bristol Doctoral College facilitates and supports doctoral training and researcher development across the University.
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School of Civil, Aerospace and Mechanical Engineering
Faculty of Engineering
University of Bristol
Bristol BS8 1TR http://www.bristol.ac.uk/engineering/postgraduate/ http://www.bristol.ac.uk/engineering/departments/civilengineering