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"It was a great opportunity to raise awareness of our work to politicians and other academics, and to make valuable contacts at other research centres and within the government. "

Read more... PG Research

Research has opened many doors for me that I did not know existed. Through research, I have been able to find what interests me and a group of people who have the same interests.

A research degree at University of Bradford would give you the opportunity to determine and work on your own field of study.

During your studies you are supported by two academics who you will meet with regularly. Your supervisors will help formulate your research topic and ensure you are on schedule to complete your research on time. A research degree requires an in-depth study in a specialised area. A research student undertakes a major thesis, under the guidance of the supervisors.

The following degrees are offered by the School:

sm-bullet Master of Philosophy (MPhil)

sm-bullet Doctor of Philosophy (PhD)

Modes of Research:

It may be possible (with the department’s agreement) to combine two or more of these modes (listed in order of popularity):

Full-time Internal:

You will work alongside other students and staff in your department, and will be expected to complete the research for your PhD within three or four years.

Part-time Internal:

This mode is most suitable if you have a full-time job in a related area. You should live close enough to Bradford to maintain contact with your supervisor, and perhaps participate in research training. The minimum period for completion is four years.

Part-time External:

This mode may be available for students based overseas. You will need to visit Bradford at least once a year in order to have extensive discussions with your supervisor.

Full-time External:

This may suit people such as academics employed in institutions outside the UK. You should be able to commit an average of about 40 hours per week to your research, and be in a position to make regular use of library, computing or necessary equipment resources. You will need to meet your supervisor regularly and make at least one visit of two weeks or perhaps a month each year to Bradford to discuss the progress of your research.

Period of Study for a PhD:

Normal minimum period of registration

Normal maximum period of registration including writing-up period

Full-time doctorate

3 years

4 years

Part-time doctorate

4 years

7 years

Period of Study for an MPhil:

Minimum period of registration

Maximum period of registration

Full-time masters

1 year

2 years

Part-time masters

2 years

4 years

PhD Structure:

The first year of a full-time PhD is spent on an initial registration for MPhil. It may well be taken up with a review of existing literature in your proposed area, and the refining of your research proposal, combined with formal training in research skills in the Graduate School.

If you make good progress in your first year your academic supervisor will apply for your registration to be transferred from MPhil to PhD. If you opt nevertheless to submit for an MPhil then your remaining work should be accomplished in the following year.

The second year of your PhD programme may well be taken up with actual data collection. Towards the end of the year it should be possible to attempt an initial analysis of your results.

In the third year you may conduct detailed collation and analysis of your results, and organise them into a logical and persuasive thesis.

Following submission, your thesis will be read by two examiners. Your supervisor will also already have read your thesis, and may be consulted by the examiners. You will then be required to attend an oral examination, at which will be expected you to answer questions on your thesis.

Admission Criteria:

For the degrees of Doctor of Philosophy (PhD):

sm-bullet First or upper-second class degree of Bachelor at an approved university or institution

sm-bullet A higher degree at an approved university or institution

sm-bullet Exceptionally, candidates with lower than above but with experience and training as suitable preparation

For the degree of Master of Philosophy (MPhil):

sm-bullet Degree of Bachelor at an approved university or institution

sm-bullet Professional qualification approved by Research Degrees Committee and suitable general education and training

sm-bullet Exceptionally, candidates with less than above but able to give satisfactory evidence of having obtained adequate standard of knowledge may be accepted by the Research Degrees Committee

Note 1 : Candidates for the degree of Doctor of Philosophy are normally initially registered for the degree of Master of Philosophy and may only be transferred to PhD registration in accordance with procedures outlined in the Regulations for Research Degrees.

Note 2 : We will check the approved University and degree award (where you have indicated at an approved university) with the National Recognition Information Centre for the United Kingdom (UK NARIC). NARIC is the National Agency, managed on behalf of the UK Government, and provides the only official source of information on international qualifications to organisations recruiting from overseas and to individuals wishing to work or study in the UK. You are free to contact NARIC at http://www.naric.org.uk who will be pleased to confirm your degree in comparison to a UK qualification. Please note there will be a charge for this service.

Language requirements:

For students whose first language is not English the University sets a minimum standard entry requirement of 6.0 IELTS with no subtest less than 5.5 or TOEFL language requirement is 84 with no sub-tests below; listening 17, reading 18, speaking 20, writing 17.

Fees:

Tuition Fees and Information can be found at:
http://www.brad.ac.uk/hub/TuitionFeesInformation/

Group Leader: Professor I.M. Mujtaba

Mechanical & Process Engineering (MPE) Research Group focuses on fundamental and applied research in the area of Mechanical, Chemical and Process Engineering. Academic staff in this research group is organized into sub-research groups that reflect their specific areas of research interest and activity. The members work collaboratively with colleagues across the sub-groups, the school and the University. At the applied level research the group (and sub-groups) works closely with industrial partners. Expertise in the group informs teaching for the different taught programmes where the students are taught in a research-led environment.

Automotive and Competitive Design

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Automotive and Competitive Design

The group works closely with industry on a range of projects including competitive development of many complex devices, such as turbochargers, active filtration systems and control devices that are used in modern high-tech production.

Members: Professor AJ Day , Professor AS Wood , Professor F. Campean , Dr. P. Olley , Dr. H. Qi , Dr. Jian-Ping Li , Dr. K. Hussain

Chemical & Process Engineering

cse
Chemical & Process Engineering

Computer Aided Process Engineering is a leading-edge research topic in chemical engineering. We strongly encourage national and international collaboration on short and long term projects on the development and use of computational tools in all aspects of process engineering activities. Our current research focuses on modelling, optimisation & control of processes such as desalination, refinery (hydrotreating &, heat exchanger network), distillation, chemical reactor, solvent extraction, and polymerisation.

Members: Professor IM Mujtaba , Professor AS Wood , Professor M Ebrahimi , Dr. CS Wright , Dr. C. Kara-Zaitri , Dr. Jian-Ping Li

Dynamics and Control

Dynamics and control of powertrains and drivelines of mechatronic systems with specialization in mathematical modelling, identification and validation using short distance telemetry and condition monitoring for energy recovery. Current activities include: Turbocharger blade tip timing, powertrain testing and calibration, model based electric vehicle control.

Members: Professor M Ebrahimi , Dr. Jian-Ping Li , Dr. B. Mason

Manufacturing & Materials

Manufacturing and Materials group is researching into the broad system’s aspect of manufacturing: strategy, planning, control, maintenance, supply chain, process improvement and scheduling through the use of AI tools (Knowledge-Based systems, Expert Systems, Artificial Neural Networks and Genetic Algorithms), with particular emphasis in the automotive manufacturing environment. The materials aspect of the research group focuses on powder metallurgy processing of ferrous-based materials with specific interests in optimising material compositions to enhance processibility, microstructure and end-use properties.

Members: Dr.M.K. Khan , Dr. J.E. Munive , Dr. C.S. Wright , Dr. H. Qi , Mr. J.D. Philby

Risk and Reliability Modelling

This research sub-group explores new methods for modeling complex risk and reliability applications in large installations in the Nuclear, Military and Aerospace industries. New models are being developed to determine Minimal Cut Sets of complex Fault Trees and extended further to handle advanced Markov Modeling with particular application to Protective Systems - to properly account for different failure, repair and testing regimes. The research has already yielded a hardware-oriented solution (as opposed to software-oriented solution), using Application Specific Integrated Circuits (ASIC) and Programmable Logic Device (PLD) simulation software to store and analyse the failure logic of large and complex systems.

Members: Dr. C. Kara-Zaitri , Professor IM Mujtaba , Dr. S.M.R. Jones, Dr. J.M. Noras

Advanced Engineering Systems Optimisation

The aim of this group is to improve the design process and designed products by effectively exploiting the combination of computational modelling and (External) optimisation algorithms and tools to support and enhance the creativity and decision-making of engineering designers.

Members: Professor AS Wood , Professor F. Campean , Dr. Jian-Ping Li , Professor IM Mujtaba

New Collaboration Between Bradford and Yola, Nigeria

Medical Engineering PhD Students research into new treatments for degenerative disorders, cartilage repair, arthritis and bone cancer

PhD Opportunities

Each year we recruit approximately 50 postgraduate research students from around the world. We are very keen on research that is at the cutting edge of industry and technology, as well as science.

Business Innovation Award

The main prize of £400 went to Raed Abd Alhameed from the School of Engineering, Design and Technology for his partnership with Saltaire based company Pace Plc.

EIE:Our postgraduate students benefit from working in a first class, well-equipped research environment. We attract students from around the world and have enjoyed funding from grant-awarding bodies in the UK and EU, often in partnership with industry. Our staff enjoy an international reputation, confirmed by our results in the 2008 Research Assessment Exercise . Whether you are studying an MSc, MPhil or PhD, you will have the opportunity of working in leading areas of civil and structural engineering. We invite prospective MSc, MPhil and PhD students and their sponsors to visit us and see some of the latest facilities for teaching and research in the area of environmental and infrastructure engineering. Further details of post-graduate opportunities and application procedures, both taught and by thesis, are available at this link .

Environmental and Infrastructure Engineering at Bradford supports a vibrant, supportive and productive postgraduate community. The size of our research group ensures that the number of postgraduate research students is large enough to ensure a lively, interesting and diverse postgraduate community where you will find other students working on related fields. We consider postgraduates integral to maintaining our healthy research culture. Activities include a regular research seminar series that attracts established national and international researchers. Postgraduates are also central to the department's weekly, internal staff and postgraduate seminar series.

The three-year PhD is the established route into academic and research careers, although it is also increasingly seen as an exceptional qualification for individuals pursuing other professional positions. All of our staff are active researchers and we are pleased to welcome suggestions of your own. We encourage you to contact staff directly to discuss potential ideas and we can assist in the development of a topic. More details on staff research interests and recent and ongoing research projects can be found on the staff web pages .

The laboratory facilities are:

Hydraulics Laboratory
Acoustics Laboratory
Soil Mechanics Laboratory
Structures Laboratory

Hydraulics Laboratory

HydraulicsLab

It houses a number of flumes and hydraulic rigs for the study of environmental fluid mechanics and urban water drainage. In recent years, the lab has attracted considerable funding from EPSRC and from other funding bodies, including the EU, DTI and Yorkshire Water. It has strong links with industry and is actively involved in consultancy work, often in the construction of scaled, physical models of hydraulic structures. It is also currently supported by an EPSRC Platform Grant awarded to the (External) Pennine Water Group . This group specialises in ‘ (External) Developing Knowledge and Tools for Sustainable Urban Water Services in the 21st Century ’ (more information can be found here ).

The Hydraulic Laboratory members specialise in four main subject areas, which cover activities both in environmental fluid mechanics and urban water drainage:

Development of new sensor technology
Turbulence in shallow flows
Sediment transport and environmental pollution
Commercial consultancy

It houses the following facilities:

Flexible space for construction of physical models with pump capacities of up to 500 l/s
0.5 m wide, 20 m long, tilting hydraulic flume
2 m wide, 15 m long hydraulic flume (coming soon)
0.3 m wide, 6 m long, recirculating, tilting hydraulic flume
0.62 m diameter, 20 m long concrete pipe
150 mm diameter, 17 m long clay pipe
Three 0.1 m wide, 6 m long recirculating, tilting hydraulic flumes
25m long underfloor water tank
Wind tunnel
3-D Dantec PIV system, able to operate at up 50 Hz and in both horizontal and vertical planes
High-speed CCD camera for grain tracking and Laser Induced Fluorescence, able to operate at up to 90 Hz. This can be synchronised with the PIV system
Surface topography laser scanning system
Digital Image Correlation for the 3D measurement of solid deformation
Nortek Vectrino’s (downward- and side-looking)
Piston-type wave generator and gauges
Range of acoustic equipment

[ Acoustics Lab ] [ Soil Mechanics Lab ] [ Structures Lab ] [ Back to top ]

Acoustics Laboratory

Acoustics1

Acoustics2

The main areas of research are in the theoretical and experimental investigation of sound absorbing materials and sound propagation in lined channels. Research is also conducted on outdoor sound propagation and the design of environmental noise abatement methods. More information can be found here .

[ Hydraulics Lab ] [ Soil Mechanics Lab ] [ Structures Lab ] [ Back to top ]

Soil Mechanics Laboratory

SoilMechanics

The key areas of research are:

Contaminant transport consolidation of soft soils
Soil reinforcement
Soil structure interaction.
Treatment of wastewater using soil aquifers
Interaction effects between surface dynamic loads and buried structure

Notable facilities are:

Triaxial cells for testing unsaturated soils
Instrumented 2D and 3D tanks for testing the migration of contaminants in unsaturated and saturated soils

[ Hydraulics Lab ] [ Acoustics Lab ] [ Structures Lab ] [ Back to top ]

Structures Laboratory

StructuresLab

Experimental research is carried out in the following areas:

Behaviour of reinforced concrete and masonry structures
Development of new structural materials and techniques suitable for retrofit to extend the life of concrete and masonry structures
Strong floor with substantial equipment for full scale testing of structural elements
Dynamic behaviours of flexible structures
Strengthening interventions on masonry buildings in seismic areas
Suitability of fibre reinforced polymer bars as internal reinforcement for concrete structures
A new standard test for measuring impact resistance of concrete, the use of recycled aggregate and cementless mortars
Laboratory calcinations of marls and septaria Role of aggregates in mortar performance
Development of a drying system for dry-silo based mortars which involves the addition of quicklime to the wet sand
Experimental techniques include calcination, compressive and flexural strength of pastes and mortars, setting time, soundness, sorptivity, water vapour permeability, shrinkage and alkali related expansion, nitrogen adsorption, TG/DTG, SEM

[ Hydraulics Lab ] [ Soil Mechanics Lab ] [ Acoustics Lab ] [ Back to top ]

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