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Full Time MSc Degrees in Engineering, Bedford, United Kingdom

We have 45 Full Time MSc Degrees in Engineering, Bedford, United Kingdom

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Cranfield University Energy and Power
Distance from Bedford: 0 miles
Chemical Engineering is key in addressing global challenges relating to sustainable supply of clean energy, food and water, through the production of chemicals, functionalised products and fuels. Read more

Chemical Engineering is key in addressing global challenges relating to sustainable supply of clean energy, food and water, through the production of chemicals, functionalised products and fuels. The MSc in Advanced Chemical Engineering provides technical and management training that employers increasingly demand from chemical engineers. The programme offers a general Chemical Engineering option, which covers core chemical engineering subjects and a range of specialised optional modules; and a Biorefining option (formerly the Biofuels Process Engineering MSc), which provides advanced understanding of the production of bioenergy and biofuels while strengthening the knowledge on chemical engineering discipline.

Who is it for?

The course is suitable for engineering and applied science graduates who wish to embark on successful careers as chemical engineering professionals.

Our general Chemical Engineering route equips you with diversified skills in advanced engineering, which includes theoretical and practical elements in operation, design, and control of a wide range of chemical processes. The Biorefining route (formerly the Biofuels Process Engineering MSc) equips you with fundamental understanding of chemical engineering and solid skills to address the challenges of the rapidly growing and dynamic bioenergy sector. This option covers the sustainable production of heat, power and fuels from biomass within the biorefining framework. Both routes include training in management applied to the energy sector which enables engineers to effectively fulfil a wider role in a business organisation.

Why this course?

Chemical engineering is a continuously evolving discipline linked to a variety of industries. Chemical engineers lead the design of large-scale facilities in the chemical, petrochemical, and industrial biotechnology sectors.

A distinguished feature of this course is that it is not directed exclusively at chemical engineering graduates. This MSc will provide you with the training and knowledge skill set that employers actively seek in a desirable engineering graduate. We recognise the importance of an interdisciplinary approach; as such the core and optional modules and course contents have been carefully developed to meet the engineering skill shortage currently faced within industry. In particular, no other university in the UK offers a MSc in Advanced Chemical Engineering with a dedicated option in Biorefining. You will develop the professional profile required by the growing biobased sector (more than 480,000 jobs and annual turnover of about €50 million only in the European Union), with a high level of skills' transferability across the chemical and energy sectors.

Cranfield is an exclusively postgraduate university with distinctive expertise in technology and management. There are also numerous benefits associated with undertaking a postgraduate programme of study in here. These include:

  • Teaching activities involving bespoke pilot plant facilities
  • Undertaking projects in consultation with industry, government and its agencies, local authorities and consultants
  • Lecturing from leading academics and industrial practitioners
  • Dedicated support for off-campus learners including extensive information resources managed by our library.
  • Very well located for part-time students which enables students from all over the world to complete their qualification whilst balancing work/life commitments.
  • A Career Development Service, which is an accredited member of the Association of Graduate Careers Advisory Services (AGCAS) and provides a personalised service to Cranfield students and alumni, working to enhance careers and increase opportunities. 

Course details

The taught programme is delivered from October to February and is comprised of eight modules. The modules are delivered over one week of intensive delivery with the later part of the module being free from structured teaching to allow time for more independent learning and reflection. Students on the part-time programme will complete all of the modules based on a flexible schedule that will be agreed with the Course Director.

Group project

The Group Project, undertaken between February and April, enables you to put the skills and knowledge developed during the course modules into practice in an applied context, while gaining transferable skills in project management, teamwork and independent research. Projects are often supported by industry and potential future employers value this experience. The group project is normally multidisciplinary and shared across the Energy MSc programme, giving the added benefit of working with students with other backgrounds.

Each group is given an industrially relevant problem to solve. During the project you will develop a range of skills including learning how to establish team member roles and responsibilities, project management, and delivering technical presentations. At the end of the project, all groups submit a written report and deliver a poster presentation to industry partners. This presentation provides the opportunity to develop presentation skills and effectively handle questions about complex issues in a professional manner.

Part-time students are encouraged to participate in a Group Project as it provides a wealth of learning opportunities. However, an option of an individual dissertation is available if agreed with the Course Director.

Individual project

The individual research project allows students to investigate deeper into an area of specific interest. It is very common for industrial partners to put forward real world problems or areas of development as potential research project topics. The individual research project component takes place between May and September.

If agreed with the Course Director, part-time students have the opportunity to undertake projects in collaboration with their place of work, which would be supported by academic supervision.

Individual research projects undertaken may involve feasibility assessments, reviews, practical evaluations, designs, simulations, and experimental investigations.

Assessment

Taught Modules 40%, Group Project 20%, Individual Research Project 40%

Your career

Industry driven research makes our graduates some of the most desirable in the world for recruitment by companies competing in a range of industries, including chemicals, petrochemicals, biochemicals, conventional energy and bioenergy, food, materials, consultancy and management.

Those wishing to continue their education via PhD or MBA studies in the chemical or energy sectors will be greatly facilitated by the interdisciplinary, project-oriented profile that they will have acquired through this course.



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Cranfield University Energy and Power
Distance from Bedford: 0 miles
A general advanced mechanical engineering course particularly relevant to the energy and transport sectors, including mechanical engineering design and assessment. Read more

A general advanced mechanical engineering course particularly relevant to the energy and transport sectors, including mechanical engineering design and assessment. Students will learn project management, design, computer-aided engineering, operation and optimisation of machinery, structural mechanics and integrity.

Who is it for?

Advanced Mechanical Engineering at Cranfield is unique in that it offers you a broad range of mechanical engineering projects with the added component of a management flavour. This provides the opportunity for you to enhance your mechanical engineering skill with a view to developing your career in the management of large engineering projects.

In addition to management, communication, team work and research skills, you will attain at least the following learning outcomes from this degree course:

  • Demonstrate knowledge, fundamental understanding and critical awareness of advanced mechanical engineering techniques necessary for solutions in the transport and energy sectors
  • Demonstrate systematic knowledge across appropriate advanced technologies and management issues to provide solutions for international industries and/or research organisations
  • Demonstrate the ability to acquire, critically assess the relative merits, and effectively use appropriate information from a variety of sources.

Why this course?

The MSc in Advanced Mechanical Engineering is differentiated from other courses available primarily by its industrial context through the strong links we have with national and international industry. We build our industrial links through research and consultancy, which allows us to provide practical and current examples to help illustrate learning throughout the course.

This course is also available on a part-time basis for individuals who wish to study whilst remaining in full-time employment. This enables students from all over the world to complete this qualification whilst balancing work/life commitments. We are very well located for visiting part-time students from all over the world, and offer a range of library and support facilities to support your studies. This MSc programme benefits from a wide range of cultural backgrounds which significantly enhances the learning experience for both staff and students.

Informed by Industry

This degree is particularly industrially focused; although the course does not at present have an industrial advisory board, the course staff are heavily involved in industrially funded and oriented research and development.

The Head of Department, for example, sits on the IMechE Offshore Engineering committee, two BSI committees, the Engineering Integrity Society and is Chairman of the International Ship and Offshore Structures Congress Offshore, Renewable Energy Committee. Course content is reviewed annually by the course team and project/group work is by and large related to the Department's industrially funded research.

Accreditation

This MSc degree is accredited by the Institution of Mechanical Engineers (IMechE)

Course details

The taught programme for the Advanced Mechanical Engineering masters is generally delivered from October until March and is comprised of eight compulsory taught modules. Students on the part-time programme will complete all of the compulsory modules based on a flexible schedule that will be agreed with the Course Director.

Group project

The group project undertaken between October and April enables you to put the skills and knowledge developed during the course modules into practice in an applied context while gaining transferable skills in project management, teamwork and independent research. You will put in to practice analytical and numerical skills developed in the compulsory modules.

The aim of the group project is to provide you with direct experience of applying knowledge to an industrially relevant problem that requires a team-based multidisciplinary solution. You will develop a fundamental range of skills required to work in a team including team member roles and responsibilities, project management, delivering technical presentations and exploiting the variety of expertise of each individual member. Each group will be given an industrially relevant assignment to perform. Industry involvement is an integral component for the group project, to give you first-hand experience at working within real life challenging situations. 

It is clear that the modern design engineer cannot be divorced from the commercial world. In order to provide practice in this matter, a poster presentation will be required from all students. This presentation provides the opportunity to develop presentation skills and effectively handle questions about complex issues in a professional manner. All groups submit a written report and deliver a presentation to the industry partner.

Individual project

The aim of the individual research project is to provide you with direct experience in undertaking a research/development project in a relevant industrial or research area. You will make a formal presentation of your findings to a panel of academics and industry experts and submit a research thesis.

The individual research project component takes place from March to August.

For part-time students it is common that their research thesis is undertaken in collaboration with their place of work and supported by academic supervision.

Assessment

Taught modules 40% Group Project 20% Individual Research Project 40%

Funding

To help students in finding and securing appropriate funding we have created a funding finder where you can search for suitable sources of funding by filtering the results to suit your needs. Visit the funding finder.

Your career

Industry driven research makes our graduates some of the most desirable in the world for recruitment. The MSc in Advanced Mechanical Engineering takes you onto a challenging career in industry, government or research. The course reflects the strengths and reputation of Cranfield particularly in the energy, transport and management sectors.



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Cranfield University Energy and Power
Distance from Bedford: 0 miles
Process systems engineering deals with the design, operation, optimisation and control of all kinds of chemical, physical, and biological processes through the use of systematic computer-aided approaches. Read more

Process systems engineering deals with the design, operation, optimisation and control of all kinds of chemical, physical, and biological processes through the use of systematic computer-aided approaches. Its major challenges are the development of concepts, methodologies and models for the prediction of performance and for decision-making for an engineered system.

Who is it for?

Suitable for engineering and applied science graduates who wish to embark on successful careers as process systems engineering professionals. 

The course equips graduates and practising engineers with an in-depth knowledge of the fundamentals of process systems and an excellent competency in the use of state-of-the-art approaches to deal with the major operational and design issues of the modern process industry. The course provides up-to-date technical knowledge and skills required for achieving the best management, design, control and operation of efficient process systems. 

Why this course?

Process systems engineering constitutes an interdisciplinary research area within the chemical engineering discipline. It focuses on the use of experimental techniques and systematic computer-aided methodologies for the design, operation, optimisation and control of chemical, physical, and biological processes, e.g. from chemical and petrochemical processes to pharmaceutical and food processes. 

A distinguished feature of this course is that it is not directed exclusively at chemical engineering graduates. Throughout the years, the course has evolved from discussions with industrial advisory panels, employers, sponsors and previous students. The content of the study programme is updated regularly to reflect changes arising from technical advances, economic factors and changes in legislation, regulations and standards.

By completing this course, a diligent student will be able to: 

  • Evaluate the technical, environmental and economic issues involved in the design and operation of process plants and the current practice in process industries.
  • Apply effectively the knowledge gained to the design, operation, optimisation and control of process systems via proper methodologies and relevant software.
  • Apply independent learning, especially via the effective use of information retrieval systems and a competent and professional approach to solving problems of industrial process systems.
  • Apply and critically evaluate key technical management principles, including project management, people management, technology marketing, product development and finance.
  • Apply advanced approaches and use effectively related tools in more specialised subjects related to process industries (for example risk management, biofuels or CFD tools).
  • Integrate knowledge, understanding and skills from the taught modules in a real-life situation to address problems faced by industrial clients; creating new problem diagnoses, designs, or system insights; and communicating findings in a professional manner in written, oral and visual forms.
  • Define a research question, develop aim(s) and objectives, select and execute a methodology, analyse data, evaluate findings critically and draw justifiable conclusions, demonstrating self-direction and originality of thought.
  • To communicate his/her individual research via a thesis and in an oral presentation in a style suitable for academic and professional

Accreditation

This MSc degree is accredited by Institution of Mechanical Engineers (IMechE)

Course details

The taught programme for the MSc in Process Systems Engineering is delivered from October to February and is comprised of six compulsory taught modules. There are four optional modules to select the remaining two modules from.

Group project

The Group Project, which runs between February and April, enables you to put the skills and knowledge developed during the course modules into practice in an applied context while gaining transferable skills in project management, teamwork and independent research. The group project is usually sponsored by industrial partners who provide particular problems linked to their plant operations. Projects generally require the group to provide a solution to the operational problem. Potential future employers value this experience. This group project is shared across the MSc in Process Systems Engineering and other courses, giving the added benefit of gaining new insights, ways of thinking, experience and skills from students with other backgrounds

During the project you will develop a range of skills including learning how to establish team member roles and responsibilities, project management, and delivering technical presentations. At the end of the project, all groups submit a written report and deliver a presentation to the industrial partner. This presentation provides the opportunity to develop interpersonal and presentation skills within a professional environment.

It is clear that the modern engineer cannot be divorced from the commercial world. In order to provide practice in this matter, a poster presentation will be required from all students. This presentation provides the opportunity to develop presentation skills and effectively handle questions about complex issues in a professional manner.

Part-time students are encouraged to participate in a group project as it provides a wealth of learning opportunities. However, an option of an individual dissertation is available if agreed with the Course Director.

Individual project

The individual research project allows you to delve deeper into a specific area of interest. As our academic research is so closely related to industry, it is very common for our industrial partners to put forward real-world problems or areas of development as potential research topics.

The individual research project component takes place between April/May and August for full-time students. For part-time students, it is common that their research projects are undertaken in collaboration with their place of work under academic supervision; given the approval of the Course Director.

Individual research projects undertaken may involve designs, computer simulations, feasibility assessments, reviews, practical evaluations and experimental investigations.

Assessment

Taught modules 40%, Group project 20% (dissertation for part-time students), Individual Research Project 40%

Funding

To help students in finding and securing appropriate funding we have created a funding finder where you can search for suitable sources of funding by filtering the results to suit your needs. Visit the funding finder.



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Cranfield University Aerospace
Distance from Bedford: 0 miles
Rotating Machinery, Engineering and Management provides a comprehensive background in the design and operation of different types of rotating equipment for power, oil, gas, marine and other surface applications. Read more

Course Description

Rotating Machinery, Engineering and Management provides a comprehensive background in the design and operation of different types of rotating equipment for power, oil, gas, marine and other surface applications. The course is designed for those seeking a career in the design, development, operation and maintenance of power systems. Graduates are provided with the skills that allow them to deliver immediate benefits in a very demanding and rewarding workplace and therefore are in great demand. This course is suitable for graduates seeking a challenging and rewarding career in an international growth industry.

Overview

Rotating machinery is employed today in a wide variety of industrial applications including oil, power, and process industries. With the continuing expansion of the applications of rotating machinery, qualified personnel are required by the increasingly large numbers of users.

English Language Requirements

If you are an international student you will need to provide evidence that you have achieved a satisfactory test result in an English qualification. The minimum standard expected from a number of accepted courses are as follows:

IELTS - 6.5
TOEFL - 92
Pearson PTE Academic - 65
Cambridge English Scale - 180
Cambridge English: Advanced - C
Cambridge English: Proficiency - C

In addition to these minimum scores you are also expected to achieve a balanced score across all elements of the test. We reserve the right to reject any test score if any one element of the test score is too low.

We can only accept tests taken within two years of your registration date (with the exception of Cambridge English tests which have no expiry date).

Structure

The course consists of approximately eight to twelve taught modules and an individual research project.

In addition to management, communication, team work and research skills, each student will attain at least the following outcomes from this degree course:
- Provide the skills required for a rewarding career in the field of propulsion and power.
- Meet employer requirements for graduates within power and propulsion industries.
- Demonstrate a working knowledge and critical awareness of gas turbine performance, analysis techniques, component design and associated technologies.
- Explain, differentiate and critically discuss the underpinning concepts and theories for a wide range of areas of gas turbine engineering and associated applications.
- Be able to discern, select and apply appropriate analysis techniques in the assessment of particular aspects of gas turbine engineering.

Modules

The taught programme for the Rotating Machinery, Engineering and Management masters consists of eight compulsory modules and up to four optional modules. The modules are generally delivered from October to April.

Core:
- Blade Cooling
- Combustors
- Engine Systems
- Gas Turbine Theory and Performance
- Management for Technology: Energy
- Mechanical Design of Turbomachinery
- Turbomachinery
- Gas Turbine Operations and Rotating Machines

Optional:
- Computational Fluid Dynamics
- Fatigue and Fracture
- Gas Turbine Simulation and Diagnostics

Individual Project

You are required to submit a written thesis describing an individual research project carried out during the course. Many individual research projects have been carried out with industrial sponsorship, and have often resulted in publication in international journals and symposium papers. This thesis is examined orally in September in the presence of an external examiner.

Recent Individual Research Projects include:
- Performance and economic study on the viability of combined cycle floating power barge
- Risk-based maintenance for azep
- Implementation of the nutating disk engine in high bypass turbofan
- Load minimization of tidal turbines
- Gas turbine airfleet maintenance case study
- Airfleet maintenance study
- Advanced bottoming cycle technology
- Cavitation simulation in centrifugal pump.

Assessment

The final assessment is based on two components of equal weight; the taught modules (50%) and the individual research project (50%). Assessment is by examinations, assignments, presentations and thesis.

Career opportunities

- Gas turbine engine manufacturers
- Airframe manufacturers
- Airline operators
- Regulatory bodies
- Aerospace/Energy consultancies
- Power production industries
- Academia: doctoral studies.

For further information

On this course, please visit our course webpage http://www.cranfield.ac.uk/Courses/Masters/Rotating-Machinery-Engineering-and-Management-Option

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Cranfield University Water
Distance from Bedford: 0 miles
Water is under increasing pressure from demographic and climatic changes. Treatment processes play a key role in delivering safe, reliable supplies of water to households, industry and agriculture, and in safeguarding the quality of water. Read more

Water is under increasing pressure from demographic and climatic changes. Treatment processes play a key role in delivering safe, reliable supplies of water to households, industry and agriculture, and in safeguarding the quality of water.

Who is it for?

The Water and Wastewater Engineering course is ideal for individuals who want to make a real difference to delivering reliable water supplies, or to maintaining and enhancing river and ground water quality.

Well-educated, skilled and experienced graduates are required to operate and manage vital water and wastewater treatment services. The demand for such graduates is already high and will only increase over coming years as environmental standards for water quality increase, and pressures on our water supplies continue to grow.

Why this course?

The Water and Wastewater Engineering course aims to develop: 

  • Water and wastewater treatment scientists, technologists and engineers with the skills to solve practical problems, communicate effectively and work successfully both in teams and individually
  • High quality graduates trained and qualified to work in all areas of water and wastewater treatment and management enabling them to provide a valuable contribution to the UK and global water sectors
  • Understanding of water and wastewater systems through innovative teaching, achieved by blending theory, application and practice.

Demand for Cranfield graduates has grown steadily as the education provided has become recognised as excellent, producing graduates able to step into a range of positions and make an immediate and real contribution to the effectiveness of water sector businesses and organisations. Graduates from these programmes are highly sought after by industry and government.

Accreditation

These MSc, PgDip and PgCert degrees are accredited by the Chartered Institution of Water and Environmental Management (CIWEM).

Course details

This course comprises eight taught modules, a group project and an individual project. The modules included lectures and tutorials, and are assessed through practical work, written examinations, case studies, essays, presentations and tests. These provide the 'tools' required for the group and individual projects.

Group project

The group project is an applied multidisciplinary team-based activity. It provides students with the opportunity, whilst working in teams under academic supervision, to apply principles taught during modules whilst taking responsibility for project tasks. Success is dependent on the integration of various activities, working within agreed objectives, deadlines and budgets. Students submit project reports and present their findings to representatives from industry. This develops professional practice in communication skills for technical and business areas of process development. Part-time students complete a single design project individually in a field of their choice.

Individual project

Students select their individual project in consultation with their Course Director. This provides students with the opportunity to demonstrate independent research ability working within agreed objectives, deadlines and budgets. The project is sponsored by industry and usually includes a four month placement with the sponsoring company. Placements have been offered by all ten of the UK water utilities, the leading two French utilities, as well as multinational companies and SMEs operating in the water sector. Part-time students usually undertake their individual project with their employer.

Assessment

Taught modules 40%, Group projects 20%, Individual project 40%

Funding Opportunities

To help students in finding and securing appropriate funding we have created a funding finder where you can search for suitable sources of funding by filtering the results to suit your needs. Visit the funding finder.

Postgraduate Loan from Student Finance England A Postgraduate Loan is now available for UK and EU applicants to help you pay for your Master’s course. You can apply for a loan at GOV.UK

Future Finance Student Loans Future Finance offer student loans of up to £40,000 that can cover living costs and tuition fees for all student at Cranfield University.

Your career

The Cranfield Water Sciences Institute's links to industry, underpinned by the reputation of its courses, enable successful students to secure positions and develop their careers in UK water companies, utilities across Europe, the major international engineering consultancies, major engineering and service contractors, and government agencies. 

The Centre is recognised internationally as a centre of excellence for postgraduate courses. It is the UK's largest academic group specialising in process technologies, engineering and policy for water quality improvement, and is a member of British Water.

Industry practitioners teach alongside a wide-range of subject specialists. In addition, group and individual thesis projects are supported by sponsoring companies, and prizes are awarded annually to recognise success. Graduates also go on to academic research.

Former students are invited to join the Centre's Alumni Association which offers excellent networking opportunities throughout the world.



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Cranfield University Environment and Agrifood
Distance from Bedford: 0 miles
Study an Environment MSc at Cranfield. There is a growing need for environmental engineers who understand the technologies for pollution control and the commercial opportunities for business. Read more

Study an Environment MSc at Cranfield

There is a growing need for environmental engineers who understand the technologies for pollution control and the commercial opportunities for business. This course equips students with the knowledge and skills to solve a wide range of environmental engineering challenges.

Who is it for?

Suitable for graduate scientists and engineers concerned with the protection and enhancement of human life through the improvement and protection of environmental quality at both local and global scales. 

The MSc course comprises eight assessed modules, an integrated group project and an individual project. Students undertaking the Postgraduate Diploma (PgDip) complete the eight modules and the group project. Postgraduate Certificate (PgCert) students are required to complete six of the eight modules.

Why this course?

This course equips students with the knowledge and skills to solve a wide range of environmental engineering challenges. The course covers municipal and hazardous waste management, process emissions, contaminated land, water, wastewater and waste disposal. The programme also addresses energy and resource recovery from waste materials.

The course will provide you with:

  • An advanced theoretical and specialist understanding of processes and practices central to environmental engineering
  • An ability to select and apply appropriate existing and emerging technologies that can achieve lower environmental impact via an integrated and cross-disciplinary approach
  • Scientific, technical and engineering principles, economic consequences and risks of environmental management options as best practice
  • Capacity to undertake successful technical research projects using appropriate methods of critical analysis.

Accreditation

Course details

The modules include lectures and tutorials, and are assessed through examinations and assignments. There is an emphasis on analysis of real problems. Students undertaking the Postgraduate Diploma (PgDip) complete the seven modules and the group project. Postgraduate Certificate (PgCert) students are required to complete six of the eight modules.

Group project

The group project experience is highly valued by both students and prospective employers. It provides students with the opportunity to take responsibility for a consultancy-type project, working within agreed objectives, deadlines and budgets. For part-time students a dissertation or projects portfolio can replace the group project.

Individual project

The individual thesis project, usually in collaboration with an external organisation, offers students the opportunity to develop their research capability and understanding of the subject and their ability to provide solutions to real problems in environmental engineering.

Assessment

Taught modules 40%, group project 20% (dissertation for part-time students), individual project 40%.

Funding Opportunities

To help students in finding and securing appropriate funding we have created a funding finder where you can search for suitable sources of funding by filtering the results to suit your needs. Visit the funding finder.

Postgraduate Loan from Student Finance England A Postgraduate Loan is now available for UK and EU applicants to help you pay for your Master’s course. You can apply for a loan at GOV.UK

Future Finance Student LoansFuture Finance offer student loans of up to £40,000 that can cover living costs and tuition fees for all student at Cranfield University.

Your career

On completion of this MSc, graduates have a broader network of global contacts, increased opportunities for individual specialism and a wide range of careers as professional scientists and engineers in the environment sector.



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Cranfield University Energy and Power
Distance from Bedford: 0 miles
Subsea engineering focuses on the deepwater issues of oil and gas exploitation. Operations have moved from relatively shallow water to depths that now demand totally different engineering solutions. Read more
Subsea engineering focuses on the deepwater issues of oil and gas exploitation. Operations have moved from relatively shallow water to depths that now demand totally different engineering solutions. The Offshore and Ocean Technology with Subsea Engineering MSc course addresses both the hardware that is used subsea, such as wellheads and separators, as well as important issues such as field layout, flow assurance and installation/maintenance.

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Cranfield University Aerospace
Distance from Bedford: 0 miles
The MSc in Astronautics and Space Engineering is suitable for graduates in engineering, physics or mathematics, and will prepare you for a career in this exciting field, from earth observation to planetary exploration, launch vehicles to spacecraft operations, and much more. Read more
The MSc in Astronautics and Space Engineering is suitable for graduates in engineering, physics or mathematics, and will prepare you for a career in this exciting field, from earth observation to planetary exploration, launch vehicles to spacecraft operations, and much more. This course was established in 1987 to meet the requirement of the space industry for high quality engineers with relevant skills. The course has evolved since then as needs have changed, and we are constantly working to ensure our curriculum continues to prepare our graduates for highly successful careers in the space sector.

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Cranfield University Transport Systems
Distance from Bedford: 0 miles
Cranfield University's Advanced Motorsport Engineering MSc has been developed in collaboration with leading motorsport companies, in response to the sector's need for postgraduate level engineers. Read more
Cranfield University's Advanced Motorsport Engineering MSc has been developed in collaboration with leading motorsport companies, in response to the sector's need for postgraduate level engineers. The Cranfield Masters programme will hone your skills and expertise in relation to motorsport and high performance engineering. Motorsport practitioners such as Pat Symonds, Adrian Reynard, Andrew McFarlan, Stefan Strahnz, Mike Pilbeam and Daniele Casanova contribute valuable sessions on the course.

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Cranfield University Transport Systems
Distance from Bedford: 0 miles
The MSc in Automotive Engineering has been established for over 50 years with excellent industrial links and an outstanding record for the employment of its graduates. Read more
The MSc in Automotive Engineering has been established for over 50 years with excellent industrial links and an outstanding record for the employment of its graduates. The automotive industry is global and similarly the reputation of this course is attracting students from all parts of the world to share in the learning experience. The MSc in Automotive Engineering offers students the opportunity to study in a postgraduate only environment where Masters' graduates can secure positions in full-time employment in their chosen field, or undertake academic research. You will be taught by leading academics as well as industrial practitioners, and work alongside a strong research team at Cranfield University. Industry placements are on offer during research work.

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Cranfield University Energy and Power
Distance from Bedford: 0 miles
Subsea pipelines are both key to field development and the transportation of oil and gas. It is also a key global industry. Read more
Subsea pipelines are both key to field development and the transportation of oil and gas. It is also a key global industry. The Offshore and Ocean Technology with Pipeline Engineering MSc course focuses on the skills required to understand the materials, installation and maintenance issues associated with this important infrastructure. This programme is suitable for engineering and science graduates keen to pursue careers within the offshore sector; or graduates currently working in the offshore and ocean-related industries keen to extend their qualifications; or individuals with other qualifications who possess considerable relevant experience.

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Cranfield University Aerospace
Distance from Bedford: 0 miles
Computer Aided Engineering (CAE) covers the use of computers in all activities from the design to the manufacture of a product. It is at the forefront of information technology and of crucial importance to economies around the world. Read more
Computer Aided Engineering (CAE) covers the use of computers in all activities from the design to the manufacture of a product. It is at the forefront of information technology and of crucial importance to economies around the world. It is a vital part of many global industries including those of automotive, aerospace, oil, defence, finance and health. Computer Aided Engineering systems provide virtual product development environments allowing 3D models to be created, analysed, optimised and stored efficiently; operational and extreme physical conditions can be evaluated, reducing (and sometimes eliminating) the need for prototypes.

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Cranfield University Manufacturing
Distance from Bedford: 0 miles
The postgraduate level Welding Engineering programme will provide graduates with a fundamental understanding of welding technologies and an awareness of recent technical developments within the relevant industries. Read more
The postgraduate level Welding Engineering programme will provide graduates with a fundamental understanding of welding technologies and an awareness of recent technical developments within the relevant industries. It will also improve communication, presentation, analytical and problem solving skills. Our graduates are highly sought after by international companies using welding and joining technologies, and are able to attain positions of significant engineering responsibility.

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Cranfield University Energy and Power
Distance from Bedford: 0 miles
Renewables are seen as the future source of energy to meet the world's growing demand, with geothermal resources offering a constant and independent supply. Read more

Renewables are seen as the future source of energy to meet the world's growing demand, with geothermal resources offering a constant and independent supply. Almost 90 countries have geothermal energy yet only 24 of them produce electricity from geothermal sources. There is a growing demand for specialists that will be capable of ensuring successful implementation of more geothermal energy projects to help lower the dependency on energy imports and to develop a broader base in the future energy mix.

Who is it for?

The course is suitable for engineering and applied science graduates who wish to embark on successful careers as geothermal energy professionals.

Why this course?

Geothermal resources will play a significant role in ensuring access to sustainable and reliable energy for all. Interdisciplinary competence is needed to untap the vast geothermal potential worldwide, through implementation of more and larger projects.

This is the only course to encompass all aspects of geothermal exploitation, from exploration to project delivery. You will develop the professional profile required by a growing energy sector, with a high level of skills' transferability across other geo-resource sectors, including oil and gas.

In addition to management, communication, teamwork and research skills, each student will attain at least the following outcomes from this degree course:

  • Demonstrate competence in the current concepts and theories governing energy flows, heat transfer and energy conversions.
  • Effectively acquire and critically review information from various sources
  • Gain an in-depth understanding of geothermal exploration, geothermal reservoir characterisation, drilling and completions, well performance and heat / power production
  • Develop a professional ability to undertake a critical appraisal of the interaction and dependency of sub-surface reservoir parameters with surface facilities
  • Demonstrate an in-depth understanding of the issues involved in the management of geothermal energy projects
  • Assess the potential of geothermal energy in the global energy resource portfolio.

We are very well located for visiting part-time students from all over the world, and we offer a range of library and support facilities to support your studies. This enables students from all over the world to complete this qualification whilst balancing work/life commitments. All our MSc programmes benefit from a wide range of cultural backgrounds which significantly enhances the learning experience for both staff and students.

Course details

The course will be composed of eight taught modules, one group project and one individual project.

Group project

The group project, which runs between February and April, enables you to apply the skills and knowledge acquired during the course modules to an industrially relevant problem that requires a team-based, multi-disciplinary solution. In addition to gaining experience working in technical project teams, you will deliver presentations and learn other valuable skills.

A poster presentation will be required from all students. This presentation provides the opportunity to develop presentation skills and effectively handle questions about complex issues in a professional manner. All groups must also submit a written report.

Part-time students are encouraged to participate in a group project as it provides a wealth of learning opportunities. However, an option of an individual dissertation is available, if agreed with the Course Directors.

Individual project

The individual research project allows you to delve deeper into a specific area of interest. As our academic research is so closely related to industry, it is common for our industrial partners to put forward real practical problems or areas of development as potential research topics.

You will develop the skills required to design, optimise and evaluate the technical and economic viability of geothermal energy projects. Individual research projects may involve designs, computer simulations, feasibility assessments, reviews, practical evaluations and experimental investigations.

The individual research project runs between April/May and August for full-time students. For part-time students, it is common that their research project is undertaken in collaboration with their place of work, under academic supervision./p>

Assessment

Taught modules 40%, Group project 20%, Individual project 40%

Funding

To help students in finding and securing appropriate funding we have created a funding finder where you can search for suitable sources of funding by filtering the results to suit your needs. Visit the funding finder.

Your career

Graduates from this course will develop diverse and rewarding careers in the extremely exciting and challenging field of geothermal engineering. The international nature of this growing field means that career opportunities are not restricted to the domestic market; Cranfield graduates develop careers around the world.

Those wishing to continue their education via PhD or MBA studies in the energy sector will be greatly facilitated by the interdisciplinary, project-oriented profile that they will have acquired through this course.



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