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Are you keen to develop your existing engineering skills and knowledge to master’s level?. The MSc Engineering Management course has been specifically designed to allow you to update, extend and deepen your understanding of engineering and management. Read more
Are you keen to develop your existing engineering skills and knowledge to master’s level?

The MSc Engineering Management course has been specifically designed to allow you to update, extend and deepen your understanding of engineering and management.

You will build on your current knowledge of subjects such as solid modelling and prototyping, computer aided design and engineering data analysis, whilst developing management and entrepreneurial skills that will enhance your career opportunities within engineering and the broader business environment.

In the second year, for one semester, you’ll undertake an internship, study in another country or join a research group. This valuable experience will enhance your employability and further develop your theoretical and practical skills.

Internship

This option offers the opportunity to spend three months working full-time in one of the many companies/industries with which we have close links. You may be able to extend this over more than one semester in cases where it is adjacent to a vacation period. We will endeavour to help those who prefer this option to find and secure a suitable position but ultimately we are in the hands of the employers who are free to decide who they take into their organisation.

Research

If you take this option, you will be assigned to our Engineering, Physics and Materials Research Group. There is every possibility that you may contribute to published research and therefore you may be named as part of the research team, which would be a great start to a research career.

Study Abroad

We have exchange agreements with universities all over the world, including partners in Europe, Asia, the Americas and Oceania. If you take the Study Abroad option you will spend a semester at one of these partners, continuing your studies in English but in a new cultural and learning environment. Please note that this option may require you to obtain a visa for study in the other country.

With the increasing complexity of the engineering sector there is a requirement for engineering managers to be specialised not just in engineering, but also in wider business and management. This course has been specifically designed to meet the demands of today’s employers and provide a solid foundation for you to progress to management level.

Learn From The Best

You’ll be taught by tutors who have many years of experience in the various aspects of the engineering industry. Their experience, combined with their on-going active research, will provide an excellent foundation for your learning.

The quality of their research has put Northumbria University among the UK’s top 25% of universities for the percentage of research outputs in engineering that are ranked as world-leading or internationally excellent. (Research Excellence Framework 2014.)

Our reputation for quality is reflected by the range and depth of our collaborations with industry partners. We’ve built up numerous industrial links during the 50+ years that we’ve been offering engineering courses. These links help ensure high quality placements and collaborative projects.

Northumbria has the advantage of being located in the North East of England, which is a centre of manufacturing and technical innovation. As well as Nissan, the region’s #1 company, there is a strong concentration of automotive, engineering, chemicals, construction and manufacturing companies.

Teaching And Assessment

The structure of this course has been designed to focus on engineering issues and processes, and how they apply to those in management positions.

This course incorporates six taught modules: research methods, project, programme and portfolio management; project change, risk and opportunities management; technology entrepreneurship and product development; engineering management data analysis and sustainable development for engineering practitioners.

Throughout the duration of this course you will build core skills in key areas such as management, business, finance and computing, providing you with a strong understanding of the day-to-day processes that underpin the smooth running of a successful organisation.

This course is primarily delivered by lectures and supporting seminars such as guided laboratory workshops or staffed tutorials. Assessments are undertaken in the form of exams, assignments, technical reports, presentations and project work. The Advanced Practice semester will be assessed via a report and presentation about your internship, study abroad or research group activities.

On completion of all taught modules you will undertake a substantial piece of research around a subject of particular interest to you and your own career aspirations.

Module Overview
Year One
KB7030 - Research Methods (Core, 20 Credits)
KB7031 - Project, Programme and Portfolio Management (Core, 20 Credits)
KB7033 - Project change, risk and opportunities management (Core, 20 Credits)
KB7040 - Sustainable Development for Engineering Practitioners (Core, 20 Credits)
KB7044 - Engineering Management Data Analysis (Core, 20 Credits)
KB7046 - Technology Entrepreneurship & Product Development (Core, 20 Credits)

Year Two
KB7052 - Research Project (Core, 60 Credits)
KF7005 - Engineering and Environment Advanced Practice (Core, 60 Credits)

Learning Environment

Throughout the duration of your course you will have access to our dedicated engineering laboratories that are continuously updated to reflect real-time industry practice.

Our facilities include mechanical and energy systems experimentation labs, rapid product development and performance analysis, materials testing and characterisation, 3D digital design and manufacturing process performance.

You will be given the opportunity to get hands-on with testing, materials processing, moulding, thermal analysis and 3D rapid manufacture to help you create the products and systems required for the projects you will work on during your course.

Your learning journey will also be supported by technology such as discussion boards and video tutorials. You will also participate in IT workshops where you will learn how to use the latest industry-standard software.

Videos of lectures will on many occasions be made available through Panopto video software to further support teaching delivery.

You will also have access to all Northumbria University’s state-of-the-art general learning facilities such as dedicated IT suites and learning areas.

Research-Rich Learning

When studying at Northumbria University you will be taught by out team of specialist staff who boast a wealth of multi-dimensional expertise. The programme is designed to be research-led, delivering up-do-date teaching that is often based on current research undertaken by our team.

Our teaching team incorporates a dynamic mix of research-active industrial practitioners, renowned researchers and technologists, whose combined knowledge ensures you leave with an in-depth understanding of key engineering management practice and research.

You will be encouraged to undertake your own research–based learning, where you will evaluate and critique scientific papers and write research-based reports based on the information gathered.

The department of Mechanical and Construction Engineering is a top-35 Engineering research department with 79% of our outputs ranked world-leading or internationally excellent according to the latest UK-wide research assessment exercise (REF2014, UoA15). This places us in the top quartile for world-leading publications among UK universities in general engineering.

Give Your Career An Edge

With the increasing complexity of the engineering industry there is a requirement for managers to be specialised not just in engineering, but also the general business and management aspects of a company.

This course has been specifically designed to allow you to update, extend and deepen your knowledge to further enhance your career opportunities in both industry and entrepreneurship.

The MSc Engineering Management course will equip you with skills, tools, techniques and methods that are applicable to engineering companies and many other businesses in the UK and abroad.

The Advanced Practice semester will help you develop a track record of achievement that will help you stand out from other job applicants.

A two-year master’s course, like this one, will carry particular weight with employers. They’ll understand that you’ll have a deeper understanding of topics as well as more hands-on practical experience.

On completion of this course you will possess a deep understanding of engineering data analysis, research and project management, programme and portfolio management, project risk management and technology entrepreneurship.

Industry practice and subject benchmarking have strongly influenced the design of this course to ensure you will leave equipped with the skills that are required by today’s employers.

Your Future

The broad range of subjects covered on this course will prepare you for an array of careers within the engineering sector or a general business environment.

You may decide to pursue a career within general engineering, or a more specialised engineering sector.

This course emphasises entrepreneurship and enterprise, developing and enhancing the management and strategic skills that will prepare you for running your own business, should this be your aspiration. These core business skills will also prepare you for management jobs within engineering or another sector.

This course also sets a solid foundation for those wishing to pursue further study or a career within research or teaching.

Read less
Are you keen to develop your existing engineering skills and knowledge to master’s level?. The MSc Engineering Management course has been specifically designed to allow you to update, extend and deepen your understanding of engineering and management. Read more
Are you keen to develop your existing engineering skills and knowledge to master’s level?

The MSc Engineering Management course has been specifically designed to allow you to update, extend and deepen your understanding of engineering and management.

You will build on your current knowledge of subjects such as solid modelling and prototyping, computer aided design and engineering data analysis, whilst developing management and entrepreneurial skills that will enhance your career opportunities within engineering and the broader business environment.

With the increasing complexity of the engineering sector there is a requirement for engineering managers to be specialised not just in engineering, but also in wider business and management. This course has been specifically designed to meet the demands of today’s employers and provide a solid foundation for you to progress to management level.

This course can also be started in January - for more information, please view this web-page: https://www.northumbria.ac.uk/study-at-northumbria/courses/engineering-management-msc-ft-dtfegx6/

Learn From The Best

You’ll be taught by tutors who have many years of experience in the various aspects of the engineering industry. Their experience, combined with their on-going active research, will provide an excellent foundation for your learning.

The quality of their research has put Northumbria University among the UK’s top 25% of universities for the percentage of research outputs in engineering that are ranked as world-leading or internationally excellent. (Research Excellence Framework 2014.)

Our reputation for quality is reflected by the range and depth of our collaborations with industry partners. We’ve built up numerous industrial links during the 50+ years that we’ve been offering engineering courses. These links help ensure high quality placements and collaborative projects.

Northumbria has the advantage of being located in the North East of England, which is a centre of manufacturing and technical innovation. As well as Nissan, the region’s #1 company, there is a strong concentration of automotive, engineering, chemicals, construction and manufacturing companies.

Teaching And Assessment

The structure of this course has been designed to focus on engineering issues and processes, and how they apply to those in management positions.

This course incorporates six taught modules: research methods, project, programme and portfolio management; project change, risk and opportunities management; technology entrepreneurship and product development; engineering management data analysis and sustainable development for engineering practitioners.

Throughout the duration of this course you will build core skills in key areas such as management, business, finance and computing, providing you with a strong understanding of the day-to-day processes that underpin the smooth running of a successful organisation.

This course is primarily delivered by lectures and supporting seminars such as guided laboratory workshops or staffed tutorials. Assessments are undertaken in the form of exams, assignments, technical reports, presentations and project work.

On completion of all taught modules you will undertake a substantial piece of research around a subject of particular interest to you and your own career aspirations.

Learning Environment

Throughout the duration of your course you will have access to our dedicated engineering laboratories that are continuously updated to reflect real-time industry practice.

Our facilities include mechanical and energy systems experimentation labs, rapid product development and performance analysis, materials testing and characterisation, 3D digital design and manufacturing process performance.

You will be given the opportunity to get hands-on with testing, materials processing, moulding, thermal analysis and 3D rapid manufacture to help you create the products and systems required for the projects you will work on during your course.

Your learning journey will also be supported by technology such as discussion boards and video tutorials. You will also participate in IT workshops where you will learn how to use the latest industry-standard software.

Videos of lectures will on many occasions be made available through Panopto video software to further support teaching delivery.

You will also have access to all Northumbria University’s state-of-the-art general learning facilities such as dedicated IT suites and learning areas.

Research-Rich Learning

When studying at Northumbria University you will be taught by out team of specialist staff who boast a wealth of multi-dimensional expertise. The programme is designed to be research-led, delivering up-do-date teaching that is often based on current research undertaken by our team.

Our teaching team incorporates a dynamic mix of research-active industrial practitioners, renowned researchers and technologists, whose combined knowledge ensures you leave with an in-depth understanding of key engineering management practice and research.

You will be encouraged to undertake your own research–based learning, where you will evaluate and critique scientific papers and write research-based reports based on the information gathered.

The department of Mechanical and Construction Engineering is a top-35 Engineering research department with 79% of our outputs ranked world-leading or internationally excellent according to the latest UK-wide research assessment exercise (REF2014, UoA15). This places us in the top quartile for world-leading publications among UK universities in general engineering.

Give Your Career An Edge

With the increasing complexity of the engineering industry there is a requirement for managers to be specialised not just in engineering, but also the general business and management aspects of a company.

This course has been specifically designed to allow you to update, extend and deepen your knowledge to further enhance your career opportunities in both industry and entrepreneurship.

The MSc Engineering Management course will equip you with skills, tools, techniques and methods that are applicable to engineering companies and many other businesses in the UK and abroad.

On completion of this course you will possess a deep understanding of engineering data analysis, research and project management, programme and portfolio management, project risk management and technology entrepreneurship.

Industry practice and subject benchmarking have strongly influenced the design of this course to ensure you will leave equipped with the skills that are required by today’s employers.

Your Future

The broad range of subjects covered on this course will prepare you for an array of careers within the engineering sector or a general business environment.

You may decide to pursue a career within general engineering, or a more specialised engineering sector.

This programme emphasises entrepreneurship and enterprise, developing and enhancing the management and strategic skills that will prepare you for running your own business, should this be your aspiration. These core business skills will also prepare you for management jobs within engineering or another sector.

This course also sets a solid foundation for those wishing to pursue further study or a career within research or teaching.

Read less
Energy Engineering is the branch of engineering concerned with the design and the management of energy plants and their components in order to ensure the best use of the available resources with the minimum environmental impact. Read more

Mission and goals

Energy Engineering is the branch of engineering concerned with the design and the management of energy plants and their components in order to ensure the best use of the available resources with the minimum environmental impact. Energy plants are systems in which energy forms are transformed and utilized. To name a few examples: large thermal power stations, air-conditioning and climate control equipment for residences and offices, vehicle engines, airplane propellers, solar panels etc.
The Master of Science in Energy Engineering prepares professionals to design, select and use the main technologies in energy transformation, to actively follow scientific improvements and to operate effectively in a competitive and multi-disciplinary industrial context, characterized by significant environmental, regulatory and safety constraints. Students will analyze broad themes as well as specific subjects for which both a rigorous methodological approach to thermodynamics and an open attitude towards related interdisciplinary topics are required.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-track/

Professional opportunities

Graduates can find employment in several sectors: in the technical area of designing, testing, running, and maintaining the energy systems, like heating and cooling systems, thermal power and hydro-electric power plants, engines, oil and gas fields; in the energy management area; and in utilities and public boards that supply energy as electricity and natural gas.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Energy_Engineering_MI.pdf
Energy Engineering is the branch of engineering concerned with the design and the management of energy plants and their components in order to ensure the best use of the available resources with the minimum environmental impact. Energy plants are
systems in which energy forms are transformed and utilized. To name a few examples: large thermal power stations, air-conditioning and climate control equipment for residences and offices, vehicle engines, airplane propellers, solar panels etc. The Master of Science in Energy Engineering prepares professionals to design, select and use the main technologies in energy transformation, to actively follow scientific improvements and to operate effectively in a competitive and multi-disciplinary industrial context, characterized by significant environmental, regulatory and safety constraints. Students will analyze broad themes as well as specific subjects for which both a rigorous methodological approach to thermodynamics and an open attitude towards related interdisciplinary topics are required.
Graduates can find employment in several sectors: in the technical area of designing, testing, running, and maintaining the energy systems, like heating and cooling systems, thermal power and hydro-electric power plants, engines, oil and gas fields; in the energy management area; and in utilities and public boards that supply energy as electricity and natural gas. The programme is taught in English.

Subjects

- Five tracks available: Power Production; Heating, Ventilation and Air-Conditioning; Oil and Gas Engineering; Energy Engineering for an Environmentally Sustainable World (offered on Piacenza campus, see separate leaflet); Energy for Development.

- Subjects and courses common to all the tracks: Heat and Mass Transfer; Fundamentals of Chemical Processes; Advanced Energy Engineering and Thermoeconomics;; Combustion and Safety; Energy Conversion or Refrigeration, Heat Pumps and Thermal Power Systems and Components; Energy Economics or Project Management or Management Control Systems; Graduation Thesis.

- Optional subjects according to the selected track: Development Economy; Engineering and Cooperation for Development; Power Production from Renewable Sources; Engineering of Solar Thermal Processes; Petroleum Reservoir Engineering; Petroleum Technology and Biofuel; Transport Phenomena in the Reservoirs; CFD for Energy Engineering Analysis; System and Electrical Machines; Advanced Energy Systems; Dynamic Behavior and Diagnostics of Machines; Materials for Energy; Turbomachinery; Internal Combustion Engines; Air Conditioning and Room Pollutant-Controlling Plants, Energy Savings and Renewable Energies in Buildings; Applied Acoustics and Lighting; Design of Thermal Systems; Energy Systems and Low-Carbon Technologies; Air Pollutions and Control Engineering; Operation and Control of Machines for Power Generation; Bio-energy and Waste-to-Energy Technologies; Smart Grids and Regulation for Renewable Energy Sources.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-track/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-track/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

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This programme is aimed at graduates of building services engineering and other science and engineering disciplines who wish to extend their technical expertise in the field of building services engineering. Read more
This programme is aimed at graduates of building services engineering and other science and engineering disciplines who wish to extend their technical expertise in the field of building services engineering. With energy consumption within the design and operation of buildings becoming an ever increasingly important factor this programme is designed to combine building services engineering knowledge with specific energy considerations in their design.

The programme is accredited for further learning for CEng and professional membership by the Energy Institute and CIBSE. CIBSE has praised the programme as ‘one of the leading MSc courses of its kind in the UK’.

Areas studied include low energy building design, designing for suitable indoor air quality and thermal comfort, state-of-the-art control systems, and the design of building heating, ventilating, and air conditioning systems.

The course attracts students from all over the world, including countries such as Greece, Iran, China, France, Germany and Colombia. This is attractive to potential employers who often have international offices around the world.

Key Facts

- An outstanding place to study. The School of Civil and Building Engineering is ranked 2nd in the UK for Building in the Times Good University Guide 2015
- Research-led teaching from international experts. 75% of the School’s research was rated as world-leading or internationally excellent in the latest Government Research Excellence Framework.
- The programme is accredited by the two main institutions representing energy and buildings – the Chartered Institution of Building Services Engineers and the Energy Institute. On successful completion of the course, students are deemed to meet the education requirements for both institutions and their applications can be endorsed by course tutors.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/civil/low-energy-building-services/

Programme modules

Compulsory Modules:
- Thermodynamics, Heat Transfer & Fluid Flow [70% exam, 10 credits]
The aim of this module is to provide students from related engineering backgrounds with an understanding of the fundamentals of heat transfer, fluid flow and thermodynamics for application to buildings and their engineering systems.

- Thermal Comfort & Indoor Air Quality [70% exam, 15 credits]
The aim of this module is for the student to understand the principles and practice involved in the design of indoor environments, with respect to occupant thermal comfort and air quality.

- Building Thermal Loads & Systems [70% exam, 15 credits]
The aim of this module is for the student to understand the principles of building thermal load analysis and required systems for medium to large buildings.

- Building Energy Supply Systems [70% exam, 15 credits]
The aim of this module is for the student to be provided with a practical foundation in system design and analysis, by developing the students' understanding of thermal plant in buildings including air conditioning systems and systems for heat recovery.

- Building Control & Commissioning [70% exam, 10 credits]
The aims of this module are for the student to understand the application of automatic control in energy monitoring and commissioning and to examine the control problems in buildings and develop control strategies that will improve thermal comfort and building energy use.

- Concept Design [0% exam, 15 credits]
The aims of this module are for the student to be introduced to the process within which buildings are conceived and designed by undertaking the architecture design of a major building using multi-disciplinary input. Students will develop team skills through working in design groups to generate schematic concepts before developing the best. They will apply previous knowledge of building services and low carbon design in the selection process and carry out performance analysis. Students will work with 3D architectural and 3D mechanical, electrical and plumbing (MEP) systems within BIM software to further develop their concepts.

- Low Carbon Building Design [50% exam, 15 credits]
The module aims to introduce the principles of low and zero carbon building with special attention to the process of design and decision-making.

- Advanced Thermal Modelling [50% exam, 15 credits]
The aims of this module are for the student to understand the principles of building thermal modelling and HVAC plant simulation, and be given a perspective on the applications of these techniques to the design process.

- Research Project [0% exam, 60 credits]
The aim of this module is to provide the student with experience of the process and methodology of research by defining and studying (on an individual basis) a complex problem in a specialised area relating to Building Energy

- Research Methods in Building Performance [0% exam, 10 credits]
The aims of this module are for the student to become familiar with and comprehend the wide range of research methods and skills needed to investigate, understand and communicate building performance.

Facilities

All masters students have access to a wide range of building simulation codes which include commercial software, as well as bespoke codes developed in-house. Students can run these codes on their personal laptops or access any one of our computer laboratories, including access to our recently commissioned 2000-node high performance computer cluster.

One of our key strengths at Loughborough is our experimental facilities which enable us to validate computer models. Our masters students have access to a vast range of experimental facilities, some of which are used during the taught modules and all of which are available for use by students during their research dissertations.

These include: a fully controllable environmental chamber; sophisticated thermal and breathing manikins; an indoor solar simulator; a 'darkroom' facility to carry out optical and high dynamic range measurements; and full-scale houses for pressure testing and studying innovative heating and control strategies. A recent investment of £360k was made to purchase an extensive array of monitoring and measuring equipment for use during field studies.

How you will learn

You will learn through a carefully balanced combination of lectures, in-class guided workshops, hands-on computer modelling, field measurements and independent research. Students have access to a wide range of air flow and thermal modelling software as wells as extensive laboratory facilities. Following nine taught modules, students pursue a research dissertation of their choice which draws on the skills developed during the taught modules.

Students are assessed by a combination of traditional written exams, coursework and assignments. This split is typically 70/30 (exam/coursework) or 50/50, although some modules, such as research methods and concept design are assessed entirely based on coursework which comprises individual presentations and group work.

Careers and further study

Previous students have gone on to work for leading consulting engineering companies such as Arup, Pick Everad, Hoare Lea, Cundall, Foster & Partners, and Atkins. Some of these companies offer work placements for students to undertake their research dissertations. Many visit the university to deliver lectures to our MSc students providing ideal opportunities for students to discuss employment opportunities.

Scholarships

The University offers over 100 scholarships each year to new self-financing full-time international students who are permanently resident in a county outside the European Union. These Scholarships are to the value of 25% of the programme tuition fee and that value will be credited to the student’s tuition fee account.
You can apply for a scholarship once you have received an offer for a place on this programme.

Why choose civil engineering at Loughborough?

As one of four Royal Academy of Engineering designated Centres of Excellence in Sustainable Building Design, the School of Civil and Building Engineering is one of the largest of its type in the UK and holds together a thriving community of over 60 academic staff, 40 technical and clerical support staff and over 240 active researchers that include Fellows, Associates, Assistants, Engineers and Doctoral Students.

Our world-class teaching and research are integrated to support the technical and commercial needs of both industry and society. A key part of our ethos is our extensive links with industry resulting in our graduates being extremely sought after by industry and commerce world-wide,

- Postgraduate programmes
The School offers a focussed suite of post graduate programmes aligned to meet the needs of industry and fully accredited by the relevant professional institutions. Consequently, our record of graduate employment is second to none. Our programmes also have a long track record of delivering high quality, research-led education. Indeed, some of our programmes have been responding to the needs of industry and producing high quality graduates for over 40 years.

Currently, our suite of Masters programmes seeks to draw upon our cutting edge research and broad base knowledge of within the areas of contemporary construction management, project management, infrastructure management, building engineering, building modelling, building energy demand and waste and water engineering. The programmes are designed to respond to contemporary issues in the field such as sustainable construction, low carbon building, low energy services, project complexity, socio-technical systems and socio-economic concerns.

- Research
Drawing from our excellent record in attracting research funds (currently standing at over £19M), the focal point of the School is innovative, industry-relevant research. This continues to nurture and refresh our long history of working closely with industrial partners on novel collaborative research and informs our ongoing innovative teaching and extensive enterprise activities. This is further complemented by our outstanding record of doctoral supervision which has provided, on average, a PhD graduate from the School every two weeks.

- Career Prospects
Independent surveys continue to show that industry has the highest regard for our graduates. Over 90% were in employment and/or further study six months after graduating. Recent independent surveys of major employers have also consistently rated the School at the top nationally for civil engineering and construction graduates.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/civil/low-energy-building-services/

Read less
Would you like to stand out in the employment job market by advancing your current qualification to master’s level?. The MSc Mechanical Engineering course will provide you with advanced knowledge and skills in key aspects of mechanical engineering. Read more
Would you like to stand out in the employment job market by advancing your current qualification to master’s level?

The MSc Mechanical Engineering course will provide you with advanced knowledge and skills in key aspects of mechanical engineering. Throughout the duration of this course you will develop a critical awareness of ethical and environmental considerations, in addition to learning about advanced mechanical engineering practice and theory.

Accredited by the Institution of Mechanical Engineers (IMechE), this course fully meets the academic requirements to become a Chartered Engineer.

At a time when there is an international shortage of mechanical engineers there has never been a better time to enter this dynamic and rewarding industry.

Accredited by the Institution of Mechanical Engineers (IMechE) on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer.

This course can also be started in January - for more information, please view this web-page: https://www.northumbria.ac.uk/study-at-northumbria/courses/mechanical-engineering-msc-ft-dtfmez6/

Learn From The Best

You’ll be taught by tutors who have many years of experience in the various aspects of the engineering industry. Their experience, combined with their on-going active research, will provide an excellent foundation for your learning.

The quality of their research has put Northumbria University among the UK’s top 25% of universities for the percentage of research outputs in engineering that are ranked as world-leading or internationally excellent. (Research Excellence Framework 2014.)

Our reputation for quality is reflected by the range and depth of our collaborations with industry partners. We’ve built up numerous industrial links during the 50+ years that we’ve been offering engineering courses. These links help ensure high quality placements and collaborative projects.

Northumbria has the advantage of being located in the North East of England, which is a centre of manufacturing and technical innovation. As well as Nissan, the region’s #1 company, there is a strong concentration of automotive, engineering, chemicals, construction and manufacturing companies.

Teaching And Assessment

The initial semesters of this course focus on taught subjects that cover topics such as computational fluid dynamics and heat transfer, multidisciplinary design and engineering optimisation, composite materials and lightweight structures, advanced stress and analysis and thermo-mechanical energy conversion systems.

Teaching is primarily delivered by lectures, seminars and workshops, all of which are assessed by methods such as assignments, exams and technical reports. All of this course’s assessments have been devised to closely mirror the outputs required in a real working environment.

On completion of the taught modules you will undertake a substantial piece of research related to an area of mechanical engineering that particularly interests you. Our teaching team will be on-hand to offer support and guidance throughout every stage of your course.

Module Overview
KB7001 - Computational Fluid Dynamics and Heat Transfer (Core, 20 Credits)
KB7006 - Composite Materials and Lightweight Structures (Core, 20 Credits)
KB7008 - Advanced Stress and Structural Analysis (Core, 20 Credits)
KB7030 - Research Methods (Core, 20 Credits)
KB7042 - Thermo-Mechanical Energy Conversion Systems (Core, 20 Credits)
KB7043 - Multidisciplinary Design & Engineering Optimisation (Core, 20 Credits)
KB7052 - Research Project (Core, 60 Credits)

Learning Environment

Throughout the duration of your course you will have access to our dedicated engineering laboratories that are continuously updated to reflect real-time industry practice.

Our facilities include mechanical and energy systems experimentation labs, rapid product development and performance analysis, materials testing and characterisation, 3D digital design and manufacturing process performance.

You will be given the opportunity to get hands-on with testing, materials processing, moulding, thermal analysis and 3D rapid manufacture to help you create the products and systems required for the projects you will work on during your course.

Your learning journey will also be supported by technology such as discussion boards and video tutorials. You will also participate in IT workshops where you will learn how to use the latest industry-standard software.

Videos of lectures will on many occasions be made available through Panopto video software to further support teaching delivery.

You will also have access to all Northumbria University’s state-of-the-art general learning facilities such as dedicated IT suites and learning areas.

Research-Rich Learning

When studying at Northumbria University you will be taught by our team of specialist staff who boast a wealth of multi-dimensional expertise.

Our teaching team includes a dynamic mix of research-active industrial practitioners, renowned researchers and technologists, whose combined knowledge ensures you leave with an in-depth understanding of key mechanical engineering practice and research.

You will be encouraged to undertake your own research–based learning where you will evaluate and critique scientific papers and write research-based reports based on the information gathered.

We aim to regularly welcome industry specialists to deliver guest lecturers to further enable you to understand real-world issues and how they link to the concepts, theories and philosophies taught throughout your course.

The department of Mechanical and Construction Engineering is a top-35 Engineering research department with 79% of our outputs ranked world-leading or internationally excellent according to the latest UK-wide research assessment exercise (REF2014, UoA15). This places us in the top quartile for world-leading publications among UK universities in General Engineering.

Give Your Career An Edge

The MEng Mechanical Engineering course will equip you with all of the skills required to progress within the engineering industry and competition of your master’s degree will give you a competitive edge thanks to the additional skills and knowledge you will acquire.

Our accreditation with the IMechE ensures that this course’s content is in-line with the latest developments within this sector, making our course highly valued by employers.

By completing this course you will have completed the academic requirement to become a Chartered Engineer, a status that is associated with improved employability and higher salaries.

Employability is embedded throughout all aspects of your course and you will leave with enhanced key skills such as communication, computing and teamwork.

Your Future

Mechanical Engineering overlaps with a number of engineering disciplines meaning there are many career paths available to you once you have completed this course.

Many graduates choose to pursue a career in the expansive engineering sector, in roles such as designers, analysts, project managers or consultants.

You may also wish to progress your knowledge to PhD level and this course will provide you with a solid foundation that you can easily build on and advance to an even higher level.

Engineering is a growth industry and currently there is a shortage of engineers. 90% of our graduates are in work or study within six months of graduating and, of those in work, 80% are employed in a professional or managerial job (Unistats 2015).

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Would you like to stand out in the employment job market by advancing your current qualification to master’s level?. The MSc Mechanical Engineering course will provide you with advanced knowledge and skills in key aspects of mechanical engineering. Read more
Would you like to stand out in the employment job market by advancing your current qualification to master’s level?

The MSc Mechanical Engineering course will provide you with advanced knowledge and skills in key aspects of mechanical engineering. Throughout the duration of this course you will develop a critical awareness of ethical and environmental considerations, in addition to learning about advanced mechanical engineering practice and theory.

In the second year, for one semester, you’ll undertake an internship, study in another country or join a research group. This valuable experience will enhance your employability and further develop your theoretical and practical skills.

Accredited by the Institution of Mechanical Engineers (IMechE), this course fully meets the academic requirements to become a Chartered Engineer.

At a time when there is an international shortage of mechanical engineers there has never been a better time to enter this dynamic and rewarding industry.

Learn From The Best

You’ll be taught by tutors who have many years of experience in the various aspects of the engineering industry. Their experience, combined with their on-going active research, will provide an excellent foundation for your learning.

The quality of their research has put Northumbria University among the UK’s top 25% of universities for the percentage of research outputs in engineering that are ranked as world-leading or internationally excellent. (Research Excellence Framework 2014.)

Our reputation for quality is reflected by the range and depth of our collaborations with industry partners. We’ve built up numerous industrial links during the 50+ years that we’ve been offering engineering courses. These links help ensure high quality placements and collaborative projects.

Northumbria has the advantage of being located in the North East of England, which is a centre of manufacturing and technical innovation. As well as Nissan, the region’s #1 company, there is a strong concentration of automotive, engineering, chemicals, construction and manufacturing companies.

Teaching And Assessment

The initial semesters of this course focus on taught subjects that cover topics such as computational fluid dynamics and heat transfer, multidisciplinary design and engineering optimisation, composite materials and lightweight structures, advanced stress and analysis and thermo-mechanical energy conversion systems.

Teaching is primarily delivered by lectures, seminars and workshops, all of which are assessed by methods such as assignments, exams and technical reports. All of this course’s assessments have been devised to closely mirror the outputs required in a real working environment.

On completion of the taught modules you will undertake a substantial piece of research related to an area of mechanical engineering that particularly interests you. Our teaching team will be on-hand to offer support and guidance throughout every stage of your course.

The Advanced Practice semester will be assessed via a report and presentation about your internship, study abroad or research group activities.

Module Overview
Year One
KB7001 - Computational Fluid Dynamics and Heat Transfer (Core, 20 Credits)
KB7006 - Composite Materials and Lightweight Structures (Core, 20 Credits)
KB7008 - Advanced Stress and Structural Analysis (Core, 20 Credits)
KB7030 - Research Methods (Core, 20 Credits)
KB7042 - Thermo-Mechanical Energy Conversion Systems (Core, 20 Credits)
KB7043 - Multidisciplinary Design & Engineering Optimisation (Core, 20 Credits)

Year Two
KB7052 - Research Project (Core, 60 Credits)
KF7005 - Engineering and Environment Advanced Practice (Core, 60 Credits)

Learning Environment

Throughout the duration of your course you will have access to our dedicated engineering laboratories that are continuously updated to reflect real-time industry practice.

Our facilities include mechanical and energy systems experimentation labs, rapid product development and performance analysis, materials testing and characterisation, 3D digital design and manufacturing process performance.

You will be given the opportunity to get hands-on with testing, materials processing, moulding, thermal analysis and 3D rapid manufacture to help you create the products and systems required for the projects you will work on during your course.

Your learning journey will also be supported by technology such as discussion boards and video tutorials. You will also participate in IT workshops where you will learn how to use the latest industry-standard software.

Videos of lectures will on many occasions be made available through Panopto video software to further support teaching delivery.

You will also have access to all Northumbria University’s state-of-the-art general learning facilities such as dedicated IT suites and learning areas.

Research-Rich Learning

When studying at Northumbria University you will be taught by our team of specialist staff who boast a wealth of multi-dimensional expertise.

Our teaching team includes a dynamic mix of research-active industrial practitioners, renowned researchers and technologists, whose combined knowledge ensures you leave with an in-depth understanding of key mechanical engineering practice and research.

You will be encouraged to undertake your own research–based learning where you will evaluate and critique scientific papers and write research-based reports based on the information gathered.

We aim to regularly welcome industry specialists to deliver guest lecturers to further enable you to understand real-world issues and how they link to the concepts, theories and philosophies taught throughout your course.

The department of Mechanical and Construction Engineering is a top-35 Engineering research department with 79% of our outputs ranked world-leading or internationally excellent according to the latest UK-wide research assessment exercise (REF2014, UoA15). This places us in the top quartile for world-leading publications among UK universities in General Engineering.

Give Your Career An Edge

The MEng Mechanical Engineering course will equip you with all of the skills required to progress within the engineering industry and competition of your master’s degree will give you a competitive edge thanks to the additional skills and knowledge you will acquire.

Our accreditation with the IMechE ensures that this course’s content is in-line with the latest developments within this sector, making our course highly valued by employers.

By completing this course you will have completed the academic requirement to become a Chartered Engineer, a status that is associated with improved employability and higher salaries.

Employability is embedded throughout all aspects of your course and you will leave with enhanced key skills such as communication, computing and teamwork.

The Advanced Practice semester will help you develop a track record of achievement that will help you stand out from other job applicants.

A two-year master’s course, like this one, will carry particular weight with employers. They’ll understand that you’ll have a deeper understanding of topics as well as more hands-on practical experience.

Your Future

Mechanical Engineering overlaps with a number of engineering disciplines meaning there are many career paths available to you once you have completed this course.

Many graduates choose to pursue a career in the expansive engineering sector, in roles such as designers, analysts, project managers or consultants.

You may also wish to progress your knowledge to PhD level and this course will provide you with a solid foundation that you can easily build on and advance to an even higher level.

Engineering is a growth industry and currently there is a shortage of engineers. 90% of our graduates are in work or study within six months of graduating and, of those in work, 80% are employed in a professional or managerial job (Unistats 2015).

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Could you see yourself designing high performance bikes, working with racing car teams or producing ground breaking medical components? You could follow in the footsteps of some of our graduates and begin shaping your own exciting career in mechanical engineering. Read more
Could you see yourself designing high performance bikes, working with racing car teams or producing ground breaking medical components? You could follow in the footsteps of some of our graduates and begin shaping your own exciting career in mechanical engineering.

You will distinguish yourself professionally with a degree accredited by the Institution of Mechanical Engineers (IMechE) and the Institute of Materials, Minerals and Mining (IoM3) for Chartered Engineer status. You can apply to either of these institutions for membership as a Chartered Engineer.

Key features

-Open the door to a successful future. Our graduates have gone on to work for Ferrari, Honda, British Cycling, Rolls-Royce, Williams Grand Prix Engineering, Activa, Babcock Marine, Princess Yachts and more.
-Primed for your career: 82 per cent of our students are in a professional or managerial job six months after graduation. (Source: unistats)
-Benefit from an optional 48 week paid work placement.
-Distinguish yourself professionally with a degree accredited by the Institution of Mechanical Engineers (IMechE) and the Institute of Materials, Minerals and Mining (IoM3) for Chartered Engineer status. You can apply to either of these institutions for membership as a Chartered Engineer.
-Develop a strong foundation in mechanical engineering principles and materials science.
-Choose from specialist modules in composites engineering, design and manufacture.
-Experience modern laboratory facilities for practical work which is a core part of the degree.
-Benefit from working on industrially relevant problems within composite materials and design of composite structures.

Course details

Year 1
In Year 1, you’ll acquire a sound foundation in design, mechanics, materials, electrical principles, thermo-fluids, mathematics and business, learning by active involvement in real engineering problems. You‘ll undertake a popular hands-on module in manufacturing methods. Modules are shared with the MEng and BEng (Hons) in Mechanical Engineering and the MEng and BEng (Hons) Marine Technology.

Core modules
-MECH120 Skills for Design and Engineering (Mechanical)
-THER104 Introduction to Thermal Principles
-BPIE115 Stage 1 Mechanical Placement Preparation
-MECH117 Mechanics
-MECH118 Basic Electrical Principles
-A5MFT1 Mech BEng 1 MFT Session
-MATH187 Engineering Mathematics
-MATS122 Manufacturing and Materials
-MECH121PP Team Engineering (Engineering Design in Action)

Year 2
In Year 2, you’ll build your knowledge of composite materials in preparation for specialist modules in the final year. The central role of design integrates with other modules like structures and materials. You'll also study modules on thermodynamics, fluid mechanics, business dynamics, mathematics and control and quality management.

Core modules
-BPIE215 Stage 2 Mechanical Placement Preparation
-CONT221 Engineering Mathematics and Control
-HYFM230 Fluid Mechanics 1
-STRC203 Engineering Structures
-MECH232 Engineering Design
-MFRG208 Quality Management l
-MATS234 Materials
-THER207 Applied Thermodynamics
-STO208 Business for Engineers

Optional placement year
In Year 3, you're strongly encouraged to do a year’s work placement to gain valuable paid professional experience. We will support you to find a placement that is right for you. Our students have worked for a variety of companies from BMW Mini, Bentley, Babcock Marine to NASA. A successful placement could lead to sponsorship in your final year, an industrially relevant final year project, and opportunities for future employment.

Optional modules
-BPIE335 Mechanical Engineering Related Placement

Year 4
In Year 4, you’ll specialise in composites design, engineering and manufacture. You’ll undertake an group design project. Additional modules of study include statistics and quality management. You'll also develop your knowledge and skills through an in-depth project on a topic of your choice.

Core modules
-HYFM322 Computational Fluid Dynamics
-MFRG311 Quality Management II
-MATS347 Composites Design and Manufacture
-PRME307 Honours Project
-MATS348 Composites Engineering
-MECH340 Engineering Design

Final year
In your final year, you'll extend your existing skills in engineering design, analysis and control theory. Broaden your knowledge by studying subjects such as entrepreneurship, advanced information technology, robotics and marine renewable energy. You’ll also work in a design team with students from other engineering disciplines working on projects such as design, materials and environmental issues related to bioenergy production, gas/nuclear power stations, energy from the sea and eco villages.

Core modules
-MECH532 Applied Computer Aided Engineering
-MECH533 Robotics and Control
-MECH534 Product Development and Evaluation
-MAR528 Mechanics of MRE Structures
-PRCE513 Interdisciplinary Design
-MECH544 Data Processing, Simulation and Optimisation of Engineering Systems

Every undergraduate taught course has a detailed programme specification document describing the course aims, the course structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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This course is aimed at professional engineers aspiring to increased management responsibility in the building services sector or who have reached a stage in their careers when they are carrying increasing management responsibility. Read more

About the course

This course is aimed at professional engineers aspiring to increased management responsibility in the building services sector or who have reached a stage in their careers when they are carrying increasing management responsibility.

It caters to the worldwide demand for building services engineering managers who have a sound knowledge of engineering and management principles – and the ability to apply this knowledge to complex situations.

Management modules cover engineering finance and accounting, people management, business organisation and facilities and contract management.

Aims

Building Service Engineers help buildings to deliver on their potential by working with architects and construction engineers to produce buildings that offer the functionality and comfort we expect, with the minimum impact on our environment. They design the lighting appropriate for the space, the heating, cooling, ventilation and all systems that ensure comfort, health and safety in all types of buildings, residential commercial and industrial.

Building services engineering is an interdisciplinary profession. It involves the specification, design, installation and management of all the engineering services associated with the built environment.

With the growing complexity of engineering services in modern buildings and the significance of energy conservation and pollution control, the role of the building services engineer is becoming increasingly important.

As an interdisciplinary profession that involves the specification, design, installation and management of all the engineering services associated with the built environment, comfort and function also need to be combined – which calls for engineers with a wide range of knowledge and skills.

This MSc programme is for:

Recent engineering and technology graduates, moving into building services and related disciplines.
Established engineers and technologists, working in building services and faced with the challenge of new areas of responsibility.
Engineers who want to develop technical understanding and expertise across the multi-disciplines of building services engineering.
Managers and designers, who need to broaden their experience and require updating.
Lecturers in higher education, moving into or requiring updating in building services engineering.
Others with engineering and technology backgrounds, perhaps working in advisory or consultancy roles, who wish to familiarise themselves with building services engineering. However, choice of course will be dependent upon the type and extent of knowledge and skills required.

Course Content

Modes of Study
3-5 Years Distance Learning

The distance learning programme is designed to enable you to conduct most of your studies at home, in your own time and at your own pace.

There is no requirement to attend lectures at Brunel University and there is no set timetable of lectures, instead you follow a structured programme of self-study at home or at work. This gives you the freedom to arrange a work programme to suit yourself and you should usually allow about twelve hours each week for study.

There are set submission dates for assignments but we have tried to design the programme so that they are well-spaced, giving you the maximum flexibility in your study plans.

You can take between three and five years to complete the course. The average is three years, with students taking four modules in the first year, four modules in the second year and the dissertation in the third year. However, depending on your other commitments you can take longer up to a maximum of five years.

You are supplied with a study pack in the form of textbooks and CD-ROMs; you have assignments to submit and exams to sit each year.

Examinations can be taken either at Brunel University or in the country you are resident in. We have an extensive network of organisations (universities, colleges and British Council offices) throughout the world who will provide invigilation services.

The cost of invigilation away from Brunel is your responsibility. Examinations are held in May each year.

Compulsory Modules

Building Heat Transfer and Air Conditioning
Electrical Services and Lighting Design
Acoustics, Fire, Lifts and Drainage
Engineering Finance and Accounting
Management of People in Engineering Activities
Organisation of Engineering Business
Management of Facilities and Engineering Contracts
Dissertation

Students should choose one of the two themes below:

Theme A - Traditional

Energy Conversion Technologies
This element provides a broad introduction to the principles of energy conversion and thermodynamic machines and demonstrates their application to energy conversion and management in buildings. Emphasis is placed on refrigeration plant, energy conversion plant and energy management.
Refrigeration covers the basic principles and components of vapour compression systems, heat pumps and absorption systems.
Energy Conversion considers power cycles, combined heat and power, combustion processes, boiler plant, thermal energy storage and environmental impacts of plant operation.

Theme B - Renewable

Renewable Energy Technologies
This element includes: energy sources, economics and environmental impact, energy storage technologies, the role of renewables, solar thermal, solar electricity, wind power generation, hydro, tidal and wave power, biofuels, building integrated renewables.

Special Features

There are several advantages in choosing Brunel's Building Services programme:

Award-winning courses: Building Services Engineering courses at Brunel have been awarded the Happold Brilliant Award for teaching excellence by the Chartered Institution of Building Services Engineers.

Relevance: it is well established within the building services industry, with sponsors of students that include major design and contracting organisations, area health authorities, local authorities and the British Council, as well as several national governments.

Applicability: emphasis on applications enables students and employers to benefit immediately from the skills and knowledge gained.

Responsiveness: Brunel's proximity to London, where large and innovative building developments have been taking place over the last decade, enables rapid infusion of new ideas and technological innovations into the programme content.

Excellent facilities

We have extensive and well-equipped laboratories, particular areas of strength being in fluid and biofluid mechanics, IC engines, vibrations, building service engineering, and structural testing. Our computing facilities are diverse and are readily available to all students. The University is fully networked with both Sun workstations and PCs. Advanced software is available for finite and boundary element modelling of structures, finite volume modelling of flows, and for the simulation of varied control systems, flow machines, combustion engines, suspensions, built environment, and other systems of interest to the research groups.

Accreditation

The course is approved by the Chartered Institute of Building Services Engineers (CIBSE) and the Institution of Mechanical Engineers (IMechE) as appropriate additional academic study (further learning) for those seeking to become qualified to register as Chartered Engineers (CEng).

Teaching

Students are supplied with a study pack in the form of text books and CD-ROMs; you have assignments to submit and exams to sit each year. Examinations can be taken either at Brunel University or in the country you are resident in.
We have an extensive network of organisations (Universities, Colleges and British Council Offices) throughout the world who will provide invigilation services. The cost of invigilation away from Brunel is your responsibility. Examinations are held in May each year.

Assessment

Each module is assessed either by formal examination, written assignments or a combination of the two. Cut-off dates for receipt of assignments are specified at the beginning of each stage. Examinations are normally taken in May.
Successful completion of the taught modules allows the student to proceed to the dissertation stage. To qualify for the award of the MSc degree, the student must submit a satisfactory dissertation.

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Do you want to forge your future in the marine industry? Develop an advanced understanding of both marine engineering and naval architecture on a course that will equip you with a refined knowledge of nautical design and mechanics. Read more
Do you want to forge your future in the marine industry? Develop an advanced understanding of both marine engineering and naval architecture on a course that will equip you with a refined knowledge of nautical design and mechanics. Our accreditation means you’ll be ready to apply for Chartered Engineer status upon graduation, primed for a variety of careers in the marine industry.

You will lay strong foundations for a successful career using our extensive industry links to secure a paid, one-year work placement. You’ll distinguish yourself professionally with a degree accredited by the Royal Institution of Naval Architects (RINA), the Institute of Mechanical Engineering (IMechE) and the Institute of Marine Engineering, Science and Technology (IMarEST) on behalf of the Engineering Council.

Key features

-Progress to Chartered Engineer status - upon graduation you’ll have fulfilled the education requirements.
-Distinguish yourself professionally with a degree accredited by the Royal Institution of Naval Architects (RINA), the Institute of Mechanical Engineering (IMechE) and the Institute of Marine Engineering, Science and Technology (IMarEST) on behalf of the Engineering Council. The course fully satisfies the educational base for a Chartered Engineer (CEng).
-Increase your opportunities with a solid base in mechanical engineering and an emphasis on design, opening up a variety of possible careers.
-Lay strong foundations for a successful career using our extensive industry links to secure a paid, one-year work placement. Gain the confidence, real-world know-how and vital industry experience employers are looking for.
-Work with the latest industry-standard software, in our high specification laboratories. Both will help you develop a strong understanding of fundamental principles, while honing your skills at the same time.
-Access the support you need. The Women in Technology Network (WiTNet) is a support network for all female students in technology and science subjects where women are in a minority.

Course details

Year 1
Year 1 shares modules with the MEng courses in mechanical engineering. You’ll study design, a central theme of the course, introduced through case-study and problem-based learning, materials, mechanics, thermo-fluids, electrical principles, business and mathematics. You’ll also gain practical experience through a hands-on module in manufacturing methods.

Core modules
-THER104 Introduction to Thermal Principles
-MECH119 Skills for Design and Engineering (Marine)
-BPIE115 Stage 1 Mechanical Placement Preparation
-MECH117 Mechanics
-MECH118 Basic Electrical Principles
-A5MFT1 Mech BEng 1 MFT Session
-MATH187 Engineering Mathematics
-MATS122 Manufacturing and Materials
-MECH121PP Team Engineering (Engineering Design in Action)

Year 2
In your second year you’ll study structures, fluids and thermodynamics, control, mathematics and business. You’ll learn about the stability and propulsion of marine craft, and about the marine environment. You’ll advance your existing design skills through application within a marine context.

Core modules
-BPIE215 Stage 2 Mechanical Placement Preparation
-CONT221 Engineering Mathematics and Control
-HYFM230 Fluid Mechanics 1
-STRC203 Engineering Structures
-MECH232 Engineering Design
-THER207 Applied Thermodynamics
-STO208 Business for Engineers
-MARN203 Stability and Hydrodynamics

Optional placement year
Taking an optional placement year will provide you with valuable, paid, professional experience. A placement could lead to a company sponsoring your final year project and provide opportunities for your future employment. We’ll support you in finding a suitable position.

Core modules
-BPIE335 Mechanical Engineering Related Placement

Year 3
During this year you’ll use industry typical software and use design and computational methods to further develop your design skills. You’ll specialise in your chosen discipline of naval architecture, marine engineering and marine systems. Finally, you’ll carry out an in-depth investigation into a specialist topic of personal interest as part of your individual honours project.

Core modules
-HYFM322 Computational Fluid Dynamics
-MARN338 Naval Architecture
-MARN340 Marine Systems Engineering
-PRME307 Honours Project
-MECH340 Engineering Design
-MARN306 Marine Engineering

Final year
Your final year refines the skills you have developed over the course of your studies, and includes additional technical modules. Finally, you'll work on an interdisciplinary project, drawing on your design and engineering abilities.

Core modules
-MECH532 Applied Computer Aided Engineering
-MECH533 Robotics and Control
-MECH534 Product Development and Evaluation
-MAR528 Mechanics of MRE Structures
-PRCE513 Interdisciplinary Design
-MECH544 Data Processing, Simulation and Optimisation of Engineering Systems

Every undergraduate taught course has a detailed programme specification document describing the course aims, the course structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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The Thermal Power and Fluid Engineering MSc is a highly successful course which has been offered here for almost forty years. Read more
The Thermal Power and Fluid Engineering MSc is a highly successful course which has been offered here for almost forty years. The aim of this postgraduate course is to train and educate thermofluid engineers to enable them to meet present and future demands of the industry and to equip them with the necessary skills to engage in employment or further research.

The course is suitable for engineering/science graduates and professionals who not only wish to enhance their expertise in thermofluids but also to develop their competence in the use of state-of-the-art analytical, computational and experimental methods; advanced methods which are specifically designed for the analysis of heat and fluid flow in both industrial and research applications.

The objectives of this course are to produce postgraduate specialists with:
-Advanced understanding of heat and fluid flow processes and their role in modern methods of power generation
-In-depth understanding of numerical and experimental techniques in heat and fluid flow

Teaching on the course is delivered by academics from our world-leading research group in the field of turbulence modelling and heat transfer.

Special features

The three students who achieve the highest performance in this MSc course in 2016-17 will receive an award.

The winners of the Thermal Power and Fluid Engineering Merit Award are presented with a certificate by the Head of the School, Prof Andy Gibson, and are awarded a cash prize. The awards are £3,000 for the top student, £2,000 for the second and £1,000 for the third student in each semester.

The winners of the award this semester were: Aseem Bhavnesh Desai (1st), Robert O'Donoghue (2nd) and Luca Cappellone (3rd).

Teaching and learning

This is a full-time course studied over 12 months with one start date each year in September. Every year this MSc course in Thermal Power and Fluid Engineering attracts a large number of applications from all around the world, which allows us to select only the best candidates.

Throughout the course, alongside the teaching, special emphasis is placed on both computational and experimental work; the aim is to provide insight through experimentally observed phenomena, and also to provide practical/computational experience of a wide range of measurement and data analysis techniques. Thus, the course has a strong practical orientation which is supported by our School laboratories and facilities and it aims to produce engineers who are able to engage in the design, development and testing of internal combustion engines, turbines or power producing devices. Whilst on the course, students have the opportunity to participate in a number of industrial visits. Relevant companies sometimes offer projects to our students as a result of these visits.

The MSc is continually reviewed and now includes course units such as research and experimental methods, advanced fluid mechanics, advanced heat transfer, engineering thermodynamics, power engineering and computational fluid dynamics. Students are assessed based upon a combination of coursework, laboratory calculations, exams and projects. Upon successful completion of taught modules the students are required to do a research dissertation.

Career opportunities

The MSc in Thermal Power and Fluid Engineering trains graduates in the theory and practice of a broad range of industrially relevant topics within the fields of thermodynamics and fluid mechanics. It is specifically designed to meet the needs of the modern engineer both in industry and in research. Most of our research is derived and funded by industry, and we have always been proud of maintaining strong links with our industrial partners. Teaching staff on this course have research-based collaborations with multinational companies such as Boeing, Airbus, Rolls Royce, Jaguar Land rover, Électricité de France, Procter and Gamble, Unilever, Dyson, Alstom and many others.

Each year Manchester careers fairs, workshops and presentations attract more than 600 exhibitors and 20,000 visitors illustrating how employers target Manchester graduates.

Our recent graduates have gone on to work in internationally renowned companies including:
-Airbus, UK
-Électricité de France, UK
-Jaguar Land Rover, UK
-Dassault Systèmes, France
-Honda Motors, UK
-Doosan Global, UK
-ExxonMobil, UK
-Saudi Aramco, KSA
-Engro Chemicals, Pakistan
-Abu Dhabi National Oil Company, UAE
-ANSYS, UK
-ABB Group, UK
-Exa GmbH, UK

Accrediting organisations

This Masters Course is accredited by the IMechE, the Institution of Mechanical Engineers which is the UK's professional body of Mechanical Engineers. This means that graduates from this course are recognised by the IMechE as having the academic qualifications required of candidates for the status of Chartered Engineer.

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The Faculty of Engineering runs a multi-disciplinary postgraduate course entitled Sustainable Engineering with a number of different themes, one of which is offshore renewable energy. Read more

Why this course?

The Faculty of Engineering runs a multi-disciplinary postgraduate course entitled Sustainable Engineering with a number of different themes, one of which is offshore renewable energy.

This flexible programme combines study in specialist, advanced engineering technologies underpinned with training in sustainability. The programme has been developed with direct industrial involvement to provide you with a solid understanding of modern, sustainable engineering. As well as gaining an understanding of how sustainable engineering applies to offshore renewable energy, this programme will also provide you with key transferable skills to aid your employability.

The course is designed for experienced or newly qualified engineers in:
- Naval Architecture
- Marine Engineering
- Mechanical Engineering
- Civil Engineering
- Electrical Engineering or related disciplines

The Department of Naval Architecture, Ocean & Marine Engineering, a leading institution in Scotland, offers excellent teaching and research facilities in naval architecture, ocean and marine engineering, which expands your career opportunities in naval architecture, marine, offshore oil and gas industry.

See the website https://www.strath.ac.uk/courses/postgraduatetaught/sustainableengineeringoffshorerenewableenergy/

You’ll study

Studying at least three generic classes will meet the key requirements to attain Chartered Engineer status.

You must take three specialist classes if you are studying for the Postgraduate Certificate and up to five if you are studying for a Postgraduate Diploma or MSc.

Successful completion of six classes leads to the award of a Postgraduate Certificate.

- Group project
You’ll work with a group of students from different pathways of the Sustainable Engineering programme. You’ll produce sustainable solutions to real-life industry problems. This project will include site visits, field trips and progress reports to industry partners.
Successful completion of eight modules and the group project leads to the award of a Postgraduate Diploma.

- Individual project
MSc students will study a selected topic in depth and submit a thesis.
Successful completion of eight classes, the group project and an individual project leads to the award of an MSc.

Facilities

We have excellent teaching facilities including:
- Catalina - our departmental racing yacht
- Kelvin Hydrodynamics Lab - the largest ship-model experiment tank in any UK university
- Towing/wave tank exclusively for teaching purposes
- Marine engine laboratory
- Hydrogen fuel cell laboratory
- Cutting-edge computer facilities
- Industry standard software

Studying at least three generic modules will meet the key requirements to attain Chartered Engineer status.

Student competitions

Naval Architecture, Ocean & Marine Engineering supports and promotes students in various competitions and awards, from cash bursaries for top performing students to the highest of awards from international organisations.

In recent years our students have been triumphant in the following high profile competitions:
- Science, Engineering & Technology Student of the Year (SET Awards)
- Best Maritime Technology Student (SET Awards)
- Double winner of BP’s Ultimate Field Trip Competition
- Strathclyder of the Year

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options.

To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

There are two teaching periods (semesters) of 12 weeks each. The first semester is usually from the beginning of October and the second semester starts at the end of January.
Some of the second semester subjects are taught over eight weeks so that you can devote as much time as possible to your individual project work.
Each year about 15 experts from the industry give talks and seminars on wide-ranging topics. Industrial visits are made to a variety of companies.
You’re required to attend an induction prior to the start of the course.

Assessment

There are two types of method for module assessment. One is course work assessment only, the other is examination assessment. For examined modules the final assessment mark consists of 30-40% course work and 60-70% examination

Careers

- Where are they now?
100% of our graduates are in work or further study.*

Job titles include:
- Graduate Design Engineer
- Project Engineer
- Renewable Energy Consultant
- Thermal Performance Engineer

Employers include:
- Arup
- Eaton
- Esteyco Energua
- Granite Services International
- Moorfield International
- Mott Macdonald

*Based on the results of the national Destinations of Leavers from Higher Education Survey (2010/11 and 2011/12).

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp

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Renewable energy is an essential and vital resource for the world’s future, and future there is an urgent need for engineers capable of solving the industry’s complex challenges in this field. Read more

About the course

Renewable energy is an essential and vital resource for the world’s future, and future there is an urgent need for engineers capable of solving the industry’s complex challenges in this field.

Studying Renewable Energy Engineering at Brunel provides graduates with the knowledge and skills to make a strategic real-world impact in the resolution of the world’s energy problems.

Graduates from Brunel’s MSc in Renewable Energy Engineering will develop:

- The versatility and depth to deal with new, demanding and unusual challenges across a range of renewable energy issues, drawing on an understanding of all aspects of renewable energy principles including economic assessment.

- The imagination, initiative and creativity to enable them to follow a successful engineering career with national and international companies and organisations.

- Specialist knowledge and transferable skills for successful careers including, where appropriate, progression to Chartered Engineer status.

Aims

Huge business incentives, markets and a wide variety of employment opportunities throughout the world are expected with the development of renewable energy resources as a substitute for fossil fuel technology.

The purpose of the MSc programme is to help meet this demand by cultivating qualified and skilled professionals with specialist knowledge in relevant technologies within the renewable energy sector.

The primary aim is to create Master’s degree graduates with qualities and transferable skills ready for demanding employment in the renewable energy sector. These graduates will have the independent learning ability required for continuing professional development and acquiring new skills at the highest level, and the programme also establishes a strong foundation for those who expect to continue onto a PhD or industrial research and development.

Initial programme learning outcomes

The programme will provide opportunities for students to develop and demonstrate knowledge and understanding, qualities, skills and other attributes in the following areas:

Knowledge and understanding of:

1.The principles and environmental impact of renewable energy technologies, including solar (thermal and electricity), wind, tidal, wave and hydro, geothermal, biomass and hydrogen.
3. The principles of energy conversion and appropriate thermodynamic machines.
4. The heat and mass transfer processes that relate to energy systems and equipment.
5. The principles, objectives, regulation, computational methods, economic procedures, emissions trading, operation and economic impact of energy systems.
6. The diversity of renewable energy system interactions and how they can be integrated into actual energy control systems and industrial processes.

At the cognitive thinking level, students will be able to:

1. Select, use and evaluate appropriate investigative techniques.
2. Assemble and critically analyse relevant primary and secondary data.
3. Recognise and assess the problems and critically evaluate solutions to challenges in managing renewable energy projects.
4. Evaluate the environmental and financial sustainability of current and potential renewable energy activities
5. Develop a thesis by establishing the basic principles and following a coherent argument.

In terms of practical, professional and transferable skills, students will be able to:

1. Define and organise a substantial advanced investigation.
2. Select and employ appropriate advanced research methods.
3. Organise technical information into a concise, coherent document.
4. Communicate effectively both orally and in writing.
5. Design and select renewable energy equipment and systems based on specific requirements/conditions.
6. Work as part of, and lead, a team.

Course Content

The taught element of the course (September to April) includes eight modules; delivery will be by a combination of lectures, tutorials and group/seminar work. A further four months (May to September) is spent undertaking the dissertation.

Compulsory modules:

Renewable Energy Technologies I-Solar Thermal and electricity systems
Renewable Energy Technologies II-Wind, Tidal, Wave, Hydroelectricity
Renewable Energy Technologies III-Geothermal, Biomass, Hydrogen
Power Generation from Renewable Energy   
Renewable Energy Systems for the Built Environment
Energy Conversion Technologies
Environmental Legislation: Energy and Environmental Review and Audit
Advanced Heat and Mass Transfer
Dissertation

Teaching

Students are introduced to subject material, including key concepts, information and approaches, through a mixture of standard lectures and seminars, laboratory practical, field work, self-study and individual research reports. Supporting material isavailable online. The aim is to challenge students and inspire them to expand their own knowledge and understanding.

Preparation for work is achieved through the development of 'soft' skills such as communication, planning, management and team work. In addition, guest speakers from industries provide a valuable insight into the real world of renewable energy.

Many of the practical activities in which the students engage, develop into enjoyable experiences. For example, working in teams for laboratory and field work and site visits. We encourage students to develop personal responsibility and contribution throughout the course. Many elements of coursework involve, and reward, the use of initiative and imagination. Some of the projects may be linked with research in CEBER, CAPF and BIPS research centres.

1 Year Full-Time: The taught element of the course (September to April) is delivered by a combination of lectures, tutorials and group/seminar work. From May to September students undertake the dissertation.

3-5 Years Distance Learning: The programme is designed to enable you to conduct most of your studies at home, in your own time and at your own pace. Students are supplied with a study pack in the form of text books and CD-ROMs; cut-off dates for receipt of assignments are specified at the beginning of each stage. Examinations can be taken either at Brunel University London or in the country you are resident in. The dissertation is carried out in one year.

Modules are assessed either by formal examination, written assignments or a combination of the two.

Assessment

Each module is assessed either by formal examination, written assignments or a combination of the two. Cut-off dates for receipt of assignments are specified at the beginning of the academic year. Examinations are normally taken in May. The MSc dissertation project leading to submission of the MSc Dissertation is normally carried out over four months (FT students) or one year (DL students).

Special Features

Excellent facilities
We have extensive and well-equipped laboratories, particular areas of strength being in fluid and biofluid mechanics, IC engines, vibrations, building service engineering, and structural testing. Our computing facilities are diverse and are readily available to all students. The University is fully networked with both Sun workstations and PCs. Advanced software is available for finite and boundary element modelling of structures, finite volume modelling of flows, and for the simulation of varied control systems, flow machines, combustion engines, suspensions, built environment, and other systems of interest to the research groups.

About Mechanical Engineering at Brunel
Mechanical Engineering offers a number of MSc courses all accredited by professional institutes as appropriate additional academic study (further learning) for those seeking to become qualified to register as Chartered Engineers (CEng). Accrediting professional institutes vary by course and include the Institute of Mechanical Engineers (IMechE), Energy Institute (EI) and Chartered Institute of Building Services Engineers (CIBSE).

Teaching in the courses is underpinned by research activities in aerospace engineering, automotive/motorsport engineering, solid and fluid mechanics, and energy & environment. Staff generate numerous publications, conference presentations and patents, and have links with a wide range of institutions both within and outside the UK. The discipline benefits from research collaboration with numerous outside organisations including major oil companies, vehicle manufacturers, and other leading industrial firms and governmental laboratories. We have links with at least six teaching hospitals and work with universities in China, Poland, Egypt, Turkey, Denmark, Japan, Brazil, Germany, Belgium, Greece, Italy and the US.

Women in Engineering and Computing Programme

Brunel’s Women in Engineering and Computing mentoring scheme provides our female students with invaluable help and support from their industry mentors.

Accreditation

The requirement of UK-SPEC reinforces the need for a recent graduate with a Bachelor degree to take an appropriate postgraduate qualification in order to become a chartered engineer (currently, an accredited Bachelors degree does not enable the graduate to proceed to Chartered Engineer status without additional learning at M level).

This MSc program will be compliant with the further learning requirements of UK-SPEC. Accreditation will be sought from the Institute of Mechanical Engineering (IMechE) and Energy Institute. As a result, it will appeal to recent graduates who have not yet obtained the appropriate qualifications but intend to become Chartered Engineers. Most importantly, it will appeal to Mechanical, Chemical and Building Services Engineering graduates who wish to specialise in energy, or suitably experienced graduates of related subjects such as Physics.

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The Master of Science programme in Energy Engineering for an Environmentally Sustainable World (EEE-SW) is taught in English and offers a broad overview of the various technical issues related to energy and the environment. Read more

Mission and Goals

The Master of Science programme in Energy Engineering for an Environmentally Sustainable World (EEE-SW) is taught in English and offers a broad overview of the various technical issues related to energy and the environment. This special programme aims to prepare technicians capable of following and actively directing technological advances, operating effectively in a competitive and multi-disciplinary industrial context.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-for-an-environmentally-sustainable-world-track/

Career Opportunities

Graduates find employment in numerous industrial sectors, including industries producing and distributing energy, thermal, thermal-electric, air-conditioning and refrigeration plant design and management companies, energy management in companies or bodies with production objectives which may be far-removed energy. A Master of Science Engineer has openings in research and development as well as in activities related to the feasibility study and design of large-scale plant, innovative processes and development of technologically advanced machines and components.

For the academic year 2014-2015 prospective students with a university qualification obtained abroad can apply only for the 1st semester. This study course does not accept applications for the 2nd semester.
Applicants are required to take the GRE test (Graduate Record Examination) through ETS DI code 6939 in due time to have test scores sent to Welcome Desk Piacenza (welcome.piacenza(at)polimi.it) within the last day of the application period.

Recommended minimum GRE scores to be achieved for admission:
Verbal Reasoning: 155
Quantitative Reasoning: 155
Analytical Writing: 4.0

Only students with a Degree earned at an Italian University can apply without taking GRE test and they can also apply for admission at the 2nd semester.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Energy_Engineering_01.pdf
The programme provides a mix of design, operational and management skills, with particular emphasis on system and process engineering related to the production of basic energy carriers (electricity, heat and fuels) under tight environmental constraints. Students will learn how to evaluate and solve engineering issues (thermal, environmental, mechanical, chemical, electrical) raised by energy conversion systems, as well as analyze and assess operational and maintenance issues. Particular attention will be devoted to renewable energy sources, non-conventional energy technologies, emission control, electric systems with distributed power generation, etc. Teaching is organized around 3 core aspects: modeling and simulation tools; interdisciplinary vision; problem-solving approach. The programme is taught in English.

Subjects*

1st year – 1st semester
- Advanced Mathematical methods for energy engineering
- Advanced Thermodynamics and Heat Transfer
- Fundamentals of chemical processes for energy and the environment
1st year – 2nd semester
- Turbomachinery and internal combustion engines
- Energy and environmental technologies for building systems
- Electric conversion of renewable energy sources
- Materials and manufacturing process for energy

2nd year – 1st semester
- Energy systems and low-carbon technologies
- Air pollution and control engineering
- Operation and control of machines for power generation
2nd year – 2nd semester
- Bio-energy and waste-to-energy technologies
- Smart grids and regulation for renewable energy sources
- Major independent project work

* The list and titles of the courses to be followed is undergoing a revision aimed at enhancing the focus of the programme on the connection between Energy and the Environment. This will entail a reduction of the credits devoted to manufacturing, operation and control of machines and an increase of the credits devoted to optimization methods, renewable energy, industrial ecology. The final list of courses to be taken for the Academic Year 2016-17 will be available in January 2016.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-for-an-environmentally-sustainable-world-track/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-for-an-environmentally-sustainable-world-track/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

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This programme has been developed to meet the growing need for postgraduate skills within the engineering industry, and the demand for professional development for graduate engineers. Read more
This programme has been developed to meet the growing need for postgraduate skills within the engineering industry, and the demand for professional development for graduate engineers. The programme integrates the mechanical engineering subjects with key generic skills in management and research methods. This approach will help to develop your critical thinking skills as a future engineering manager, or technical specialist enabling you to effectively analyse technical and management issues. The University of Hertfordshire has a worldwide reputation for excellence in applied mechanical engineering. This international reputation will give you the opportunity to study with graduates from universities worldwide. You will benefit from the expertise of guest speakers from industry where relevant and appropriate.

The programme will:
-Provide education and experience to support your professional employment and career development within the industry
-Focus on the links between engineering analysis and design and supporting management skills management
-Provide a blend of knowledge and application experience through case studies and project work
-Equip you with the theory and practice of relevant subjects, technologies and analytical tools to provide solutions for mechanical and related manufacturing problems

Why choose this course?

-The School has over 50 years' experience of teaching mechanical engineering and has established an excellent international reputation in this field
-We offer extensive lab facilities for engineering students as well as the latest software packages and windtunnels
-This MSc combines mechanical engineering subjects with key management and research methods

Professional Accreditations

Accredited for Chartered Engineer (CEng) status by the Institution of Engineering and Technology (IET) and by the Royal Aeronautical Society (RAeS).

Careers

This programme will help you to develop your critical thinking skills as a future engineering manager or technical specialist as it will enable you to effectively analyse technical and management issues. This blend of technical and managerial content is invaluable in job applications as well as helping to fast-track your career in the industry.

Teaching methods

The School of Engineering and Technology has a reputation for innovation in teaching and learning, where nearly all MSc modules are delivered through a combination of traditional face-to-face teaching and backup tutorial's using the University's StudyNet web based facility. StudyNet allows students to access electronic teaching and learning resources, and conduct electronic discussion's with staff and other students. A heavy emphasis is placed on theory and practice, and AADE has a policy of using industrial standard software wherever possible. AADE also operate an open access laboratory, and computer policy, that will help students complete coursework and assignments, at a scheduled pace and on time.

Structure

Modules
-Advanced Thermodynamics & Thermal Systems
-CFD Techniques
-Control of Engineering Systems
-Dynamics and Performance of Mechanical Systems
-FEA & Applications
-MSc Project
-Operations Management
-Operations Research
-Quality Reliability & Maintenance

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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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