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Masters Degrees (Engineering Leadership)

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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Engineering Leadership and Management at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Engineering Leadership and Management at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

It is a well-known fact that engineers and technical graduates have the potential to reach the very pinnacle of management and leadership within business and industry.

The MSc in Engineering Leadership and Management programme, through consultation with business and industry (both large and small), is set to establish the key graduate skills and attributes required to succeed in a management and/or leadership role in the engineering sector.

Key Features of MSc Engineering Leadership and Management

The content of this multidisciplinary engineering management course will be very much informed by industry. Key modules on the Engineering Leadership and Management programme will deliver a broad introduction to management, alongside detailed engineering specific modules on:

- Project Management

- Compliance

- Health & Safety

- Operations Management

- Asset Management

- Strategy

- Sustainability

- Innovation

The Engineering Leadership and Management programme will incorporate traditional classroom teaching, online learning, interactive workshops and seminars. Multidisciplinary group work will be a key component of the course, along with industry-focused projects. All of the modules on the Engineering Leadership and Management course will be delivered on an “intense” basis, i.e. in isolation over 2-week periods.

Accreditation for the MSc in Engineering Leadership and Management will be sought with key Engineering and other relevant professional bodies.

As a student on the Master’s course in Engineering and Leadership Management, you will gain and build upon the key skills and knowledge required for a management and/or leadership role in the engineering sector.

Facilities

The new home of the Engineering Leadership and Management programme is at the innovative Bay Campus provides some of the best university facilities in the UK, in an outstanding location.

Links with Industry

The internationally leading materials research conducted at Swansea is funded by prestigious organisations including:

Rolls-Royce

Airbus

Tata Steel

Rolls-Royce

The Institute of Structural Materials at Swansea is a core member of the Rolls-Royce University Technology Centre in Materials.

This venture supports a wide ranging research portfolio with a rolling value of £6.5 million per annum addressing longer term materials issues.

Airbus

Over £1m funding has been received from Airbus and the Welsh Government in the last three years to support structural composites research and development in the aerospace industry and to support composites activity across Wales.

Tata Steel

Funding of over £6 million to continue our very successful postgraduate programmes with Tata Steel.

Other companies sponsoring research projects include Akzo Nobel, Axion Recycling, BAE Systems, Bayer, Cognet, Ford, HBM nCode, Jaguar Land Rover, Novelis, QinetiQ, RWE Innogy, Timet, TWI (Wales), as well as many smaller companies across the UK.

These industrial research links provide excellent opportunities for great research and employment opportunities.

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

The REF assesses the quality of research in the UK Higher Education sector, assuring us of the standards we strive for.

World-Leading Research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.



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The course has been designed to keep disruption to the employee and the workplace to a minimum, with a focus on eight long study weekends each year in the first two years, rather than a regular day release format. Read more
The course has been designed to keep disruption to the employee and the workplace to a minimum, with a focus on eight long study weekends each year in the first two years, rather than a regular day release format. In the first year participants take the level 7 certificate in Leadership & Management, a qualification in its own right, worth 20 credits towards the programme. The final year involves a real-world project carried out in the workplace.

Some employers believe that that there is a lack of strategy oriented scientific and technological insight into board-level decisions, reducing the breadth of knowledge that is now required in an increasingly complex and rapidly globalising business environment.

Course Outline & Modules

This programme aims to help emerging engineering leaders to build on their previous specialist skills, experiences and training to acquire those management and leadership skills required to meet their own and their company goals. To this end the programme will be, in part, demand lead, by working with a number of first adopter/trailblazer firms on their specific content needs, in the form of optional modules or modules they may wish to deliver themselves.

Modules
Core
-Strategic Management & Finance (EM4032)
-Project Management (EM4033)
-Research Methods (EM4034)
-Developing Leadership & Management Capability through Enquiry (also achieves the ILM level 7 certificate in Leadership & Management) (EM4035)

Optional
-Commercial Engagement (EM4036)
-Human Resources Management (EM4037)
-Supply Chain Management (EM4038)
-Operational Effectiveness (EM4039)
-Sustainable Engineering (EM4040)
-CSR and Governance (EM4041)

Dissertation stage
-Major Employer Project (EM4042)

Learning, Teaching & Assessment

The programme will be delivered using a range of methods including interactive lectures, tutorials, site visits, guest lectures and class debate.

Assessment methods are chosen in relation to the particular requirements of a module. Assessment methods employed include group and individual assignments, and class participation.

Career Opportunities

Are you on the cusp of your engineering/management career, wondering what comes next? Here are a few comments and thoughts from our Alumni about how this programme will help:

"My experience so far has shown that leadership is a rare quality in the industry. I strongly believe that it is a quality that an individual either has it or not, but techniques and best practices could be learned in a University programme. Honestly the programme seems very interesting.”

"Very flexible delivery; sounds like it is tailored to engineers, rather than a generic management programme”

"Additional Leadership experience would give a great addition to my current work experience”

"Sounds like a good way to bridge the gap between engineering and business qualifications."

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Engineers are the key to the development of society and solving the problems the world currently faces. They have the power to make the world fundamentally different. Read more
Engineers are the key to the development of society and solving the problems the world currently faces. They have the power to make the world fundamentally different.

The Master of Advanced Engineering is the key transitional stage in your career, transforming you into a global leader. Gain a depth of knowledge, mastering the crucial skills to become a leading contributor in your field.

Customise your degree - the Master of Advanced Engineering offers flexibility to complete your Master degree in just one year, or you can choose a two year option.

This course is designed to extend your knowledge in your chosen specialisation area and advance your leadership and complex problem-solving skills in a cross cultural environment.

Understand, reflect critically upon and apply methods in at least one specialist engineering area to design solutions to complex, multifaceted engineering problems.

Common core units will develop crucial skills in areas such as data analysis and entrepreneurship, translating theory into engineering practice. In discipline core units you will identify, interpret and critically appraise current developments and technologies within your specialisation.

Enhancement units are designed to provide breadth and are taken from either another engineering specialisation or in complementary areas such as information technology and business.

In addition, the two year version of the program offers a range of technical electives that will deepen your understanding of a specific topic, and two, year- long engineering project units. You will work closely with an academic on a topic of your choice and immerse yourself in a multidisciplinary design project.

The Master of Advanced Engineering could also be your stepping stone to a research degree. All of this in highly interactive, expert led classes.

Visit the website http://www.study.monash/courses/find-a-course/2016/advanced-engineering-e6001?domestic=true

Overview

Please select a specialisation for more details:

Chemical engineering

Your qualification will be a Master of Advanced Chemical Engineering

Please note that this specialisation is available only in Clayton.

The Master of Advanced Chemical Engineering allows you to engage in the areas of study including advanced reaction engineering, process design and optimization, conversion of bioresources into fuel, materials and specialty chemicals, and nanostructured membranes for sustainable separations and energy production with an emphasis on the latest developments in the field. In this course, you will develop specialised knowledge and skills that are important to Chemical Engineers in industry and research. This course provides graduates with enhanced opportunities for advancement in their careers.

Civil engineering (Infrastructure systems)

Your qualification will be a Master of Advanced Civil Engineering (Infrastructure Systems)

The Master of Advanced Civil Engineering (Infrastructure Systems) will equip graduates to work with in the area of infrastructure engineering and management. It will provide the fundamental knowledge associated with interfacing both structural and geotechnical designs for infrastructure systems. The program is designed to equip you with advanced skills necessary for managing the challenges posed by ageing and leading designs of new complex infrastructure systems. The course is suitable for new graduates, professionals and managers who are keen to upgrade their existing design and management skills, as well as to develop theoretical and applied knowledge in the area of infrastructure engineering and management.

Civil engineering (Transport)

Your qualification will be a Master of Advanced Civil Engineering (Transport)

Please note that this specialisation is available only in Clayton.

The Master of Advanced Civil Engineering (Transport) program deals with the fundamental knowledge associated with transport engineering and management, traffic engineering, intelligent transport systems and transport planning. The program in is a response to the growing need for engineers with broad awareness of the characteristics and significance of transport, including its technological, economic and social impact. At the same time, the program outlines the state-of-the-art of transport engineering, as it may be applied to the solution of real problems in the planning, design, management and operation of transport facilities. The course is suitable for new graduates, professionals and managers who are keen to upgrade their existing design and management skills as well as to develop theoretical and applied knowledge in the area of transport engineering and management.

Civil engineering (Water)

Your qualification will be a Master of Advanced Civil Engineering (Water)

Please note that this specialisation is available only in Clayton.

The Master of Advanced Civil Engineering (Water) allows you to major in water resources engineering and management. This program deals with the fundamental knowledge associated with surface and ground water flow, stormwater management, water quality, flood forecasting and mitigation. The program is designed to equip you with advanced skills necessary for managing the challenges posed by changing climatic condition on water resource management. The course is suitable for new graduates, professionals and managers who are keen to upgrade their existing design and management skills as well as to develop theoretical and applied knowledge in the area of water resources engineering and management.

Electrical engineering

Your qualification will be a Master of Advanced Electrical Engineering

Please note that this specialisation is available only in Clayton.

The Master of Advanced Electrical Engineering will give you a broad introduction to advanced techniques in signal processing, communications, digital systems and electronics. The units have been chosen around the common theme of embedded systems: special purpose computing systems designed for specific applications. They are found just about everywhere including in consumer electronics, transportation systems, medical equipment and sensor networks. The course will mix theory and practice and will contain a significant amount of hands-on learning in laboratories and team-based design projects.

Energy and sustainability engineering

Your qualification will be a Master of Advanced Engineering (Energy and Sustainability)

Please note that this specialisation is available only in Malaysia.

The Master of Advanced Engineering (Energy and Sustainability) is designed for qualified engineers keen to deepen their knowledge in the energy and sustainability area. The course provides foundations in general engineering through engineering analysis and entrepreneurship units. Students can major in this program by examining energy and sustainability area from a multi-disciplinary perspective. Students can also choose elective units such as environment and air pollution control and smart grids to further enhance their knowledge in this area or undertake a minor research work to pursue a topic of interest related to this area.

Materials engineering

Your qualification will be a Master of Advanced Materials Engineering

Please note that this specialisation is available only in Clayton.

The Master of Advanced Materials Engineering encompasses practical aspects of the key classes of materials such as metals, polymers, biomaterials, nanomaterials and energy-related materials. This program particularly focuses on the most up-to-date aspects of the field, along with the utilisation of materials and their electronic, chemical and mechanical properties as underpinned by the microstructures that are revealed by modern characterisation techniques. This program is designed to prepare students to appreciate and exploit the central role of materials in addressing the present technical, economic and environmental problems involved in the design and construction of engineering structures, processes and devices. This course is ideally suited for new graduates as well as professional engineers who are eager to advance their applied knowledge in the area of Materials Engineering.

Mechanical engineering

Your qualification will be a Master of Advanced Mechanical Engineering

Please note that this specialisation is available only in Clayton.

Most modern engineering projects are multidisciplinary in nature and require a broad range of skills, proficiencies and perspectives to accomplish the task. The Master of Advanced Mechanical Engineering takes a systems approach to the design, monitoring and performance of complex mechanical engineering systems in the fields of renewable energy, aerospace, buildings, transportation, and biomedical devices. The systems approach also permeates the design of the course: four discipline-based core units are vertically integrated so that common problems are examined from different perspectives, culminating in a sustainable systems unit.

For more information visit the faculty website - http://www.study.monash/media/links/faculty-websites/engineering

Find out how to apply here - http://www.study.monash/courses/find-a-course/2016/advanced-engineering-e6001?domestic=true#making-the-application

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The global shortage of qualified civil engineers includes specialists in water engineering and this MSc programme helps redress this imbalance by providing graduates with an advanced knowledge and skill base to equip them for senior industry roles. Read more

About the course

The global shortage of qualified civil engineers includes specialists in water engineering and this MSc programme helps redress this imbalance by providing graduates with an advanced knowledge and skill base to equip them for senior industry roles.

Brunel’s MSc in Water Engineering is unique in providing specialist knowledge on the critical sub-topics of water and wastewater management and engineering, desalination systems, building water services engineering, industrial waste water management, and water in health care.

The programme demonstrates the links between theory and practice by including input from our industrial partners and through site visits. This is a key aspect for establishing a competitive and high added value course that provides adequate links with industry.

Features of the course include:

Students’ skills in gathering and understanding complex information from a variety of sources (including engineering, scientific and socio-economic information) will be developed in an advanced research methods module. 

Issues relating to risk and health and safety will be introduced in the research methods module and built on in specialist modules. 

Generic modules in financial and project management will underpin specialist modules focusing on water engineering topics.

Real problem-solving examples – starting from basic principles, to the identified problem, the solution, the implementation process and was implemented and the end result. 

Real case studies – demonstrating how environmental and economic sustainability is considered within civil engineering, particularly in water resources management.

Aims

Problems associated with water resources, access, distribution and quality are amongst the most important global issues in this century. Water quality and scarcity issues are being exacerbated by rising populations, economic growth and climate change*.

Brunel's programme in Water Engineering aims to develop world class and leading edge experts on water sustainability who are able to tackle the industry’s complex challenges at a senior level. During the programme you will also learn about the development and application of models that estimate the carbon and water footprint within the energy and food sector.

The MSc is delivered by experienced industry professionals who bring significant practical experience to the course – and the University’s complete suite of engineering facilities and world-class research experience are set up for development and engineering of advanced systems, testing a variety of processes, designs and software tools.

*Recent figures indicate that 1.1 billion people worldwide do not have access to clean drinking water, while 2.6 billion do not have adequate sanitation (source: WHO/UNICEF 2005). 

Course Content

The primary aim of this programme is to create master’s degree graduates with qualities and transferable skills for demanding employment in the water engineering sector. Graduates will have the independent learning ability required for continuing professional development and acquiring new skills at the highest level.

Specific aims are as follows:

- To provide education at postgraduate level in civil engineering. 
- To develop the versatility and depth to deal with new, complex and unusual challenges across a range of water engineering issues, drawing on an understanding of all aspects of water engineering principles. 
- To develop imagination, initiative and creativity to enable graduates to follow a successful engineering career with national and international companies and organisations. 
- To provide a pathway that will prepare graduates for successful careers including, where appropriate, progression to Chartered Engineer status.

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:

- The principles of water engineering, including fluid mechanics, hydrology, and sustainable design. 
- Specialist areas that impact on the successful application of water engineering knowledge projects, e.g. sustainable construction management, financial management and risk analysis. 
- The interplay between engineering and sustainability in complex, real-world situations.

At the cognitive level students will be able to:

- Select, use and evaluate appropriate investigative techniques.
- Assemble and critically analyse relevant primary and secondary data.
- Recognise and assess the problems and critically evaluate solutions to challenges in managing water engineering projects.
- Evaluate the environmental and financial sustainability of current and potential civil engineering activities.

Personal and transferable skills that students develop will allow them to:

- Define and organise a substantial advanced investigation. 
- Select and employ appropriate advanced research methods. 
- Organise technical information into a concise, coherent document.
- Effectively employ a variety of communication styles aimed at different audiences. 
- Plan, manage, evaluate and orally-presented personal projects. 
- Work as part of, and lead, a team.

Typical Modules

Each taught module will count for 15 credits, approximating to 150 learning hours. The Master's programme can be taken full time, over 12 months. The first eight months of the full time course will eight taught modules. For the final four months, students will complete a dissertation counting for 60 credits. Modules cover:

Sustainable Project Management
GIS and Data Analysis
Water Infrastructure Engineering
Risk and Financial Management
Hydrology & Hydraulics
Water Treatment Engineering
Water Process Engineering
Research Methods
Civil Engineering Dissertation

Teaching

Our philosophy is to underpin theoretical aspects of the subject with hands-on experience in applying water engineering techniques. Although you may move on to project management and supervision roles, we feel it important that your knowledge is firmly based on an understanding of how things are done. To this end, industrial partners will provide guest lectures on specialist topics.

In addition to teaching, water engineering staff at Brunel are active researchers. This keeps us at the cutting edge of developments and, we hope, allows us to pass on our enthusiasm for the subject.

How many hours of study are involved?

Contact between students and academic staff is relatively high at around 20 hours per week to assist you in adjusting to university life. As the course progresses the number of contact hours is steadily reduced as you undertake more project-based work.

How will I be taught?

Lectures:
These provide a broad overview of the main concepts and ideas you need to understand and give you a framework on which to expand your knowledge by private study.
Laboratories:
Practicals are generally two- or three-hour sessions in which you can practise your observational and analytical skills, and develop a deeper understanding of theoretical concepts.
Design Studios:
In a studio you will work on individual and group projects with guidance from members of staff. You may be required to produce a design or develop a solution to an engineering problem. These sessions allow you to develop your intellectual ability and practice your teamwork skills.
Site visits:
Learning from real-world examples in an important part of the course. You will visit sites featuring a range of water engineering approaches and asked to evaluate what you see.
One-to-one:
On registration for the course you will be allocated a personal tutor who will be available to provide academic and pastoral support during your time at university. You will get one-to-one supervision on all project work.

Assessment

Several methods of assessment are employed on the course. There are written examinations and coursework. You will undertake projects, assignments, essays, laboratory work and short tests.

Project work is commonplace and is usually completed in groups to imitate the everyday experience in an engineering firm, where specialists must pool their talents to design a solution to a problem.

In this situation you can develop your management and leadership skills and ensure that all members of the group deliver their best. Group members share the mark gained, so it is up to each individual to get the most out of everyone else.

Special Features

Extensive facilities
Students can make the most of laboratory facilities which are extensive, modern and well equipped. We have recently made a major investment in our Joseph Bazalgette Laboratories which includes hydraulic testing laboratory equipment and facilities such as our open channel flow flumes.

Personal tutors
Although we recruit a large number of highly qualified students to our undergraduate, postgraduate and research degrees each year, we don’t forget that you are an individual. From the beginning of your time here, you are allocated a personal tutor who will guide you through academic and pastoral issues.

World-class research
The College is 'research intensive' – most of our academics are actively involved in cutting-edge research. Much of this research is undertaken with collaborators outside the University, including construction companies, water utilities, and other leading industrial firms. We work with universities in China, Poland, Egypt, Turkey, Italy, Denmark and Japan. This research is fed directly into our courses, providing a challenging investigative culture and ensuring that you are exposed to up-to-date and relevant material throughout your time at Brunel.

Strong industry links
We have excellent links with business and industry in the UK and overseas. This means:
Your degree is designed to meet the needs of industry and the marketplace.
The latest developments in the commercial world feed into your course.
You have greater choice and quality of professional placements.
We have more contacts to help you find a job when you graduate.

Visting Professors 
The Royal Academy of Engineering - UK’s national academy for engineering has appointed senior industrial engineers as visiting professors at Brunel University London.
The Visting Professors Scheme provides financial support for experienced industrial engineers to deliver face-to-face teaching and mentoring at a host of institutions. Our engineering undergraduates will benefit from an enhanced understanding of the role of engineering and the way it is practised, along with its challenges and demands. 

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

This course has been designed in close consultation with the industry and is accredited as a designated 'technical' MSc degree by the Join Board of Moderators (JBM). The JBM is made up of Institution of Highways and Transport and the Institution of Highway Engineeres respectively.

1. This means this course provides Further Learning for a Chartered Engineer who holds a CEng accredited first degree (full JBM listing of accredited degrees).
2. As a designated ‘technical’ MSc, it will also allow suitable holders of an IEng accredited first degree to meet the educational base for a Chartered Engineer.

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Our MSc in Electronic Engineering offers content that is different to many other similarly-titled courses. It equips you with a skill set that is in demand by industry worldwide, allowing you to maximise your employability by taking a course that is broad in scope but challenging in detail. Read more

About the course

Our MSc in Electronic Engineering offers content that is different to many other similarly-titled courses. It equips you with a skill set that is in demand by industry worldwide, allowing you to maximise your employability by taking a course that is broad in scope but challenging in detail.

Electronic Engineering provides a broad master’s-level study of some of the most important aspects of electronic engineering today. It builds on your undergraduate knowledge of core aspects of electronics, supported by a module in Engineering Business Environment and Energy Policies, which provides you with an understanding of the context of engineering in the early 21st Century.

The course embraces a number of themes in areas identified as being generally under-represented in many other courses, such as power electronics and electromagnetic compatibility, providing you with as wide a range of employment opportunities as possible – whether this is in industry or continuing in research at university.

The course has achieved accreditation by the Institution of Engineering and Technology (IET) to CEng level for the full five year period.

Reasons to study

• Accredited by the Institution of Engineering and Technology (IET) to CEng level
offering a streamlined route to professional registration

• Industry placement opportunity
you can chose to undertake a year-long work placement, gaining valuable experience to enhance your practical and professional skills further

• Graduate employability
Our graduates have gone on to work in a variety of specialist roles in diverse industries, including; embedded systems, electronic design and biomedical monitoring

• Access to superb professional facilities
such as general electronics and assembly, digital electronics and microprocessor engineering, power electronics, control systems and communications engineering

• Study a wide range of specialist modules
course content is regularly reviewed and modules have been specifically developed to address skills gaps in the industry

• Academic and research expertise
benefit from teaching by experienced academic and research-based staff, including those from DMU’s dedicated Centre for Electronic and Communications Engineering, who are actively involved in international leadership roles in the sector.Programme

Course Structure

First semester (September to January)

• Digital Signal Processing
• Physics of Semiconductor Devices
• Engineering Business Environment and Energy Policies
• Control and Instrumentation

Second semester (February to May)

• Embedded Systems
• Research Methods
• Electromagnetic Compatibility and Signal Integrity
• Power Electronics

Third semester (June to September)

This is a major research-based individual project

Optional placement
We offer a great opportunity to boost your career prospects through an optional one year placement as part of your postgraduate studies. We have a dedicated Placement Unit which will help you obtain this. Once on your placement you will be supported by your Visiting Tutor to ensure that you gain maximum benefit from the experience. Placements begin after the taught component of the course has been completed - usually around June - and last for one year. When you return from your work placement you will begin your dissertation.

Teaching and Assessment

Modules are delivered through a mixture of lectures, tutorials and laboratories. The methodology ensures a good balance between theory and practice so that real engineering problems are better understood, using strong theoretical and analytical knowledge translated into practical skills.

Contact and learning hours

You will normally attend 4 hours of timetabled taught sessions each week for each module undertaken during term time, for full time study this would be 16 hours per week during term time. You are expected to undertake around 212 further hours of independent study per 30 credit modules. Alternate study modes and entry points may change the timetabled session available, please contact us for details.

Industry Accreditation

he course is fully accredited by the Institution of Engineering and Technology (IET) which is one of the world’s leading professional societies for the engineering and technology community, with more than 150,000 members in 127 countries.

IET accreditation recognises the high standard of the course and confirms the relevance of its content. In order to achieve IET accreditation the course has had to reach a certain standard in areas such as the course structure, staffing, resourcing, quality assurance, student support and technical depth.

The benefits of an IET accredited course include increased opportunities, being looked on favourably by employers and completing the first step in your journey to achieving professional Chartered Engineer (CEng) status which can be applied for following a period of suitable industrial experience after graduation.

This degree has been accredited by IET under licence from the UK regulator, the Engineering Council. Accreditation is a mark of assurance that the degree meets the standards set by the Engineering Council in the UK Standard for Professional Engineering Competence (UK-SPEC). An accredited degree will provide you with some or all of the underpinning knowledge, understanding and skills for eventual registration as an Incorporated (IEng) or Chartered Engineer (CEng). Some employers recruit preferentially from accredited degrees, and an accredited degree is likely to be recognised by other countries that are signatories to international accords.

Facilities

You will have flexible access to our laboratories and workshops which include: electrical and electronic experimental facilities in general electronics and assembly, digital electronics and microprocessor engineering, power electronics, control systems and communications engineering. Each area is equipped with the latest experimental equipment appropriate to the corresponding areas of study and research. An additional CAD design suite provides access to computing facilities with specialist electronics CAD tools including OrCAD and PSpice. A specialised area incorporating a spacious radio frequency reverberation chamber and Faraday cage allows for experimentation in radio frequency engineering and electromagnetics, while our digital design suite is equipped with the latest 8 and 32-bit embedded microprocessor platforms together with high-speed programmable logic development environments. Power generation and conversion, industrial process control and embedded drives are provided while our communications laboratory is additionally equipped for RF engineering.

To find out more

To learn more about this course and DMU, visit our website:
Postgraduate open days: http://www.dmu.ac.uk/study/postgraduate-study/open-evenings/postgraduate-open-days.aspx

Applying for a postgraduate course:
http://www.dmu.ac.uk/study/postgraduate-study/entry-criteria-and-how-to-apply/entry-criteria-and-how-to-apply.aspx

Funding for postgraduate students:
http://www.dmu.ac.uk/study/postgraduate-study/postgraduate-funding-2017-18/postgraduate-funding-2017-18.aspx

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This course is offered in response to sustained international demand for highly skilled graduates in mechanical engineering for manufacturing and process engineering industries. Read more
This course is offered in response to sustained international demand for highly skilled graduates in mechanical engineering for manufacturing and process engineering industries. On completion of the course, you will be able to:

- show a thorough understanding of the principles and theoretical bases of modern manufacturing techniques, automation, and production processes
- identify appropriate manufacturing systems for different production requirements and analyse their performance
- apply appropriate technology, quality tools and manufacturing methodology to design, re-design and continuously improve the manufacturing operations of engineering companies
- plan, research, execute and oversee experiments and research projects, critically analyse and interpret data, and effectively disseminate results
- work effectively as a member of a multidisciplinary team, be self-motivated, able to work independently and demonstrate leadership

Visit the website: http://www.ucc.ie/en/ckr27/

Course Details

The course is 12 months in duration starting in September and consists of 60 credits in Part I from September to March, and 30 credits in Part II from June to September. You take 10 taught modules from the list below to the value of 50 credits and also undertake a preliminary research project (ME6019) worth 10 credits in Part I. If you obtain a minimum of 50% in the taught modules and the preliminary project, you will be eligible to progress to Part II and undertake a major four-month research project (ME6020) worth 30 credits, and submit a dissertation leading to the award of the MEngSc degree.

ME6001 Manufacturing Systems (5 credits)
ME6002 CAD/CAM (5 credits)
ME6003 Production Management (5 credits)
ME6004 Operations Research and Project Economics (5 credits)
ME6007 Mechanical Systems (5 credits)
ME6008 Mechatronics and Robotics (5 credits)
ME6009 Industrial Automation and Control (5 credits)
ME6010 Technology of Materials (5 credits)
ME6012 Advanced Robotics (5 credits)
PE6002 Process Automation and Optimisation (5 credits)
PE6003 Process Validation and Quality (5 credits)
PE6007 Mechanical Design of Process Equipment (5 credits)
PE6009 Pharmaceutical Engineering (5 credits)
CE3010 Energy in Buildings (5 credits)
CE4016 Energy Systems in Buildings (5 credits)
CE6024 Finite Element Analysis (5 credits)
EE4012 Biomedical Design (5 credits)

Further details on the content and modules are available on the Postgraduate College Calendar - http://www.ucc.ie/calendar/postgraduate/Masters/engineering/page05.html

Format

Each module typically consists of 24 lectures, 12 hours of continuous assessment, plus additional supplemental reading and study, carried out over one of two 12-week semesters from September to December (Semester 1), or January to March (Semester 2). The exact workload in each teaching period will depend on the choice of modules. In addition, a substantial weekly commitment to the project module ME6019 is expected over both semesters.

Assessment

Individual modules have different methods of assessment but this typically consists of a single end-of-semester examination in December or April/May, plus continuous assessment throughout the relevant semester. This continuous assessment may consist of a combination of in-class tests, formal laboratories or practicals, design exercises, project work, written reports and presentations. Any repeat examinations are held in August.

Students who pass but fail to achieve an average mark of at least 50% across the taught modules excluding the Preliminary Research Project (ME6019) or do not achieve a mark of at least 50% in the Preliminary Research Project (ME6019) will be eligible for the award of a Postgraduate Diploma in Mechanical Engineering (Manufacturing, Process and Automation Systems). Candidates passing Part I of the programme who do not wish to proceed to Part II may opt to be conferred with a Postgraduate Diploma in Mechanical Engineering (Manufacturing, Process and Automation Systems).

Careers

In response to increasing demand for highly skilled graduates in the field of mechanical engineering applied to the manufacturing and pharma-chem industries, this course will produce mechanical engineering postgraduates who are proficient in the development and realisation of modern manufacturing, process and automation systems. This is achieved through developing an understanding of the concepts of manufacturing systems, and the skills to analyse, design and implement manufacturing systems in practice. This is combined with an understanding of process automation and operational management. The course will equip you with an-up-to date knowledge of manufacturing techniques and processes.

How to apply: http://www.ucc.ie/en/study/postgrad/how/

Funding and Scholarships

Information regarding funding and available scholarships can be found here: https://www.ucc.ie/en/cblgradschool/current/fundingandfinance/fundingscholarships/

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World leading aircraft manufacturers predict the number of in-service commercial aircraft doubling to over 43,500 in the next 20 years. Read more
World leading aircraft manufacturers predict the number of in-service commercial aircraft doubling to over 43,500 in the next 20 years. Our MSc Aviation Engineering and Management course will provide you with the skills, knowledge and expertise to succeed in the aviation industry.
You’ll develop key problem-solving skills within the field of aviation including airlines, corporate aviation, general aviation, component manufacturing organisations, and related industries, and civil aviation governmental agencies.

You’ll gain an understanding of the various complexities facing aviation businesses through a breadth of industry related modules. Your studies will also cover a wide variety of tools, techniques, and research methods, and how they may be applied to research and solve real-life problems within the aviation industry.

See the website http://courses.southwales.ac.uk/courses/1878-msc-aviation-engineering-and-management

What you will study

The course consists of nine modules with a key theme throughout your studies including the ethical dimensions of decision-making and interpersonal relations. This means you can be confident that you will develop personally and professionally as part of the course, ultimately making yourself more employable. You’ll study the following modules:

- Aircraft Systems Design and Optimization (10 Credits)
This module will give you a comprehensive knowledge of the systems of the aircraft, including preliminary designing of systems primary and secondary systems, operation and maintenance concepts. You will be introduced to novel engineering design methods such as Multi Objective Design (MOD) and multi-disciplinary design optimisation. Part of the module will be delivered with the support of industrial partners and experts, which will bring real scale industrial experience and interaction with the industry.

- Aviation Sustainable Engineering
This module will explore the historical and contemporary perspectives in international aviation framework while looking at the socio-economic benefits of aviation since the Chicago Convention of 1944. You will analyse current and future design and manufacturing trends in the aerospace industry.

- Condition Monitoring and Non-Destructive Testing
This module analyses condition monitoring and non-destructive testing, giving you an appreciation for the key concepts and tools in this subject. You will evaluate the use of these tools in different situations within industry and make recommendations on necessary adjustments.

- Advanced Materials and Manufacture
You will look at a range of modern engineering materials and develop an awareness of the selection criteria for aeronautical and mechanical engineering applications. You will also look at a range of “standard” and modern manufacturing processes, methods and techniques.

- Lean Maintenance Operations & Certification
This module will help you develop and understand concepts in Six Sigma, lean maintenance, operational research, reliability centred maintenance and maintenance planning. You will evaluate and critically analyse processes within highly regulated industries.

- Safety, Health and Environmental Engineering Management
Covering the principles and implementation of the safety, health and environmental management within the workplace, you will look at key concepts in human cognition and other human factors in risk management and accident/incident investigation. You will also gain an understanding of the role of stakeholder involvement in sustainable development.

- Strategic Leadership and Management for Engineers
This module will explore a range of purposes and issues surrounding successful strategic management and leadership as well as appraising a range of leadership behaviours and processes that may inspire innovation, change and continuous transformation within different organisational areas including logistics and supply chain management.

- Research Methods for Engineers
The aim of this module is to provide you with the ability to determine the most appropriate methods to collect, analyse and interpret information relevant to an area of engineering research. To provide you with the ability to critically reflect on your own and others work.

- Individual Project
You will undertake a substantial piece of investigative research work on an appropriate engineering topic and further develop your skills in research, critical analysis and development of solutions using appropriate techniques.

Learning and teaching methods

You will be taught through a variety of lectures, tutorials and practical laboratory work.

You will have 10 contact hours per week, you will also need to devote around 30 hours per week to self-study, such as conducting research and preparing for your assessments and lectures.

Work Experience and Employment Prospects

Aerospace engineering is an area where demand exceeds supply. As a highly skilled professional in aircraft maintenance engineering, you will be well placed to gain employment in this challenging industry. The aircraft industry is truly international, so there is demand not only in the UK, but throughout the world.

Careers available after graduation include aircraft maintenance planning, engineering, materials, quality assurance or compliance, technical services, logistics, NDT, method and process technical engineering, aircraft or engine leasing, aviation sales, aviation safety, reliability and maintainability, operations and planning, airworthiness, technical support, aircraft surveying, lean maintenance, certification, production planning and control.

Assessment methods

You will be continually assessed coursework or a mixture of coursework and exams. The dissertation allows you to research a specific aviation engineering topic, to illustrate your depth of knowledge, critical awareness and problem-solving skills. The dissertation has three elements of assessment: a thesis, a poster presentation, and a viva voce examination.

Facilities

The aerospace industry has become increasingly competitive and in recognising this, the University has recently invested £1.8m into its aerospace facilities.

Facilities available to our students have been fully approved by the Civil Aviation Authority (CAA). With access to an EASA-approved suite of practical training facilities, our students can use a range of industry-standard facilities.

Our Aerospace Centre is home to a Jetstream 31 Twin Turboprop aircraft, assembled with Honeywell TPE331 Engines and Rockwell-Collins Proline II Avionics. It has a 19-passenger configuration.

The EASA-approved suite contains training and practical workshops and laboratories. Each area contains the tools and equipment required to facilitate the instruction of either mechanical or avionic practical tasks as required by the CAA.

Students use the TQ two-shaft gas turbine rig to investigate the inner workings of a gas turbine engine by collecting real data and subsequently analysing them for engine performance.

Our sub-sonic wind tunnel is used for basic aerodynamic instruction, testing and demonstrations on various aerofoil shapes and configurations.

The single-seater, full motion, three axes Merlin MP521 flight simulator can be programmed for several aircraft types that include the Airbus A320 and the Cessna 150.

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What is Humanitarian Engineering?. Read more

What is Humanitarian Engineering?

‘Humanitarian Engineering’ is defined as the use of science and engineering to invent, create, design, develop, or improve technologies which promote the well-being of communities which are facing grand humanitarian challenges (fast growing populations, poor, disaster-hit, marginalised, or under-served communities).

The postgraduate course in Humanitarian Engineering is an interdisciplinary innovative educational programme for Humanitarian Engineers which promotes appropriate, sustainable, and holistic solutions to global challenges by integrating science into a broader practical scheme. This unique and cutting-edge programme will enable you to tackle global problems (energy, water, natural disasters, humanitarian logistics, conflict and wars, global health, mixed in with overpopulation, poverty and underinvestment in low-income countries) in an interdisciplinary way and equip them to address causes, consider preventative approaches, and implement suitable responses.

It is a flexible programme that provides students with an academically rigorous postgraduate level interdisciplinary training in the fields of Humanitarian Engineering, spanning from international development to humanitarianism and disaster emergencies. It involves a strong practical component with exposure to the ‘real world’ of organisations and practitioners and experience that boosts employability.

Who is it for?

The course is - by its nature - not a ‘just for Engineers’ course, instead it is for people with background in any of the following subjects: Science (e.g. Chemistry, Physics), Social Sciences (e.g. History, Politics, Sociology), Law, Health, Management, Business and Economics as well as Engineering.

The programme spans a broad range of disciplines and is ideal for students who are looking to explore all the professional and disciplinary facets of humanitarian challenges.

What will you study?

The course develops enterprising, outward-looking graduates who are both equipped to meet society’s newest and pressing challenges, and employers' demands for advanced skills and knowledge, while translating these skills into your chosen arena. Different stakeholders, beneficiaries and users (e.g. industry, policy-makers, and local communities) are involved in the programme, so that knowledge is orientated towards real world problems and challenges.

Those of you who are less tied to the bounded nature of a particular discipline are able to develop and seek learning between, beyond and across disciplines. The programme brings together an exciting group of European and International students with a diversity of academic and professional backgrounds who establish an international alumni network involved in humanitarian engineering research and practice.

At the point of application, you will choose one of three variants. Each variant offers different core and optional modules tailored to one of three pathways: general Humanitarian Engineering, Humanitarian Engineering with Sustainability, and Humanitarian Engineering with Management.

If you are having keen interest in Engineering might wish to pursue the MSc in Humanitarian Engineering with Sustainability, which focuses on renewable energy, and sustainable cities, operations, and infrastructures.

If you wish to pursue Business-related issues might prefer the MSc in Humanitarian Engineering with Management, which offers opportunities to explore project management, communication and leadership, and management of sustainable supply chains.

Course Structure

Core Modules:

  • Ethics, Theory and Practices (15 credits)
  • Humanitarian Engineering: Ethics, Theory and Practices (15 credits)
  • An introduction to Global Health (15 credits)
  • Water and Environmental Management (15 credits)
  • One Humanity; Shared Responsibility (15 credits)
  • Disasters, Resilience and Urban Data (15 credits)
  • Renewable Energy (15 credits)
  • Project (45 credits)

Optional Modules

Your choice of optional modules will help you to further tailor the programme to your interests. 

Optional core module:

  • Humanitarian Law (15 credits)

List A:

  • Sustainable Cities and Infrastructures for Emergencies (15 credits)
  • Sustainable Operations and Humanitarian Supply Management (15 credits)

List B:

  • Communication and Leadership (15 credits)
  • Design for Sustainability (15 credits)
  • Project Management (15 credits)

For a PgD (120 credits), students must take all core modules for 90 credits, and any combination of optional modules for 30 credits (excluding List B modules). The project will not be undertaken in such cases.

For a PgC (60 credits) the student must take any combination of core modules for 60 credits or any combination of core and optional modules for at least 30 credits of core modules and a maximum of 30 credits of optional modules (excluding List B modules).

* The modules mentioned above may be subject to change. Please read our terms and conditions for more detailed information.

Teaching:

Each module will run intensively over one week and will be taught by a variety of methods: seminar, lecture, field research.

Assessment:

The core modules are assessed in a variety of ways: essay, poster, presentation, student-devised assessment.

Career Opportunities

Graduate Destinations: 

Graduates of this programme will work across a broad range of areas. Students are expected to come from a broad array of international and professional backgrounds and go on after graduation into a wide variety of professional positions. Many Humanitarian Engineering graduates will work with the governments of developing countries managing the development process (e.g. central banks, ministries of finance, rural development, and education). Others will go on to multilateral development institutions like the World Bank, the IMF, or the United Nations; others to NGO Leaders of all sizes and descriptions; and still others will go on to work in the private sector, in jobs as diverse as professional services, manufacturing, and investment banking, to name just a few. Some students may decide to pursue PhD studies.

Work Experience Opportunities: 

During the programme, students will have the opportunity to get involved in projects managed by organisations and professional services in developing and transitional countries.



Read less
What is Humanitarian Engineering?. Read more

What is Humanitarian Engineering?

‘Humanitarian Engineering’ is defined as the use of science and engineering to invent, create, design, develop, or improve technologies which promote the well-being of communities which are facing grand humanitarian challenges (fast growing populations, poor, disaster-hit, marginalised, or under-served communities).

The postgraduate course in Humanitarian Engineering is an interdisciplinary innovative educational programme for Humanitarian Engineers which promotes appropriate, sustainable, and holistic solutions to global challenges by integrating science into a broader practical scheme. This unique and cutting-edge programme will enable you to tackle global problems (energy, water, natural disasters, humanitarian logistics, conflict and wars, global health, mixed in with overpopulation, poverty and underinvestment in low-income countries) in an interdisciplinary way and equip them to address causes, consider preventative approaches, and implement suitable responses.

It is a flexible programme that provides students with an academically rigorous postgraduate level interdisciplinary training in the fields of Humanitarian Engineering, spanning from international development to humanitarianism and disaster emergencies. It involves a strong practical component with exposure to the ‘real world’ of organisations and practitioners and experience that boosts employability.

Who is it for?

The course is - by its nature - not a ‘just for Engineers’ course, instead it is for people with background in any of the following subjects: Science (e.g. Chemistry, Physics), Social Sciences (e.g. History, Politics, Sociology), Law, Health, Management, Business and Economics as well as Engineering.

The programme spans a broad range of disciplines and is ideal for students who are looking to explore all the professional and disciplinary facets of humanitarian challenges.

What will you study?

The course develops enterprising, outward-looking graduates who are both equipped to meet society’s newest and pressing challenges, and employers' demands for advanced skills and knowledge, while translating these skills into your chosen arena. Different stakeholders, beneficiaries and users (e.g. industry, policy-makers, and local communities) are involved in the programme, so that knowledge is orientated towards real world problems and challenges.

Those of you who are less tied to the bounded nature of a particular discipline are able to develop and seek learning between, beyond and across disciplines. The programme brings together an exciting group of European and International students with a diversity of academic and professional backgrounds who establish an international alumni network involved in humanitarian engineering research and practice.

At the point of application, you will choose one of three variants. Each variant offers different core and optional modules tailored to one of three pathways: general Humanitarian Engineering, Humanitarian Engineering with Sustainability, and Humanitarian Engineering with Management.

If you are having keen interest in Engineering might wish to pursue the MSc in Humanitarian Engineering with Sustainability, which focuses on renewable energy, and sustainable cities, operations, and infrastructures.

If you wish to pursue Business-related issues might prefer the MSc in Humanitarian Engineering with Management, which offers opportunities to explore project management, communication and leadership, and management of sustainable supply chains.

Course Structure

Core Modules:

  • Humanitarian Engineering: Ethics, Theory and Practices (15 credits)
  • An introduction to Global Health (15 credits)
  • Water and Environmental Management (15 credits)
  • One Humanity; Shared Responsibility (15 credits)
  • Disasters, Resilience and Urban Data (15 credits)
  • Renewable Energy (15 credits)
  • Sustainable Operations and Humanitarian Supply Management (15 credits)
  • Project Management (15 credits)
  • Project (45 credits)

Optional Modules: 

Your choice of optional modules will help you to further tailor the programme to your interests.

  • Humanitarian Law (15 credits)
  • Sustainable Cities and Infrastructures for Emergencies (15 credits)
  • Communication and Leadership (15 credits)
  • Sustainable Operations and Humanitarian Supply Management (core module extended from 15 credits to 30 credits)

* The modules mentioned above may be subject to change. Please read our terms and conditions for more detailed information.

Teaching:

Each module will run intensively over one week and will be taught by a variety of methods: seminar, lecture, field research.

Assessment:

The core modules are assessed in a variety of ways: essay, poster, presentation, student-devised assessment.

Career Opportunities

Graduate Destinations: 

Graduates of this programme will work across a broad range of areas. Students are expected to come from a broad array of international and professional backgrounds and go on after graduation into a wide variety of professional positions. Many Humanitarian Engineering graduates will work with the governments of developing countries managing the development process (e.g. central banks, ministries of finance, rural development, and education). Others will go on to multilateral development institutions like the World Bank, the IMF, or the United Nations; others to NGO Leaders of all sizes and descriptions; and still others will go on to work in the private sector, in jobs as diverse as professional services, manufacturing, and investment banking, to name just a few. Some students may decide to pursue PhD studies.

Work Experience Opportunities: 

During the programme, students will have the opportunity to get involved in projects managed by organisations and professional services in developing and transitional countries.



Read less
What is Humanitarian Engineering?. Read more

What is Humanitarian Engineering?

‘Humanitarian Engineering’ is defined as the use of science and engineering to invent, create, design, develop, or improve technologies which promote the well-being of communities which are facing grand humanitarian challenges (fast growing populations, poor, disaster-hit, marginalised, or under-served communities).

The postgraduate course in Humanitarian Engineering is an interdisciplinary innovative educational programme for Humanitarian Engineers which promotes appropriate, sustainable, and holistic solutions to global challenges by integrating science into a broader practical scheme. This unique and cutting-edge programme will enable you to tackle global problems (energy, water, natural disasters, humanitarian logistics, conflict and wars, global health, mixed in with overpopulation, poverty and underinvestment in low-income countries) in an interdisciplinary way and equip them to address causes, consider preventative approaches, and implement suitable responses.

It is a flexible programme that provides students with an academically rigorous postgraduate level interdisciplinary training in the fields of Humanitarian Engineering, spanning from international development to humanitarianism and disaster emergencies. It involves a strong practical component with exposure to the ‘real world’ of organisations and practitioners and experience that boosts employability.

Who is it for?

The course is - by its nature - not a ‘just for Engineers’ course, instead it is for people with background in any of the following subjects: Science (e.g. Chemistry, Physics), Social Sciences (e.g. History, Politics, Sociology), Law, Health, Management, Business and Economics as well as Engineering.

The programme spans a broad range of disciplines and is ideal for students who are looking to explore all the professional and disciplinary facets of humanitarian challenges.

What will you study?

The course develops enterprising, outward-looking graduates who are both equipped to meet society’s newest and pressing challenges, and employers' demands for advanced skills and knowledge, while translating these skills into your chosen arena. Different stakeholders, beneficiaries and users (e.g. industry, policy-makers, and local communities) are involved in the programme, so that knowledge is orientated towards real world problems and challenges.

Those of you who are less tied to the bounded nature of a particular discipline are able to develop and seek learning between, beyond and across disciplines. The programme brings together an exciting group of European and International students with a diversity of academic and professional backgrounds who establish an international alumni network involved in humanitarian engineering research and practice.

At the point of application, you will choose one of three variants. Each variant offers different core and optional modules tailored to one of three pathways: general Humanitarian Engineering, Humanitarian Engineering with Sustainability, and Humanitarian Engineering with Management.

If you are having keen interest in Engineering might wish to pursue the MSc in Humanitarian Engineering with Sustainability, which focuses on renewable energy, and sustainable cities, operations, and infrastructures.

If you wish to pursue Business-related issues might prefer the MSc in Humanitarian Engineering with Management, which offers opportunities to explore project management, communication and leadership, and management of sustainable supply chains.

Course Structure

Core Modules:

  • Humanitarian Engineering: Ethics, Theory and Practices (15 credits)
  • An introduction to Global Health (15 credits)
  • Water and Environmental Management (15 credits)
  • One Humanity; Shared Responsibility (15 credits)
  • Disasters, Resilience and Urban Data (15 credits)
  • Renewable Energy (15 credits)
  • Sustainable Operations and Humanitarian Supply Management (15 credits)
  • Sustainable Cities and Infrastructures for Emergencies (15 credits)
  • Project (45 credits)

Optional Modules: 

Your choice of optional modules will help you to further tailor the programme to your interests.

  • Humanitarian Law (15 credits)
  • Design for Sustainability (15 credits)
  • Renewable Energy (core module extended from 15 credits to 30 credits)
  • Sustainable Cities and Infrastructures for Emergencies (core module extended from 15 credits to 30 credits)
  • Disasters, Resilience and Urban Data (core module extended from 15 credits to 30 credits)

 * The modules mentioned above may be subject to change. Please read our terms and conditions for more detailed information.

Teaching:

Each module will run intensively over one week and will be taught by a variety of methods: seminar, lecture, field research.

Assessment:

The core modules are assessed in a variety of ways: essay, poster, presentation, student-devised assessment.

Career Opportunities

Graduate Destinations: 

Graduates of this programme will work across a broad range of areas. Students are expected to come from a broad array of international and professional backgrounds and go on after graduation into a wide variety of professional positions. Many Humanitarian Engineering graduates will work with the governments of developing countries managing the development process (e.g. central banks, ministries of finance, rural development, and education). Others will go on to multilateral development institutions like the World Bank, the IMF, or the United Nations; others to NGO Leaders of all sizes and descriptions; and still others will go on to work in the private sector, in jobs as diverse as professional services, manufacturing, and investment banking, to name just a few. Some students may decide to pursue PhD studies.

Work Experience Opportunities: 

During the programme, students will have the opportunity to get involved in projects managed by organisations and professional services in developing and transitional countries.



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Covering a range of topics from managing people to finances, operations, resources and beyond, our course equips you with the tools and techniques you’ll need to manage within today’s complex technical organisations. Read more
Covering a range of topics from managing people to finances, operations, resources and beyond, our course equips you with the tools and techniques you’ll need to manage within today’s complex technical organisations.

Technical competence alone is not enough for the success of engineering companies - wider professional skills are needed at the top. No matter what your area of technical expertise, if you want to push forwards in your engineering career towards a managerial role this course is for you.

We’ll develop your practical skills and intellectual understanding in essential areas such as people management, finance control, operations management and basic contract law - all geared towards the global industrial market.

Our course is designed for engineers from a wide range of technical fields, so whether you’re a civil engineer, a mechanical engineer or an engineer working in another capacity, you can benefit from the leadership and management techniques covered.

Full-time - January start, 15 months. September start, 12 months.
Part-time - January start, 33 months. September start, 28 months.

See the website http://www.anglia.ac.uk/study/postgraduate/engineering-management

This course aims to provide you with:
• the intellectual competency to pursue personal career goals and aspirations, and to understand that personal development is a continuous
• the ability to identify personal strengths and weaknesses and to define personal performance targets in terms of leadership style and managerial effectiveness
• the opportunity to enhance interpersonal skills and to encourage the development of leadership qualities
• an educational experience which provides the breadth of vision and enhancement of professional effectiveness expected of an engineering manager
• the ability to evaluate challenging situations and to develop confidence in selecting appropriate methods for identifying, researching and diagnosing managerial problems
• the tools to analyse managerial theories and develop comprehensive views of relevant management issues for the advancement of all aspects of engineering management.

There is an increasing global demand for continuing professional development and this course will be of particular interest to engineers who wish to expand their careers into the management arena, irrespective of their area of technical expertise. It is designed for engineers in a wide range of technical fields, including civil, mechanical, electronic and manufacturing engineering. Technical competence alone is not enough for the success of engineering companies and this course will enable you to develop your intellectual capabilities and your performance, with respect to your wider professional role.

On successful completion of this course you will be able to:
• evaluate your own work roles, and review personal development aspirations;
• assess and enhance personal managerial effectiveness and skills;
• analyse the roles and influences which managers exercise within organisational settings;
• analyse behavioural concepts underpinning management studies;
• evaluate the relationships between engineering organisations and their environments;
• compare and contrast the impacts which environmental factors have on the manager's role within the constraints and opportunities that exist in the engineering sector.

Careers

If you want to move into engineering management, or if you’ve recently moved into a management role and want to continue your professional development, our course is for you. You’re also in the perfect position to continue your academic career and move up to our Built Environment PhD.

Core modules

Management Theory
Management Practice
Project Management Systems
Engineering Management Systems
Engineering Quality Management
Re-engineering Processes
Managing Dynamic Virtual Enterprises
Research Design and Methods
Major Project/Dissertation

Assessment

You’ll be assessed through exams, written assignments and seminars throughout your study.

Your faculty

The Faculty of Science & Technology is one of the largest of five faculties at Anglia Ruskin University. Whether you choose to study with us full- or part-time, on campus or at a distance, there’s an option whatever your level – from a foundation degree, to a BSc, MSc, PhD or professional doctorate.

Whichever course you pick, you’ll gain the theory and practical skills needed to progress with confidence. Join us and you could find yourself learning in the very latest laboratories or on field trips or work placements with well-known and respected companies. You may even have the opportunity to study abroad.

Everything we do in the faculty has a singular purpose: to provide a world-class environment to create, share and advance knowledge in science and technology fields. This is key to all of our futures.

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If you are a high-achieving graduate in engineering and the physical sciences, learn to develop and apply your technical knowledge to the world of sport. Read more

If you are a high-achieving graduate in engineering and the physical sciences, learn to develop and apply your technical knowledge to the world of sport. The course gives you the skills and knowledge to work at the cutting edge of research and development in the sports equipment industry.

More than ever, the world of sport is intimately connected to new technologies. The global sports equipment industry is valued at £200 billion annually and is driven by new research and innovation. In addition professional and national teams are increasingly reliant on technological solutions to monitor and assess the performance of their elite athletes.

Throughout this course you enhance your technical, problem solving and engineering skills and learn to apply them to the sporting environment. You also develop a biomechanical and physiological understanding of athletes, enabling you to analyse the athlete-equipment interactions in sport.

You complete a major industry linked research project to develop your practical understanding of sports engineering, to gain vital real world experience as well as improve your employability. Recent student projects have been partnered to organisations such as

  • Adidas
  • Ping
  • Prince Sports
  • Mitre
  • Gunn and Moore
  • Eley
  • International Tennis Federation
  • International Rugby Board
  • D3o
  • English Institute of Sport
  • UK Sport.

The course is delivered by the Centre for Sports Engineering Research an internationally renowned centre of excellence for research and consultancy with over 200 years of cumulative experience. The Centre for Sports Engineering Research has 35 research staff and PhD students making it one of the world’s largest centres for sports engineering research. The group has close ties to many different sports companies and organisations and works extensively to enhance elite performance across many sports through its role as an English Institute of Sport research and innovation partner.

We assign you an academic and professional advisor, whose role is to support your academic and professional development, and career planning. You can also attend a free four day leadership award, that explores different perspectives on leadership. You may be able to study abroad as part of the Erasmus programme.

The course is led by Dr Simon Choppin, a fellow of the research centre and an associate editor of the Sports Engineering Journal.

Course structure

The course is made up of nine taught modules, plus a major industry linked research project. All modules are mandatory and have been tailored to match the previous experience of a graduate engineer/ physical scientist. The vast majority of teaching is in small groups (typically less than 20) allowing for bespoke delivery.

Modules

  • Industry linked research project (45 credits)
  • Mechanics of sports equipment (15 credits)
  • Measurement techniques in sports engineering and biomechanics (15 credits)
  • Computer simulation of sports equipment (15 credits)
  • Numerical programming in sports engineering (15 credits)
  • Innovation and enterprise in sports engineering (15 credits)
  • Human factors in sports engineering (15 credits)
  • Physiology of sport and exercise (15 credits)
  • Research methods (15 credits)

Please https://www.shu.ac.uk/study-here/find-a-course/msc-sports-engineering foe module descriptions

Assessment

  • examinations
  • coursework
  • presentations
  • research project thesis

Employability

As a graduate, you benefit from this course’s excellent connections with industry. This course has been developed in conjunction with a number of leading sports organisations to meet their research and development needs.

Graduates from this course have gone on to work at the cutting edge of research and development with companies such as • Adidas • Taylor Made • Nike • Ping • Prince Sports • Mizuno.

Some of our graduates have gone on to work as technologists and analysts in elite sport in organisations such as UK Sport • English Institute of Sport • Irish Institute of Sport • England and Wales Cricket Board • High Performance Sport New Zealand.



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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Sustainable Engineering Management for International Development at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Sustainable Engineering Management for International Development at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

The MSc in Sustainable Engineering Management for International Development is a cross-disciplinary programme that is highly applied with both taught elements and a real project deliverable that are designed to develop practitioners who can think rapidly and flexibly, acting in the absence of complete information to support and improve the quality of life through engineering solutions.

Key Features of Sustainable Engineering Management for International Development

- Developed in collaboration with College of Arts and Humanities and the Prince’s Foundation.

- Natural extension of a number of highly successful College of Engineering student mobility projects over the past few years in Zambia, Liberia and South Africa.

- Focus on “applied” sustainable engineering projects in a real life environment, with interaction with real stakeholders in an international development context.

- Students recruited as part of a team to specific projects from the outset, each with a specific role/angle on the project within broad but defined project requirements.

- Students recruited from a range of backgrounds, including STEM, International Development, Politics, Law, Business (but other areas considered) from UK/EU and Overseas.

- From day one, the project will be the focus for the students, with team development and the acquisition of the tools required for success central to delivery.

- Limited places offered on competitive basis and an interview process with stakeholders involved.

- A number of scholarship and bursary opportunities are available.

Modules

Modules on the MSc Sustainable Engineering Management for International Development course typically include:

- Introduction to Development Studies

- Leadership, Team Development and Innovative Thinking

- Complexity, Uncertainty, Risk Mitigation and Failure

- Concept Development & Application

- Project Management

- Monitoring & Impact Evaluation

- Community Engagement

- Social, Economic and Political Implications of Engineering Solutions

- Circular Economy and Sustainable Engineering

Facilities

Sustainable Engineering Management for International Development course is based at the innovative Bay Campus which provides some of the best university facilities in the UK, in an outstanding location.

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

The REF assesses the quality of research in the UK Higher Education sector, assuring us of the standards we strive for.

World-Leading Research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.



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Important. if you are an international student requiring a Tier 4 student visa to study in the UK you will also need an ATAS certificate for this course. Read more
Important: if you are an international student requiring a Tier 4 student visa to study in the UK you will also need an ATAS certificate for this course.

Choose Kingston's Mechanical Engineering MSc

This course, accredited by the Institution of Mechanical Engineers, is designed to provide you with the latest technological knowledge and industrial management skills, at an advanced level of study, in specific aspects of mechanical engineering that are in demand from industry. The course also provides you with a strategic overview of engineering and management skills necessary to take on leadership roles in major engineering projects.

The MSc will meet, in part, the exemplifying academic benchmark requirements for registration as a Chartered Engineer. Accredited MSc graduates who also have a BEng(Hons) accredited for CEng, will be able to show that they have satisfied the educational base for CEng registration.

Key features
-Teaching in many technical modules is backed up by appropriate hands-on experience and workshops, which can be transferred directly to your working environment.
-Academic teaching is complemented by visits from industry experts. You will also have plenty of opportunities to attend relevant technical seminars, both within and outside the University.
-You can tailor your course to enhance your career ambitions through your module choices, whilst the project dissertation gives you the opportunity to choose a field of study in which to establish yourself as a specialist.

What will you study?

This course will provide a broad and in-depth understanding of mechanical design engineering, modern materials application and advanced manufacturing technology. You will employ advanced computer-based mechanical engineering design analysis and problem solving, using cutting-edge technologies such as finite elements analysis (FEA), computational fluid dynamics (CFD) and mechanism design analysis and control. What's more, you will develop the entrepreneurial management and business skills necessary to take on leadership roles in major engineering projects.

The project dissertation challenges you to investigate a theoretical area in depth and solve a real-world problem.

Assessment

Coursework and/or exams, research project.

Work placement scheme

Kingston University has set up a scheme that allows postgraduate students in the Faculty of Science, Engineering and Computing to include a work placement element in their course starting from September 2017. The placement scheme is available for both international and home/EU students.

-The work placement, up to 12 months; is optional.
-The work placement takes place after postgraduate students have successfully completed the taught portion of their degree.
-The responsibility for finding the placement is with the student. We cannot guarantee the placement, just the opportunity to undertake it.
-As the work placement is an assessed part of the course for international students, this is covered by a student's tier 4 visa.

Details on how to apply will be confirmed shortly.

Course structure

Please note that this is an indicative list of modules and is not intended as a definitive list.

Core modules
-Engineering Research Techniques, Entrepreneurship and Quality Management
-Computational Fluid Dynamics for Engineering Applications
-Advanced Stress Analysis and Materials
-Engineering Individual Project

Option modules (choose one)
-Advanced CAD/CAM Systems
-Green Engineering and Energy Efficiency
-Mechatronics Design and Automation

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This course develops the combination of technical knowledge and management expertise that are required to successfully deliver multi-million pound engineering projects. Read more
This course develops the combination of technical knowledge and management expertise that are required to successfully deliver multi-million pound engineering projects.

Course overview

This Masters-level course equips you to be the type of person who can lead a technical team to deliver on time and on budget. You will build on your technical background while adding business and management skills. These skills include project control, supply chain management, risk management and quality optimisation.

Our supportive tutors also help you develop the ‘soft’ skills of working with others and leading projects. For example, you will gain expertise in negotiation and collaboration, effective communication, handling conflict and politics, and managing change.

Modules include ‘Engineering Operations Management’, ‘Project Risk and Quality Management’ and ‘Decision Support for Management’. Your Masters project will involve a real-world project that is supported by a sponsor. It will include both a research and a practical element, and it is an opportunity to impress not only your academic assessors but also potential employers.

Sunderland has long-standing expertise in engineering management and strong links with employers. We host the Institute for Automotive & Manufacturing Advanced Practice (AMAP) which provides problem-solving solutions to manufacturers of all capabilities. We are a leading research group in automotive, manufacturing and maintenance engineering. This research informs our teaching and facilitates your own research as part of your Masters project.

Course content

The course mixes taught elements with independent research and supportive supervision. At MA level, responsibility for learning lies as much with you as with your tutor.

Modules on this course include:
-Research Skills and Academic Literacy (15 Credits)
-Project Management and Control (30 Credits)
-Engineering Operations Management (15 Credits)
-Decision Support for Management (15 Credits)
-Managing People and Project Leadership (15 Credits)
-Project Risk and Quality Management (15 Credits)
-Advanced Maintenance Practice (15 Credits)
-Masters Project (60 Credits)

Teaching and assessment

We use a wide variety of teaching and learning methods which include lectures, group work, research, discussion groups, seminars, tutorials and practical laboratory sessions.

Compared to an undergraduate course, you will find that this Masters requires a higher level of independent working. Assessment methods include individual written reports and research papers, practical assignments and the Masters project.

Facilities & location

The University of Sunderland has excellent facilities with specialist laboratories and modelling software.

Engineering facilities
Our specialist facilities include laboratories for electronics and electrical power, and robotics and programmable logic controllers. We also have advanced modelling software that is the latest industry standard. In addition, the University is the home of the Institute for Automotive and Manufacturing Advanced Practice (AMAP), which builds on Sunderland’s role as a centre of excellence in the manufacturing and assembly of cars.

University Library Services
We’ve got thousands of books and e-books on engineering topics, with many more titles available through the inter-library loan service. We also subscribe to a comprehensive range of print and electronic journals so you can access the most reliable and up-to-date academic and industry articles.
Some of the most important sources for engineers include:
-British Standards Online which offers more than 35,000 documents covering specifications for products, dimensions, performance and codes of practice
-Abstracts from the Institute of Electrical and Electronics Engineers and Institution of Engineering and Technology. These include journals, conference proceedings, technical reports and dissertations. A limited number of articles are full-text
-Science Direct, which offers more than 18,000 full-text Elsevier journals
-Archives of publications from Emerald, including over 35,000 full-text articles dating back to 1994 that span engineering and management subjects

IT provision
When it comes to IT provision you can take your pick from hundreds of PCs as well as Apple Macs in the David Goldman Informatics Centre and St Peter’s Library. There are also free WiFi zones throughout the campus. If you have any problems, just ask the friendly helpdesk team.

Location
The course is based at our Sir Tom Cowie Campus at St Peter’s. The Campus is on the banks of the River Wear and is less than a mile from the seaside. It’s a vibrant learning environment with strong links to manufacturers and commercial organisations and there is a constant exchange of ideas and people.

Employment & careers

This course equips you for a wide range of engineering management roles throughout the engineering and manufacturing sector. Employers recognise the value of qualifications from Sunderland, which has been training engineers and technicians for over 100 years.

As part of the course, you will undertake a project that tackles a real-world problem. These projects are often sponsored by external clients and we encourage and support you to find your own client and sponsor. This relevant work experience will enhance your skills, build up a valuable network of contacts and further boost your employability.

Potential management roles include:
-Project manager
-Design engineer
-Manufacturing engineer
-Mechanical engineer
-Electrical engineer
-Product engineer
-Maintenance engineer

Engineering management provides good career prospects with salaries ranging from £30,000 up to around £80,000. A Masters degree will also enhance opportunities in academic roles or further study towards a PhD.

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