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Masters Degrees (Production Engineering)

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This MSc in Petroleum Production Engineering is aimed at practising oilfield engineers and managers who already have at least two years oil and gas industry experience. Read more
This MSc in Petroleum Production Engineering is aimed at practising oilfield engineers and managers who already have at least two years oil and gas industry experience.

The course has been developed and is supported by experienced industry professionals, using authentic industry applications software, technical standards and engineering practices.

This full-time or distance learning degree in Petroleum Production Engineering covers wells and related production facilities, whether on land, offshore or subsea.

Each study comprises up to 52 hours of lectures and tutorials. Significant additional private study is expected during each module.

Visit the website https://www.rgu.ac.uk/engineering/study-options/postgraduate-taught-full-time/petroleum-production-engineering

Stage 1

•Subsurface
•Wells
•Facilities
•Business Essentials

Exit Award: PgCert Oil and Gas Engineering

Stage 2

•Production System Modelling
•Production Operations
•Completions and Subsea Systems
•Petroleum Economics & Asset Management

Exit Award: PgDip Petroleum Production Engineering

Stage 3

•Individual Project Report

Award: MSc Petroleum Production Engineering

Accreditation

This course is accredited by the Energy Institute for Further Learning at Masters Level.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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This programme will provide you with the advanced knowledge and skills to pursue a successful career in the oil and gas industry. Read more

This programme will provide you with the advanced knowledge and skills to pursue a successful career in the oil and gas industry.

You’ll study modules covering core topics related to the downstream activities of the industry including drilling and production technology, oilfield chemistry and corrosion, and chemical reaction processes. You’ll also have the option to take modules in topics such as separation processes, process optimisation and control, and multi-scale modelling and simulation.

Practical work supports your lectures and seminars, as you split your time between the lab and the classroom. You’ll also undertake a major research project investigating a specific topic in petroleum production engineering, which could relate to your own interests or career intentions. Taught by experts in our world-class facilities, you’ll gain the knowledge and skills to thrive in a challenging and exciting industry.You’ll benefit from the chance to study in cutting-edge facilities where our researchers are pushing the boundaries of chemical and process engineering. We have facilities for characterising particulate systems for a wide range of technological materials, as well as facilities for fuel characterisation, environmental monitoring and pollution control. In our Energy Building, you’ll find an engine testing fuel evaluation and transport emissions suite and other characterisation equipment.

Accreditation

We are seeking accreditation from the Energy Institute.

Course content

Most of the course revolves around core modules, giving you a range of knowledge relating to different aspects of downstream petroleum production processes. These will include chemical reaction processes, drilling and production technologies and oilfield chemistry and corrosion.

You’ll look at the principles of process performance analysis, refining theory, enhanced oil recovery, chemicals used in corrosion control and strategies for new or mature assets. On top of this, you’ll take an optional module that allows you to develop your knowledge in an area that suits your own interests.

In the summer months you’ll undertake a research project, which will demonstrate the skills you’ve gained and may even be linked to your future career plans.

Want to find out more about your modules?

Take a look at the Petroleum Production Engineering module descriptions for more detail on what you will study.

Course structure

Compulsory modules

  • Research Project (MSc) 60 credits
  • Chemical Reaction Processes 15 credits
  • Fuel Processing 15 credits
  • Advanced Drilling and Production Technology 15 credits
  • Drilling and Production Technology 30 credits
  • Unconventional Oil and Gas Reservoirs 15 credits

Optional modules

  • Separation Processes 30 credits
  • Multi-Scale Modelling and Simulation 30 credits
  • Rock Mechanics 15 credits
  • Petroleum Reservoir Engineering 15 credits

For more information on typical modules, read Petroleum Production Engineering MSc in the course catalogue

Learning and teaching

Our groundbreaking research feeds directly into teaching, and you’ll have regular contact with staff who are at the forefront of their disciplines. You’ll have regular contact with them through lectures, seminars, tutorials, small group work and project meetings. Independent study is also important to the programme, as you develop your problem-solving and research skills as well as your subject knowledge.

Assessment

You’ll be assessed using a range of techniques including case studies, technical reports, presentations, in-class tests, assignments and exams. Optional modules may also use alternative assessment methods.

Projects

The research project is one of the most satisfying elements of this course. It allows you to apply what you’ve learned to a piece of research focusing on a real-world problem, and it can be used to explore and develop your specific interests.

Examples of project topics would include:

  • Enhancement of mechanical strength and corrosion inhibition in oil pipelines
  • Reducing oil pipeline scaling using nano-particle seeding agents
  • Monitoring pipeline flows using electrical resistance tomography (ERT)
  • The application of nano-technology in enhancing oil recovery
  • Application of polymer-based nano-particles in absorbing and controlling oil spillages
  • Tribo-electrostatic beneficiation of oil shale using a powder dispersal system

A proportion of research projects are formally linked to industry, and can include spending time at the collaborator’s site over the summer.

Career opportunities

The programme’s main focus is on downstream petroleum industry activities such as drilling, production, refining and distribution.

With an MSc degree in Petroleum Production Engineering you could expect to pursue a successful career in the oil and gas industries in a wide range of areas as diverse as field engineering, production drilling engineering, pipeline and transportation logistics, refinery operations and management, refinery control and optimisation, and sales and marketing.

Careers support

You’ll have access to the wide range of engineering and computing careers resources held by our Employability team in our dedicated Employability Suite. You’ll have the chance to attend industry presentations book appointments with qualified careers consultants and take part in employability workshops. Our annual Engineering and Computing Careers Fairs provide further opportunities to explore your career options with some of the UK’s leading employers.

The University's Careers Centre also provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.



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In an ever-demanding world market place the need to be competitive in production is essential. Businesses are reorganizing themselves in response to the challenges and demands of the 21st century and must be flexible and responsive to the changing market requirements. Read more
In an ever-demanding world market place the need to be competitive in production is essential. Businesses are reorganizing themselves in response to the challenges and demands of the 21st century and must be flexible and responsive to the changing market requirements. Manufacturing companies must produce high quality, cost-effective product in quick response time to customer demand. In order to do this, successful manufacturing companies must embrace the skill and expertise of engineering, business and management.

This course aims to develop production engineers who will be able to apply technology, business and management skills to respond to the demands of the industry for operational excellence.

WHY CHOOSE THIS COURSE?

Students who enjoy solving problems, making improvements and working with people should apply.

This is an ideal course for technical students such as mechanical engineers, who wish follow a management career in factory operations and require additional production knowledge.

Graduates of the MSc in Production Engineering and Operations Management have successful progressive careers in the manufacturing industry.

You will have access to the expertise within the Future Manufacturing Applied Research Centre and the Institute for Advanced Manufacturing and Engineering (a collaboration with industry: UNIPART).

WHAT WILL I LEARN?

On this course you will develop the skills necessary to design and develop lean and competitive manufacturing facilities as well as apply continuous improvement techniques to identify waste. You will learn to identify opportunities for the application of new materials and processes and evaluate appropriate production control system. You will develop the skills to assess manufacturing issues with regards to strategic and financial implications as well as work effectively in a team environment.

The course has the following modules:
-Masters project (Industry or academic based)
-Research methods and Study Skills;
-Engineering Materials Processes
-Metrology, Quality and Engineering Analysis
-Global Lean and Agile Operations
-Digital Manufacturing
-Advanced Manufacturing Technologies
-Automation and Robotics
-Optimisation and Simulation
-New Product Introduction Group Project

HOW WILL THIS COURSE ENHANCE MY CAREER PROSPECTS?

On completion of this course you will have developed as a manufacturing engineer and increased your knowledge of the application of technology and developed your business and management skills. You should go on to pursue a successful career in manufacturing industry in roles which typically include manufacturing engineering, process planning, production planning, quality, systems improvement, projects and operations management.

GLOBAL LEADERS PROGRAMME

To prepare students for the challenges of the global employment market and to strengthen and develop their broader personal and professional skills Coventry University has developed a unique Global Leaders Programme.

The objectives of the programme, in which postgraduate and eligible undergraduate students can participate, is to provide practical career workshops and enable participants to experience different business cultures.

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​This course provides for advanced study in the field of Production and Engineering Management. It aims to provide managers, engineers and business specialists with key insights in to production systems which operate in a wide range of organisations. Read more

Course Overview

​This course provides for advanced study in the field of Production and Engineering Management. It aims to provide managers, engineers and business specialists with key insights in to production systems which operate in a wide range of organisations. Specifically the objectives of this course are:

1. To develop production and engineering management theory at a professional level where it will also provide for a sound preparation for research or further study in the area

2. To develop and apply key knowledge and understanding of production and engineering management theory to complex systems, both systematically and creatively, to improve production management practice

3. To enhance independent and high level learning skills and personal development so that learners are able to work with self-direction and originality and to contribute to the discipline of Production and Engineering Management.

*This programme is subject to validation for September 2017 entry and the information provided may be subject to change. All new programmes at the University must undergo validation, the purpose of which is to ensure that the proposed programme is aligned to the University's Mission and its content reflects appropriate levels of academic standards and quality.

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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 Master of Science Programme (LM) in Safety Engineering for Transport, Logistics, and Production wants to provide students with a high level of advanced training, to enable them to operate in the areas the most qualified with reference to the various activities related to safety in transport systems, logistics, and related manufacturing. Read more

Aims and Basic Characteristics:

The Master of Science Programme (LM) in Safety Engineering for Transport, Logistics, and Production wants to provide students with a high level of advanced training, to enable them to operate in the areas the most qualified with reference to the various activities related to safety in transport systems, logistics, and related manufacturing.

The degree course aims at training a professional engineer with a thorough knowledge and understanding of the principles of systems engineering of transportation, logistics and production, in which to realize the acquired ability to conceive, plan, design and manage complex, innovative systems and processes, with particular attention to the related safety aspects.
The degree in Safety Engineering for Transport, Logistics, and Production will support the state exam for a license to practice in all the three areas of Engineering: Civil and Environmental, Industrial, and Information.

The typical professional fields for graduates in Safety Engineering for Transport, Logistics, and Production are those of the design and management of safety systems, with particular reference to the transport systems, the development of advanced innovative services, the management of logistics and production, in private and public enterprises, and public administration.

For any information, feel free to write to Prof. Nicola Sacco: safety_at_dime.unige.it

Job opportunities:

• engineering companies and/or large professional firms operating in the field of design, implementation, security management with reference of the transport systems and territorial
• public and private institutions that handle large lines infrastructure (railways, highways, ...)
• government (municipalities, provinces, regions, port authorities, ...)
• freelance
• research structures (universities, research centers, ...)

What Will You Study and Future Prospects:

The main goal is to enable M.Sc. graduates to operate in the various activities related to safety in transport systems, logistics, and production, but also of the territory where they are located.

The course provides notions about:

• the risk assessment of local systems, and in particular the planning, design and management of both safety (protection against accidental events) and security (protection than intentional events);
• the evaluation in terms of cost/benefits of different design alternatives for risk mitigation in transport, logistics, and production systems;
• the planning and management of the mobility of people and goods, through the knowledge of the fundamental elements of transport and logistic systems, as well as the criteria to define the physical characteristics of isolated infrastructures a network of infrastructures, with particular reference to the relevant functions and interdependencies;
• the design and safe management of transport, logistic, and production systems, with reference to either the systems as a whole, and to the relevant single components, such as infrastructures, facilities, vehicles, equipment;
• the development and use of advanced methods to manage and optimize the performance and safety of road, rail, air and sea infrastructure and transport services, as well as their interactions in an intermodal framework, by means of the design and implementation of monitoring, regulation, and control systems via the most advanced technologies related to their specific disciplines;
• the analysis and evaluation of the externalities of transport and logistic systems, with explicit reference to the particular safety aspect and issues characterizing each phase of the mobility of people and goods, even within the production plants connected, and their interaction with surrounding environment.

The course is articulated into two alternative curricula:

1. TRANSPORT AND LOGISTICS: This curriculum concentrates on the problems related to design and manage the complex systems that realize a safe and effective mobility of passengers and freights.

2. INDUSTRIAL LOGISTICS AND PRODUCTION: This curriculum concentrates on the problems related to design and manage the complex systems that realize a safe and effective production plant internal logistics and management.

Entry Requirements:

Admission to the Master of Science in Safety Engineering for Transport, Logistics and Production is subject to the possession of specific curricular requirements and adequacy of personal preparation.

The access requirements are equivalent to those provided by the general educational objectives of all three-year university degree in classes of Civil and Environmental Engineering, Information Engineering, and Industrial Engineering. In fact, one of the following curricular requirements must be fulfilled:

• possession of a Bachelor, or a Master degree, or a five-year degree in classes of Civil and Environmental Engineering, Information Engineering, and Industrial Engineering, awarded by an Italian University, or equivalent qualifications;
• possession of a Bachelor, or a Master degree, or a five-year degree with at least 36 ECTS (“Base Courses”, e.g. Mathematics, Physics, Chemistry, Informatics) and at least 45 ECTS that pertain to the Engineering classes, awarded by an Italian University, or equivalent qualifications;

To access, a knowledge of English is required, at least equivalent at B1 European Level.

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

As a student on the Master's course in Electronic and Electrical Engineering, you will develop specialist skills aligned with the College of Engineering’s research interests and reflecting the needs of the electronics industry.

Key Features of MSc in Electronic and Electrical Engineering

The MSc Electronic and Electrical Engineering course covers the ability to apply the knowledge gained in the course creatively and effectively for the benefit of the profession, to plan and execute a programme of work efficiently, and to be able, on your own initiative, to enhance your skills and knowledge as required throughout your career in Electronic and Electrical Engineering.

Students on the Electronic and Electrical Engineering course benefit from the use of industry-standard equipment, such as a scanning tunnelling microscope for atomic scale probing or an hp4124 parameter analyzer for power devices, for simulation, implementation and communication.

During the Electronic and Electrical Engineering course there will be the opportunity to choose and apply suitable prototyping and production methods and components, gain knowledge in constructing and evaluating advanced models of various manufacturing techniques, and be able to differentiate, analyse and discuss various product lifetime management solutions and how they affect different sectors of Electronic and Electrical Engineering industry.

The MSc in Electronic and Electrical Engineering programme is modular in structure. Students must obtain a total of 180 credits to qualify for the degree. This is made up of 120 credits in the taught element (Part One) and a project (Part Two) that is worth 60 credits and culminates in a written dissertation in Electronic and Electrical Engineering. Students on the Electronic and Electrical Engineering course must successfully complete Part One before being allowed to progress to Part Two.

Part-time Delivery mode of MSc in Electronic and Electrical Engineering

The part-time scheme of the MSc in Electronic and Electrical Engineering is a version of the full-time equivalent MSc in Electronic and Electrical Engineering scheme, and as such it means lectures are spread right across each week and you may have lectures across every day. Due to this timetabling format, the College advises that the scheme is likely to suit individuals who are looking to combine this with other commitments (typically family/caring) and who are looking for a less than full-time study option in Electronic and Electrical Engineering.

Those candidates seeking to combine the part-time option with full-time work are unlikely to find the timetable suitable, unless their job is extremely flexible and local to the Bay Campus.

Modules on Electronic and Electrical Engineering

Modules on the MSc Electronic and Electrical Engineering course can vary each year but you could expect to study:

Communication Skills for Research Engineers

Energy and Power Electronics Laboratory

Power Semiconductor Devices

Advanced Power Electronics and Drives

Wide Band-Gap Electronics

Power Generation Systems

Modern Control Systems

Advanced Power Systems

Signals and Systems

Digital Communications

Optical Communications

Probing at the Nanoscale

RF and Microwaves

Wireless Communications

Facilities for Electronic and Electrical Engineering

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

Engineering at Swansea University has extensive IT facilities and provides extensive software licenses and packages to support teaching. In addition the University provides open access IT resources.

Find out more about the facilities used by Electronic and Electrical students at Swansea University, including the electronics lab on our website.

Links with Industry

At Swansea University, Electronic and Electrical Engineering has an active interface with industry and many of our activities are sponsored by companies such as Agilent, Auto Glass, BT and Siemens.

Electronic and Electrical Engineering has a good track record of working with industry both at research level and in linking industry-related work to our postgraduate courses. We also have an industrial advisory board that ensures our taught courses including the MSc in Electronic and Electrical Engineering maintain relevance.

Our research groups work with many major UK, Japanese, European and American multinational companies and numerous small and medium sized enterprises (SMEs) to pioneer research. This activity filters down and influences the project work that is undertaken by all our postgraduate students including those on the MSc in Electronic and Electrical Engineering.

Careers

Electronic and Electrical Engineering graduates find employment in industry, research centres, government or as entrepreneurs in a wide range of careers, from a design and development role for electronic and electrical equipment or as a technological specialist contributing to a multi-disciplinary team in a range of fields, including medicine, travel, business and education.

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.

With recent academic appointments strengthening electronics research at the College, the Electronic Systems Design Centre (ESDC) has been re-launched to support these activities.

The Centre aims to represent all major electronics research within the College and to promote the Electrical and Electronics Engineering degree.

Best known for its research in ground-breaking Power IC technology, the key technology for more energy efficient electronics, the Centre is also a world leader in semiconductor device modelling, FEM and compact modelling.



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WHAT YOU WILL GAIN. - Practical guidance from biomedical engineering experts in the field. - 'Hands on' knowledge from the extensive experience of the lecturers, rather than from only the theoretical information gained from books and college reading. Read more
WHAT YOU WILL GAIN

- Practical guidance from biomedical engineering experts in the field
- 'Hands on' knowledge from the extensive experience of the lecturers, rather than from only the theoretical information gained from books and college reading
- Credibility as a biomedical engineering expert in your firm
- Skills and know-how in the latest technologies in biomedical engineering
- Networking contacts in the industry
- Improved career prospects and income
- An EIT Advanced Diploma of Biomedical Engineering

Next intake is scheduled for June 06, 2017. Applications are now open; places are limited.

INTRODUCTION

Biomedical engineering is the synergy of many facets of applied science and engineering. The advanced diploma in biomedical engineering provides the knowledge and skills in electrical, electronic engineering required to service and maintain healthcare equipment. You will develop a wide range of skills that may be applied to develop software, instrumentation, image processing and mathematical models for simulation. Biomedical engineers are employed in hospitals, clinical laboratories, medical equipment manufacturing companies, medical equipment service and maintenance companies, pharmaceutical manufacturing companies, assistive technology and rehabilitation engineering manufacturing companies, research centres. Medical technology industry is one of the fast-growing sectors in engineering field. Join the next generation of biomedical engineers and technicians and embrace a well paid, intensive yet enjoyable career by embarking on this comprehensive and practical program. It provides a solid overview of the current state of biomedical engineering and is presented in a practical and useful manner - all theory covered is tied to a practical outcomes. Leading biomedical/electronic engineers with several years of experience in biomedical engineering present the program over the web using the latest distance learning techniques.

There is a great shortage of biomedical engineers and technicians in every part of the world due to retirement, restructuring and rapid growth in new industries and technologies. Many companies employ electrical, electronic engineers to fill the vacancy and provide on the job training to learn about biomedical engineering. The aim of this 18-month eLearning program is to provide you with core biomedical engineering skills to enhance your career prospects and to benefit your company/institution. Often universities and colleges do a brilliant job of teaching the theoretical topics, but fail to actively engage in the 'real world' application of the theory with biomedical engineering. This advanced diploma is presented by lecturers who are highly experienced engineers, having worked in the biomedical engineering industry. When doing any program today, a mix of both extensive experience and teaching prowess is essential. All our lecturers have been carefully selected and are seasoned professionals.

This practical program avoids weighty theory. This is rarely needed in the real world of industry where time is short and immediate results, based on hard-hitting and useful know-how, is a minimum requirement. The topics that will be covered are derived from the acclaimed IDC Technologies' programs attended by over 500,000 engineers and technicians throughout the world during the past 20 years. And, due to the global nature of biomedical engineering today, you will be exposed to international standards.

This program is not intended as a substitute for a 4 or 5 year engineering degree, nor is it aimed at an accomplished and experienced professional biomedical engineer who is working at the leading edge of technology in these varied fields. It is, however, intended to be the distillation of the key skills and know how in practical, state-of-the-art biomedical engineering. It should also be noted that learning is not only about attending programs, but also involves practical hands-on work with your peers, mentors, suppliers and clients.

WHO WOULD BENEFIT

- Electrical and Electronic Engineers
- Electrical and Electronic Technicians
- Biomedical Equipment/Engineering Technician
- Field Technicians
- Healthcare equipment service technicians
- Project Engineers and Managers
- Design Engineers
- Instrumentation Engineers
- Control Engineers
- Maintenance Engineers and Supervisors
- Consulting Engineers
- Production Managers
- Mechanical Engineers
- Medical Sales Engineers

In fact, anyone who wants to gain solid knowledge of the key elements of biomedical engineering in order to improve work skills and to create further job prospects. Even individuals who are working in the healthcare industry may find it useful to attend to gain key, up to date perspectives.

COURSE STRUCTURE

The program is composed of 18 modules. These cover the basics of electrical, electronic and software knowledge and skills to provide you with maximum practical coverage in the biomedical engineering field.

The 18 modules will be completed in the following order:

- Basic Electrical Engineering
- Technical and Specification Writing
- Fundamentals of Professional Engineering
- Engineering Drawings
- Printed Circuit Board Design
- Anatomy and Physiology for Engineering
- Power Electronics and Power Supplies
- Shielding, EMC/EMI, Noise Reduction and Grounding/Earthing
- Troubleshooting Electronic Components and Circuits
- Biomedical Instrumentation
- Biomedical Signal Processing
- C++ Programming
- Embedded Microcontrollers
- Biomedical Modelling and Simulation
- Biomedical Equipment and Engineering Practices
- Biomedical Image Processing
- Biomechanics and Assistive Technology
- Medical Informatics and Telemedicine

COURSE FEES

What are the fees for my country?

The Engineering Institute of Technology (EIT) provides distance education to students located almost anywhere in the world – it is one of the very few truly global training institutes. Course fees are paid in a currency that is determined by the student’s location. A full list of fees in a currency appropriate for every country would be complex to navigate and, with today’s exchange rate fluctuations, difficult to maintain. Instead we aim to give you a rapid response regarding fees that is customised to your individual circumstances.

We understand that cost is a major consideration before a student commences study. For a rapid reply to your enquiry regarding courses fees and payment options, please enquire via the below button and we will respond within 2 business days.

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

Every day we are hearing of ground breaking advances in the field of tissue engineering which offer tremendous potential for the future of regenerative medicine and health care. Staff at Swansea University are active in many aspects of tissue engineering.

Key Features of Tissue Engineering and Regenerative Medicine

We are actively researching many aspects of tissue engineering including the following areas:

- Characterisation and control of the stem cell niche

- Mechanical characterisation of stem cells and tissues

- Production of novel scaffolds for tissue engineering

- Electrospinning of scaffold materials

- Cartilage repair and replacement

- Bone repair and replacement

- The application of nanotechnology to regenerative medicine

- Wound healing engineering

- Reproductive Immunobiology

- Bioreactor design

As an MSc By Research Tissue Engineering and Regenerative Medicine student, you will join one of the teams at Swansea University working in tissue engineering and use state of the art research equipment within the Centre for NanoHealth, a collaborative initiative between the College of Engineering and Swansea University Medical School.

The MSc by Research in Tissue Engineering and Regenerative Medicine typically lasts one year full-time, two to three years part-time. This is an individual research project written up in a thesis of 30,000 words.

Aim of Tissue Engineering and Regenerative Medicine programme

The aim of this MSc by Research in Tissue Engineering and Regenerative Medicine is to provide you with a solid grounding within the field of tissue engineering and its application within regenerative medicine.

This will be achieved through a year of research in a relevant area of tissue engineering identified after discussion with Swansea academic staff. Working with two academic supervisors you will undertake a comprehensive literature survey which will enable the formulation of an experimental research programme.

As a student on the MSc by Research Tissue Engineering and Regenerative Medicine course, you will be given the relevant laboratory training to undertake the research program. The research will be written up as a thesis that is examined. You will also be encouraged to present your work in the form of scientific communications such as journals and conference poster presentation.

The MSc by Research in Tissue Engineering and Regenerative Medicine will equip you with a wealth of research experience and knowledge that will benefit your future career in academia or the health care industries.

Recent MSc by Research theses supervised in the area of Tissue Engineering at Swansea University include:

- Quality assurance of human stem cell/primary cell bank

- The development of electrospinning techniques for the production of novel tissue engineering scaffolds.

- The incorporation of pulsed electromagnetic fields into wound dressings.

- The application of pulsed electromagnetic fields for improved wound healing.

- The use of nanoparticles in the control of bacterial biofilms in chronic wounds.

- The control of bacterial adhesion at surfaces relevant to regenerative medicine.

- The production of micro-porous particles for bone repair

Facilities

The £22 million Centre for Nanohealth is a unique facility linking engineering and medicine, and will house a unique micro-nanofabrication clean room embedded within a biological research laboratory and with immediate access to clinical research facilities run by local NHS clinicians.

Links with industry

The academic staff of the Medical Engineering discipline have always had a good relationship with industrial organisations. The industrial input ranges from site visits to seminars delivered by clinical contacts.

The close proximity of Swansea University to two of the largest NHS Trusts in the UK outside of London also offers the opportunity for collaborative research.

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.

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.

Highlights of the Engineering results according to the General Engineering Unit of Assessment:

Research Environment at Swansea ranked 2nd in the UK

Research Impact ranked 10th in the UK

Research Power (3*/4* Equivalent staff) ranked 10th in the UK



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This MSc in Advanced Engineering Design is aimed at high calibre and ambitious engineering graduates who want to gain expertise in systematically developing complex, multidisciplinary engineering design. Read more

About the course

This MSc in Advanced Engineering Design is aimed at high calibre and ambitious engineering graduates who want to gain expertise in systematically developing complex, multidisciplinary engineering design.

You will learn how to design products requiring embedded intelligence and comprehensive engineering analysis and how to use six CAE software packages.

The programme - accredited by the Institution of Mechanical Engineering (IMechE) - has been developed to fulfil the industry’s need for an integrated course that offers:
teaching of advanced theory, human factors and creativity tools essential to successful product development
training in software, research and applications
practical experience of applying your knowledge and skills through an integrating, real life group project.

Aims

Integration of mechanical, electrical, electronic and control knowledge into a single product is challenging – and this course allows you to appreciate the complexity of modern product design and to develop your expertise.

The Brunel programme aims to create the new generation of engineering designers who can combine knowledge from different areas and produce world class design.

Engineering design is the application of engineering principles, the experience of making, and use of mathematical models and analysis. The design and production of complex engineering products often require the use of embedded intelligence and detailed engineering analysis involving mechanical, electronic and control functions. Advanced theoretical knowledge and a wide range of computer driven tools, methods and methodologies are essential for this process – and the course provides graduates with these essentials.

Course Content

Continued design of modern complex products demands advanced knowledge in mechanical, electronic, manufacturing and control engineering disciplines and human factors in design, and an ability to use advanced engineering software packages, integrating application experience and a capacity to carry on learning.

The Advanced Engineering Design MSc has been developed to produce design engineers who can meet these demands. It contains six taught modules where advanced multi-disciplinary theory is taught. As part of the course, six engineering software packages are also taught. In order to give an integrating application experience in an industrial setup, 'Design Experience', a group project module with an industry, has been included as part of the curriculum.

The dissertation is aimed at providing training in carrying out an in-depth engineering task on a self-learning basis. By the end of the course you will become a confident design engineer equipped with high quality and advanced knowledge and skills to work on design tasks in an advanced computer assisted environment.

Compulsory Modules

Sustainable Design and Manufacture
Manufacturing Systems Design and Economics
Computer Aided Engineering 1
Computer Aided Engineering 2
Design Experience
Dissertation Project

Optional Modules (choose two modules)

Advanced Manufacturing Measurement
Human Factors in Design
Robotics and Manufacturing Automation
Design of Mechatronic Systems

Special Features

Special facilities

MSc Engineering Design students work in a well-equipped design studio with various experiential learning facilities, with computers available for your exclusive use of Engineering Design students.Our investment in laboratory facilities and staff ensures that we can provide an excellent experience in a friendly and supportive environment.

Industry-focused programme

The high standard of our research feeds directly into curriculum design and our teaching, ensuring our graduates are equipped with the most up-to-date techniques, methods and knowledge bases. Our teaching has an excellent reputation and is orientated to the expressed needs of modern enterprises and the industry.
The course is underpinned by the current research still being carried out by the staff in the former academic unit Advanced Manufacturing and Enterprise Engineering which promotes manufacturing as a discipline.  Thus the academics teaching on the Advanced Engineering Design which were part of this unit have strong research portfolios in manufacturing. This research has been judged world leading.  In the 2014 Research Excellence Framework, academics teaching on the course were involved with Brunel’s General engineering submission, one of one of the largest in the UK. The area’s percentage of world leading research doubled, with a significant increase in our research judged as internationally excellent as well. The impact of over 75% of this research was judged to be world leading or internationally excellent. This placed the discipline in the top 20% in the UK terms of research power.

Global reputation

With around 150 postgraduate students from all around the world and substantial research income from the EU, research councils and industry, we are a major player in the field of advanced manufacturing and enterprise engineering.
 
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 MSc Advanced Engineering Design is accredited by both the Institution of Mechanical Engineering (IMechE). This will provide a route to Chartered Engineer status in the UK.

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IN THIS INTENSIVE, PART-TIME, 18-MONTH ONLINE PROGRAM YOU WILL GAIN. - Skills and know-how in the latest technologies in electrical engineering. Read more
IN THIS INTENSIVE, PART-TIME, 18-MONTH ONLINE PROGRAM YOU WILL GAIN:

- Skills and know-how in the latest technologies in electrical engineering
- Practical guidance from electrical engineering experts in the field
- Knowledge from the extensive experience of the lecturers, rather than from only the theoretical information gained from books and college
- Credibility as the local electrical engineering expert in your firm
- Networking contacts in the industry
- Improved career prospects and income
- An Advanced Diploma of Applied Electrical Engineering (Electrical Systems)

Next intake starts October 09, 2017. Registrations are now open.

Payment is not required until 2 to 4 weeks before the start of the program.

The EIT Advanced Diploma of Applied Electrical Engineering (Electrical Systems) is recognized worldwide and has been endorsed by the International Society of Automation (ISA). Please ask us about specific information on accreditation for your location.

OVERVIEW

Join the next generation of electrical engineers and technicians and embrace a well paid, intensive yet enjoyable career by embarking on this comprehensive course on electrical engineering. It is presented in a practical and useful manner - all theory covered is tied to a practical outcome. Leading electrical engineers who are highly experienced engineers from industry, having 'worked in the trenches' in the various electrical engineering areas present the course over the web in a distance learning format using our acclaimed live e-learning techniques.

The course starts with an overview of the basic principles of electrical engineering and then goes on to discuss the essential topics in depth. With a total of 16 modules, everything that is of practical value from electrical distribution concepts to the equipment used, safety at work to power quality are all looked at in detail. Each module contains practical content so that the students can practice what they learn including the basic elements of designing a system and troubleshooting.

Most academic courses deal with engineering theory in detail but fall short when it comes to giving practical hints on what a technician is expected to know for a job in the field. In this course, the practical aspects receive emphasis so that when you go out into the field you will have the feeling that ‘you have seen it all.

*JOB OUTCOMES, INTERNATIONAL RECOGNITION AND PROFESSIONAL MEMBERSHIP:

A range of global opportunities awaits graduates of the Advanced Diploma of Applied Electrical Engineering (Electrical Systems). Pending full accreditation you may become a full member of Engineers Australia and your qualification will be recognized by Engineers Australia and (through the Dublin Accord) by leading professional associations and societies in Australia, Canada, Ireland, Korea, New Zealand, South Africa, United Kingdom and the United States. The Dublin Accord is an agreement for the international recognition of Engineering Technician qualifications.

For example, current enrolled students can apply for free student membership of Engineers Australia. After graduation, you can apply for membership to become an Engineering Associate, while graduates interested in UK recognition can apply for membership of the Institution of Engineering and Technology (IET) as a Technician Member of the Institution of Engineering and Technology.

This professional recognition greatly improves the global mobility of graduates, and offers you the opportunity of a truly international career.

You will be qualified to find employment as an Engineering Associate in public and private industry including transportation, manufacturing, process, construction, resource, energy and utilities industries. Engineering Associates often work in support of professional engineers or engineering technologists in a team environment. If you prefer to work in the field you may choose to find employment as a site supervisor, senior technician, engineering assistant, or similar.

WHO SHOULD COMPLETE THIS PROGRAM?

- Electrical Engineers and Technicians
- Project Engineers
- Design Engineers
- Instrumentation and Design Engineers
- Electrical Technicians
- Field Technicians
- Electricians
- Plant Operators
- Maintenance Engineers and Supervisors
- Energy Management Consultants
- Automation and Process Engineers
- Design Engineers
- Project Managers
- Instrument Fitters and Instrumentation Engineers
- Consulting Engineers
- Production Managers
- Chemical and Mechanical Engineers
- Instrument and Process Control Technicians

In fact, anyone who wants to gain solid knowledge of the key elements of electrical engineering – to improve work skills and to create further job prospects. Even those of you who are highly experienced in electrical engineering may find it useful to attend some of the topics to gain key, up to date perspectives on electrical engineering.

PROGRAM STRUCTURE

The course is composed of 16 modules. These cover the following seven main threads to provide you with maximum practical coverage in the field of electrical engineering

- Electrical technology fundamentals
- Distribution equipment and protection
- Rotating machinery and transformers
- Power electronics
- Energy efficiency
- Earthing and safety regulations
- Operation and maintenance of electrical equipment

The 16 modules will be completed in the following order:

- Electrical Circuits
- Basic Electrical Engineering
- Fundamentals of Professional Engineering
- Electrical Drawings
- Electrical Power Distribution
- Transformers, Circuit Breakers and Switchgear
- Electrical Machines
- Power Cables and Accessories
- Earthing and Lightning / Surge Protection
- Power System Protection
- Electrical Safety and Wiring Regulations
- Testing, Troubleshooting and Maintenance of Electrical Equipment
- Energy Efficiency and Energy Use
- Power Quality
- Power Electronics and Variable Speed Drives
- DC and AC High Reliability Power Supplies

COURSE FEES

What are the fees for my country?

The Engineering Institute of Technology (EIT) provides distance education to students located all around the world – it is one of the very few truly global training institutes. Course fees are paid in a currency that is determined by the student’s location. We aim to give you a rapid response regarding course fees that are relevant to your individual circumstances.

We understand that cost is a major consideration before a student begins to study. For a rapid reply to your query regarding course fees and payment options, please contact a Course Advisor in your region via the below button and we will respond within two (2) business days.

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What's the Master of Biomedical Engineering about? . The Master of Science in Biomedical Engineering provides students with a state-of-the-art overview of all areas in biomedical engineering. Read more

What's the Master of Biomedical Engineering about? 

The Master of Science in Biomedical Engineering provides students with a state-of-the-art overview of all areas in biomedical engineering:

  • Biomechanics
  • Biomaterials
  • Medical sensors and signal processing
  • Medical imaging
  • Tissue engineering

The teaching curriculum builds upon the top-class research conducted by the staff, most of whom are members of the Leuven Medical Technology Centre. This network facilitates industrial fellowships for our students and enables students to complete design projects and Master’s theses in collaboration with industry leaders and internationally recognized research labs.

Biomedical engineers are educated to integrate engineering and basic medical knowledge. This competence is obtained through coursework, practical exercises, interactive sessions, a design project and a Master’s thesis project.

Structure

Three courses provide students with basic medical knowledge on anatomy and functions of the human body. The core of the programme consists of biomedical engineering courses that cover the entire range of contemporary biomedical engineering: biomechanics, biomaterials, medical imaging, biosensors, biosignal processing, medical device design and regulatory affairs.

The elective courses have been grouped in four clusters: biomechanics and tissue engineering, medical devices, information acquisition systems, and Information processing software. These clusters allow the students to deepen their knowledge in one particular area of biomedical engineering by selecting courses from one cluster, while at the same time allowing other students to obtain a broad overview on the field of biomedical engineering by selecting courses from multiple clusters.

Students can opt for an internship which can take place in a Belgian company or in a medical technology centre abroad. 

Through the general interest courses, the student has the opportunity to broaden his/her views beyond biomedical engineering. These include courses on management, on communication (e.g. engineering vocabulary in foreign languages), and on the socio-economic and ethical aspects of medical technology.

A design project and a Master’s thesis familiarize the student with the daily practice of a biomedical engineer.

International

The Faculty of Engineering Science at KU Leuven is involved in several Erasmus exchange programmes. For the Master of Science in Biomedical Engineering, this means that the student can complete one or two semesters abroad, at a number of selected universities.

An industrial fellowship is possible for three or six credits either between the Bachelor’s and the Master’s programme, or between the two phases of the Master’s programme. Students are also encouraged to consider the fellowship and short courses offered by BEST (Board of European Students of Technology) or through the ATHENS programme.

You can find more information on this topic on the website of the Faculty.

Strengths

The programme responds to a societal need, which translates into an industrial opportunity.

Evaluation of the programme demonstrates that the objectives and goals are being achieved. The mix of mandatory and elective courses allows the student to become a generalist in Biomedical Engineering, but also to become a specialist in one topic; industry representatives report that graduates master a high level of skills, are flexible and integrate well in the companies.

Company visits expose all BME students to industry. Further industrial experience is available to all students.

Our international staff (mostly PhD students) actively supports the courses taught in English, contributing to the international exposure of the programme.

The Master’s programme is situated in a context of strong research groups in the field of biomedical engineering. All professors incorporate research topics in their courses.

Most alumni have found a job within three months after graduation.

This is an initial Master's programme and can be followed on a full-time or part-time basis.

Career perspectives

Biomedical engineering is a rapidly growing sector, evidenced by an increase in the number of jobs and businesses. The Master of Science in Biomedical Engineering was created to respond to increased needs for healthcare in our society. These needs stem from an ageing population and the systemic challenge to provide more and better care with less manpower and in a cost-effective way. Industry, government, hospitals and social insurance companies require engineers with specialised training in the multidisciplinary domain of biomedical engineering.

As a biomedical engineer, you'll play a role in the design and production of state-of-the-art biomedical devices and/or medical information technology processes and procedures. You will be able to understand medical needs and translate them into engineering requirements. In addition, you will be able to design medical devices and procedures that can effectively solve problems through their integration in clinical practice. For that purpose, you'll complete the programme with knowledge of anatomy, physiology and human biotechnology and mastery of biomedical technology in areas such as biomechanics, biomaterials, tissue engineering, bio-instrumentation and medical information systems. The programme will help strengthen your creativity, prepare you for life-long learning, and train you how to formalise your knowledge for efficient re-use.

Careers await you in the medical device industry R&D engineering, or as a production or certification specialist. Perhaps you'll end up with a hospital career (technical department), or one in government. The broad technological background that is essential in biomedical engineering also makes you attractive to conventional industrial sectors. Or you can continue your education by pursuing a PhD in biomedical engineering; each year, several places are available thanks to the rapid innovation taking place in biomedical engineering and the increasing portfolio of approved research projects in universities worldwide.



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Your programme of study. Read more

Your programme of study

Have you ever wanted to invent something mechanical, prevent environmental damage to a building from floods, fire, explosions, landslides and other natural disasters, understand risks and reliability across buildings, renewables, and other areas? Do you want to improve quality of life across environmental remediation, farming, smart grid, green technology, food production, housing, transportation, safety, security, healthcare and water? Do you find it fascinating to try to make things work from what you have available? There will be plenty of major challenges to get involved with in the coming years crossing over into Nano technologies, advanced materials, electronic printing, grapheme technologies, wearable's, 3d printing, renewables and recycling and biotechnologies. Technology now means that you can design and engineer from anywhere in the world, including your home. Advanced Mechanical Engineering looks at computational mechanics, response to materials and reliability engineering. The Victorians set up some of the most advanced mechanical engineering of our times and in many ways they were the biggest mechanical engineering innovators ever.

This programme specialises in mechanical engineering so you are becoming proficient in designing anything that has background moving parts to allow it to work such as engines, motor driven devices and the effects of nature on mechanical objects and their ability to perform. You also look at how material composition can alter performance issues and provide new innovative methods to solve challenges in every day life and natural and other risks to machinery in all situations.  Your employment options are very varied, you may want to work within consumer goods to design and improve everyday objects like white goods, or you may like to be involved in very large scale hydro electric and power driving machinery in energy , manufacturing or large scale developments, or you may decide to get involved in innovation and enterprise yourself.

Courses listed for the programme

SEMESTER 1

Compulsory Courses

Computational Fluid Dynamics

Numerical Simulation of Waves

Advanced Composite Materials

Optional Courses

Fire and Explosion Engineering

Structural Dynamics

SEMESTER 2

Compulsory Courses

Finite Element Methods

Mathematical Optimisation

Engineering Risk and Reliability Analysis

Optional Courses

Project Management

Risers Systems Hydrodynamics

Renewable Energy 3 (Wind, Marine and Hydro

SEMESTER 3

Project

Find out more detail by visiting the programme web page;

https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/1037/advanced-mechanical-engineering/

Why study at Aberdeen?

  • Your skills and knowledge can have huge application potential within newly disruptive industries affecting life and work
  • You can improve employability in Aerospace, Marine, Defences, Transport Systems and Vehicles
  • Some of the knowledge you build directly relates to industries in Aberdeen such as the energy industry.
  • Mechanical Engineering cuts into high growth Industry 4.0 and IOT related areas across many areas disrupted by climate, population growth, and quality of life
  • We ensure close links with industries to attend industry events, visits and teaching by professionals from the industry
  • Graduates are very successful and many work in senior industry roles

Where you study

  • University of Aberdeen
  • 12 Months Full Time
  • September start

International Student Fees 2017/2018

Find out about fees:

https://www.abdn.ac.uk/study/international/tuition-fees-and-living-costs-287.php

*Please be advised that some programmes have different tuition fees from those listed above and that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page

https://www.abdn.ac.uk/study/postgraduate-taught/finance-funding-1599.php

https://www.abdn.ac.uk/funding/

Living in Aberdeen

Find out more about:

  • Your Accommodation
  • Campus Facilities
  • Aberdeen City
  • Student Support
  • Clubs and Societies

Find out more about living in Aberdeen: - abdn.ac.uk/study/student-life

Other engineering disciplines you may be interested in:

Global Subsea Engineering

https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/1070/global-subsea-engineering/

Subsea Engineering

https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/1082/subsea-engineering/

Oil and Gas Engineering

https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/1074/oil-and-gas-engineering/

Oil and Gas Structural Engineering

https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/217/oil-and-gas-structural-engineering/

Petroleum Engineering

https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/222/petroleum-engineering/

Renewable Energy Engineering

https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/1077/renewable-energy-engineering/

Reservoir Engineering

https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/283/reservoir-engineering/

Safety and Reliability Engineering

https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/1078/safety-and-reliability-engineering/



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At the nexus of creativity, technology and business, this postgraduate degree is designed for graduates who want to further develop their music engineering and production skills, to establish a career as a professional producer in the music industry or related fields. Read more
At the nexus of creativity, technology and business, this postgraduate degree is designed for graduates who want to further develop their music engineering and production skills, to establish a career as a professional producer in the music industry or related fields.

As the music industry is constantly evolving, students on this course are equipped to deal with an ever-changing commercial landscape, while developing their personal potential. Key areas of the industry are studied from a wide variety of angles, but without losing sight of the primary goal to develop a sustainable career within music production.

An important element of the course is the practical application of your knowledge to generate highly creative work. Allied areas are also examined, which allows graduates to apply their skills in many other media-related fields, including film and animation. Such a strategic approach to your higher-level study engenders responsibility, critical thinking, problem-solving, and the highly creative generation of musical and visual tangibles.

In addition, our graduates will be trained in the use of Apple Logic Pro and Avid Pro Tools.

If you choose to study on a creative postgraduate course at the University of South Wales, you will also benefit from being part of a vibrant international student community.

See the website http://courses.southwales.ac.uk/courses/131-msc-music-engineering-and-production

What you will study

The MSc Music Engineering and Production includes:
- Recording or Professional Music Production
- Music Post-Production
- Sequencing/Synthesis/Sampling
- History, Analysis, Repertoire and Theory
- Remixing Production
- Major Individual Research Project (or Learning Through Employment Research Project)

Common Modules:
The Faculty understands the importance of a strong grounding in research knowledge and skills, enterprise and innovation as part of a balanced postgraduate education.

We also recognise that each student has different requirements of their postgraduate experience.

You can choose to study one of the following three, 20 credit common modules. Each of these has a different focus, enabling you to select the module that will be most beneficial to you.

- Creative and Cultural Entrepreneurship
This module aims to develop your knowledge of the methods to identify, develop and manage enterprise and innovation in the creative sector. It will then help you apply this to your own entrepreneurial project.

- Research and Practice in the Creative and Cultural Industries
The focus of this module is on the development of research knowledge and skills, while also encouraging critical engagement with approaches to creative practice. You will also explore ideas, debates and issues in the creative and cultural industries.

- Research Paradigms
This module focuses on research paradigms and their theoretical underpinnings. It also looks at key conceptual tools drawn from a wide range of subject areas relevant to postgraduate research in the creative industries.

NOTE: Modules are subject to change.

Learning and teaching methods

The MSc Music Engineering and Production degree is taught through lectures, seminars and workshops, with emphasis on the practical application of your knowledge.

All assessments are coursework-based, allowing a detailed application of your knowledge and experience. Assessment is through continuous assignments, seminars and a dissertation based on real-life scenarios. The final major project is presented through written submission alongside an oral examination.

The Masters project may be in any area derived from, or related to, the course or the general discipline of music engineering and production, e.g, sound design in animation, music video, album recording and release, and sound synthesis. There are also opportunities to work on academic staff research projects, or with one of several PhD researchers in the Faculty’s Division of Music and Sound.

Work Experience and Employment Prospects

Engineering and production professionals work as music producers, sound engineers, writers and arrangers, sound designers and mixers/remixers in surround. Career opportunities will vary according to an individual’s capabilities and passion, but it is expected that graduates of USW’s MSc Music Engineering and Production should play a full role in shaping the future of music and sound in the UK and further afield.

Assessment methods

Learning Through Employment:
Learning Through Employment is a University of South Wales framework that offers students who are already in employment the opportunity to gain credits towards a postgraduate qualification.

The programme is structured so that the majority of learning takes place through active and reflective engagement with your work activities, underpinned by the appropriate academic knowledge and skills. As such, it has been is designed for practising professionals to provide them with the tools to succeed in the workplace.

This truly flexible approach means that final projects can be based on an agreed area of work, benefitting students and employers, and because the majority of the project is carried out in the workplace, it can potentially be undertaken anywhere in the world.

The MSc project may be in any area derived from, or related to, the course or general discipline of Music Engineering and Production. For example, sound design in animation, music video, album recording and release, and sound synthesis. There are also opportunities to work on academic staff research projects, or with one of several PhD researchers in the Division of Music and Sound.

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Why this course?. Engineering graduates are in high demand from recruiting companies worldwide. This course has been designed to meet the needs of a broad range of engineering industries. Read more

Why this course?

Engineering graduates are in high demand from recruiting companies worldwide.

This course has been designed to meet the needs of a broad range of engineering industries. As a Masters student, you’ll gain the specialist and generic skills necessary to lead future developments.

This one-year MSc in civil engineering is suitable for graduates with a background in any discipline of civil engineering. Applicants with a degree in environmental engineering, earth science, maths, physics and mechanical engineering may also be considered.

You can graduate with an MSc in Civil Engineering or choose to follow a specialist named stream:

- Civil Engineering with Structural Engineering & Project Management

- Civil Engineering with Geotechnical Engineering & Project Management

- Civil Engineering with Geoenvironmental Engineering & Project Management

- Civil Engineering with Water Engineering & Project Management

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

You’ll study

You'll take the compulsory module Civil Engineering Design Projects. This module gives you the opportunity to work on real projects. You can choose between a renewable energy project or an industrial project. You’ll develop comprehensive and innovative designs that involve structural engineering, geotechnical engineering and water engineering, management, environmental and financial planning.

You'll also take the compulsory module Research Protocols for Science & Engineering which supports the dissertation project. You also have a wide choice of optional modules.

Following successful completion of the taught component, you’ll undertake a dissertation. If you’re on one of the specialist streams you’ll undertake a research project on a topic related to that stream. The dissertation can be linked to the industrial placement and worked on together with the industrial partner.

Placements

As part of the class Independent Study in Collaboration with Industry, you can apply to work with industry projects.

Facilities

In the Department of Civil & Environmental Engineering we’ve invested £6million in state-of-the-art laboratories which cover core areas of activity including:

- geomechanics

- microbiology

- analytical chemistry

- structural design

- Field investigation

We’re equipped with:

- nanoseismic systems for monitoring the mechanical evolution of soil and rock masses

- Electrical Resistivity Tomography systems to detect clay fissuring and ground water flow in earth-structures

- dielectric permittivity-based sensors to monitor water flow in the sub-surface environment

- Geomechanics Laboratory

We’re equipped with state-of-the art technologies for testing multiphase (unsaturated) porous geomaterials. These include:

- suction-controlled double-wall triaxial cells

- pressure plates

- triaxial cells equipped with bender elements for dynamic testing

- image analysis unit to monitor soil specimen deformation

- instruments for measurement of pore-water tensile stress

- Mercury Intrusion Porosimeter and SEM for microstructure investigation

- Software & numerical modelling

You’ll have access to a wide range of software packages relevant to civil and geotechnical engineering applications, including:

- GEOSTUDIO suite (Slope, Seep, Sigma, Quake, Temp, CTran, Air and Vadose)

- ABAQUS finite element packages

- Ansys

- Autodesk Civil 3D

- Limit State

- Strand 7

- Talren 4

Accreditation

This degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired a partial CEng accredited undergraduate first degree.

Open Access

Home students can also choose to study through Open Access. This is initially a non-graduating route. You register for one module at a time and have the option to build up credits eventually leading to a Postgraduate Certificate, Postgraduate Diploma or MSc. You can take up to five years to achieve the qualification.

This option is popular with students in employment, who may wish to undertake modules for Continuing Professional Development purposes.

Home students who do not meet the normal MSc entry requirements for this programme are welcome to apply through the Open Access route instead.

Additional requirements

For candidates whose first language is not English, minimum standards of English proficiency are an IELTS score of 6.5. Applicants with slightly lower scores have the opportunity to attend the University's Pre-Sessional English classes to bring them up to the required level. Some exceptions to the above may apply to nationals of UKBA-approved Majority English Speaking countries.

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 the 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

The course has two semesters of taught classes. Some classes involve fieldtrips and/or lab work. For fieldtrips, you need to wear warm clothing, waterproof jacket/trousers and sturdy shoes/boots (e.g. hiking boots or non-slip wellington boots).

For lab work, you’ll need a lab coat. At the start of your course you’ll attend a two-day induction welcoming you to the department

Careers

High-calibre civil engineers are in demand throughout the world. As a graduate you'll have many different career options including:

- engineering consultancies, where the work normally involves planning and designing projects

- contractors, where you’ll be managing and overseeing works on-site

- working for utilities or local authorities

- working for large companies such as those within oil production, mining and power generation

How much will I earn?

As a contracting civil engineer the average graduate starting salary is around £23,500. With five years' experience this could rise to £28,523

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



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