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Full Time MSc Degrees in Engineering, Ireland

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1. Big Challenges being addressed by this programme – motivation. Human health and quality of life is one of the most critical challenges facing humanity. Read more

About the Course

1. Big Challenges being addressed by this programme – motivation

• Human health and quality of life is one of the most critical challenges facing humanity.
• The challenge is all the greater due to a rapidly increasing and rapidly aging global population that now exceeds 7 billion.
• Biomedical Engineering addresses these issues directly, with engineers innovating, analysing, designing and manufacturing new medical implants, devices and therapies for the treatment of disease, injuries and conditions of the human body, to restore health and improve quality of life.
• CNN lists Biomedical Engineering as No. 1 in the “Best Jobs in America” 2013.

2. Programme objectives & purpose

The objective of the programme is to generate graduates with a sound grounding in engineering fundamentals (analysis, design and problem solving), but who also have the multi-disciplinary breadth that includes knowledge of human biology and clinical needs and applications, to be able to make an immediate impact in the field on graduation, in either the academic research or medical technology industry domains. Ultimately the programme aims to generate the future leaders of the national and international medical technology industry, and of academic research and teaching in biomedical engineering.

3. What’s special about CoEI/NUIG in this area:

• NUI Galway pioneered the development of educational programmes in Biomedical Engineering in Ireland, introducing the country’s first bachelor’s degree in Biomedical Engineering in 1998, that was the first to achieve professional accreditation from Engineers Ireland in 2004, and at the graduate level with the Structured PhD programme in Biomedical Engineering and Regenerative Medicine (BMERM) in 2011.
• NUI Galway has been at the forefront of world-class research in biomedical engineering for over 20 years and has pioneered multi-disciplinary research in biomedical engineering and science, with the establishment of the National Centre for Biomedical Engineering Science (NCBES) in 1999, and up to the present day with the announcement of NUI Galway as the lead institution in a new Science Foundation Ireland funded Centre for Research in Medical Devices (CÚRAM).
• NUI Galway has a very close and deep relationship with the medical device industry locally, nationally and internationally, at many levels, from industry visits, guest lectures and student placements, up to major research collaborations.
• Many of our engineering graduates now occupy senior management and technical positions in the medical device industry nationally and internationally.

4. Programme Structure – ECTS weights and split over semester; core/elective, etc.:

• 90ECTS programme
• one full year in duration, beginning September and finishing August
• comprises:
- Foundational taught modules (20 ECTS)
- Advanced taught modules (40 ECTS)
- Research/Industry Project (30 ECTS).

5. Programme Content – module names

Sample Modules:

Advanced Finite Element Methods
Advanced Computational Biomechanics
Advanced Biomaterials
Mechanobiology
Bioinstrumentation Design
Medical and Surgical Practice
Stem Cells and Gene Therapy
Translational Medicine
Polymer Engineering
Advanced Engineering Statistics
Systems Reliability
Lean Systems
Research Methods for Engineers
Financial Management
Regulatory Affairs and Case Studies
Technology, Innovation and Entrepreneurship

6. Any special funding arrangements – e.g. Irish Aid

Comment (PMcH): CoEI scholarships a great idea.

7. Opportunity for number of Industrial & Research internships.

Students enrolled on this programme will have an opportunity to apply for a one-year post-graduation internship in either a related industry or research group in Ireland.

8. Testimonials.

“The Biomedical Engineering programme at NUI Galway has given me the fundamental engineering skills and multi-disciplinary background in biology and clinical application that I needed to be able to make an immediate impact in industry and to be able to design and develop new medical implants and devices. My graduate education through my PhD in bone biomechanics was also very important in this because I directly combined engineering and biological analysis techniques to better understand how stem cells generate new bone, showing me how biomedical engineers can play a critically important role in generating new knowledge on how the body works, and how new treatments can be developed for diseases and injuries, such as osteoporosis.” Evelyn Birmingham, BE Biomedical Engineering (2009), PhD Biomedical Engineering (2014), R&D Engineer, Medtronic Vascular, Galway.

For further details

visit http://nuigalway.ie/engineering-informatics/internationalpostgraduatestudents/

How to Apply:

Applications are made online via the Postgraduate Applications Centre (PAC): https://www.pac.ie
Please use the following PAC application code for your programme:

M.Sc. Biomedical Engineering - PAC code GYE24

Scholarships :

Please visit our website for more information on scholarships: http://www.nuigalway.ie/engineering-informatics/internationalpostgraduatestudents/feesandscholarships/

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Water security is a major concern facing humanity and engineers are the primary professionals tackling this issue. Read more

About the Course

Water security is a major concern facing humanity and engineers are the primary professionals tackling this issue. Annually, more than 3.4 million people die from water related diseases while 1 in 9 people world-wide do not have access to safe and clean drinking water and 1 in 3 people world-wide are affected by water scarcity. In addition, population growth, urbanisation, climate change and increasing energy demands, are placing unprecedented pressures on our finite water resources. This 1-year MSc programme aims to equip students with the skills needed to design solutions to deliver safe/clean water. The programme will also give opportunities to students to study the economics and management of large projects.

Programme Objectives

The MSc in Water resources Engineering will provide students with the technical competences to provide solutions to water security issues. Core modules will address technical aspects of water provision, water resource management and water / wastewater treatment. A primary objective of the programme is to ensure that students have a thorough understanding of modern hydrological modelling tools. The programme has a strong emphasis on the design of hydrological systems, with students working in groups to solve real-world problems. Graduates of this programme will be in a position to make significant contributions to solving water resource problems in both industry and academic roles worldwide.

Programme Structure and Content

This is a 90ECTS programme, one full year in duration, starting in September and finishing August. The programme comprises an individual research project and thesis (30 ECTS), an integrated group design project (15 ECTS) and a number of taught (core and elective) modules (55 ECTS).

The core taught modules include: Hydrology & Water Resources Engineering, Hydrological Modelling, Design of Sustainable Environmental Systems, Water Quality, Water Resources in Arid Regions, and Applied Field Hydrogeology. Sample elective modules include: Computational Methods in Engineering, Global Change, Offshore & Coastal Engineering, Environmental Economics, Project Management, and Estimates and Costing of Engineering Projects.

The Integrated Group Design Project involves the design of components of a water supply and/or treatment system and will be typical of real-world water resources engineering project. Each student will also complete an individual minor research thesis in the area of water resources engineering. This thesis accounts for one third of the overall programme mark.

What’s Special About CoEI/NUIG in this Area

• Water engineering has been taught at graduate level at NUI Galway for over 40 years. During this period students from over 50 countries have graduated from NUI Galway.
• The MSc in Water Resources Engineering is a re-launch of NUI Galway's International Postgraduate Hydrology Programme established by the late Prof Eamonn Nash. Many of the staff who lectured on the Hydrology Programme contribute to the current programme; so the recognised tradition of world-class teaching in water engineering at NUI Galway continues.
• Currently NUIG staff are involved in large-scale funded research projects in water resources, facilitated by the world-class research facilities at NUI Galway.

Testimonials

"It was a privilege and a pleasure to participate in the Galway MSc programme with world renowned hydrologists, excellent technicians and support staff, and Irish and international students. The comprehensive programme provided an excellent basis for my subsequent career in hydrology."
Charles Pearson, MSc Hydrology, NUIG, 1990 Graduating Class
Regional Manager, National Institute of Water and Atmospheric Research, New Zealand

"I am fortunate enough to have completed a world-class course in Hydrology at National University of Ireland, Galway which was taught by world-leading academics and researchers. Since my course completion in 1990, I have been able to play a key role in hydrologic application and research in Bangladesh and Australia based on the knowledge I gained from my studies in Galway."
Professor Ataur Rahman, MSc Hydrology, NUIG, 1990 Graduating Class
Water and Environmental Engineering, School of Computing, Engineering and Mathematics, University of Western Sydney

"NUI Galway gave me priceless experiences; it was my first travel outside the Philippines. Being a graduate of NUI Galway opened doors of opportunities for me. My being who I am now started with my NUI Galway experience and I will always be grateful to the institution, to my friends and to my former professors."
Dolores San Diego-Cleofas, MSc Hydrology, NUIG, 1995 Graduating Class,
Assistant Professor at University of Santo Tomas, Manila, Phillipines

How to Apply

Applications are made online via the Postgraduate Applications Centre (PAC): https://www.pac.ie
Please use the following PAC application code for your programme:
M.Sc. Water Resources Engineering - PAC code GYE23

Scholarship Opportunities

There are a number of funding opportunities for International Students planning to attend NUI Galway. Information on these can be found at: http://www.nuigalway.ie/international-students/feesfinance/internationalscholarships/

The College of Engineering and Informatics will also award the Nash Scholarship in Water Resource Engineering. This is in memory of our deceased colleague, Eamonn Nash who was our Professor of Engineering Hydrology for many years, and was a well-known in the international engineering community. The “Nash cascade” and “Nash-Sutcliffe coefficient” were named after him, and these still feature in scholarly publications. Over four hundred senior hydrologists throughout the world received their post-graduate hydrological education at this University. Please visit our website for more information on scholarships: http://www.nuigalway.ie/engineering-informatics/internationalpostgraduatestudents/feesandscholarships/

The MSc in Water Resources Engineering is accredited by Irish Aid as an eligible course for their International Fellowship Training Programme (IFTP). Through the IFTP, Irish Aid provides funding for students from eligible developing countries to undertake postgraduate studies on selected courses in colleges and universities in Ireland. More information on Irish Aid Fellowships can be found on the website of the Irish Council for International Students at:
http://www.icosirl.ie/eng/irish_aid_fellowships/fellowship_training_programme

Further information is available on our website:
http://www.nuigalway.ie/engineering-informatics/internationalpostgraduatestudents/mscwaterresourcesengineering/

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The MSc is a 12-month, 90 ECTS Level 9 Masters in Mechanical Engineering. This 90 ECTS programme includes a substantial 30 ECTS research project, complemented by 60 ECTS of modules (including 10 ECTS of optional modules). Read more
The MSc is a 12-month, 90 ECTS Level 9 Masters in Mechanical Engineering. This 90 ECTS programme includes a substantial 30 ECTS research project, complemented by 60 ECTS of modules (including 10 ECTS of optional modules). The research project is directly supervised by a member of academic staff for the full 12-month period on a selected industry or research topic and is assessed on the basis of a written thesis. The modules focus on advanced engineering research methods and technology, where students will combine design, computational methods and modelling, as well as experimental testing and prototyping activities, utilizing state-of-the-art research facilities in the New Engineering Building in NUI Galway. Over two semesters, students will take a total of 10 mandatory advanced modules in mechanics, materials, and applied mathematics for engineering and research methods. In addition, students will choose 2 further modules from a choice of 9 specialist modules including turbo machines, offshore engineering and advanced energy systems.

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The Masters in Innovative Technology Engineering degree aims to produce graduates with strong skills in critical thinking and with a creative attitude necessary to instigate future developments in the field of Engineering Technology. Read more
The Masters in Innovative Technology Engineering degree aims to produce graduates with strong skills in critical thinking and with a creative attitude necessary to instigate future developments in the field of Engineering Technology. The student will attain an academic mastery in their specialisation field while developing a broad knowledge of other related fields and how these converge.

The student will embark on a programme that will assess and analyse a number of emerging technologies and the developing potential for the convergence of these technologies.

The course aims to prepare students for a rewarding career in industry or academic research. In addition, the course will facilitate for them the development of a set of personal and professional attributes that will allow them greater flexibility in the development of their own career options. The programme is designed to develop the student’s knowledge and skills in strategies for innovation management, product design and development and optimum routes to market. The student will also carry out post-graduate level research of industrial relevance in selected topic areas.

The Masters degree requires successful completion of six mandatory modules and four out of eight elective modules. The student must also complete an applied programme consisting of a Research Dissertation and an Industrial Research seminar series.

Career opportunities for graduates of this programme can be found in the
- Medical Devices,
- Pharmaceutical,
- Green Technology,
- Information and Communications Technology,
- New Business Development and Academic Research sectors.

Typical job functions include
- Design Engineer,
- Research Engineer,
- Project Engineer,
- Project Manager,
- Technical Manager,
- New Technologies Manager,
- New Product Development Manager,
- New Business Venture consultant and many others

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This post-graduate programme has been designed to facilitate professionals practicing in the areas of building design, management and technology. Read more
This post-graduate programme has been designed to facilitate professionals practicing in the areas of building design, management and technology. Its’ purpose is to provide expertise in terms of; energy use, environmental performance and sustainability in the design and operation of buildings and their associated facilities and services systems.

The programme will focus on Sustainable and Low energy building design; Building energy performance and analysis; Dynamic thermal simulation; Low and zero carbon heat and power generation technologies; Energy policy and legislation; Energy auditing; Facilities management and Building pathology and investigation.

The knowledge, skills and competencies that participants will gain are relevant to their career development. This programme is developed to meet the Level 9 criteria as set out by the National Qualifications Authority of Ireland (NQAI). The treatment of all programme subjects will encourage the development of powers of analysis, of synthesis and of communication. This will be achieved by building upon both the undergraduate studies and postgraduate experience of participants to develop a broader understanding of low energy building design and management. In addition the selection of a research topic for a dissertation will allow the student to concentrate on one or more of these directions.

The Masters degree requires successful completion of twelve mandatory modules. The student must also complete an applied programme consisting of a Research Dissertation and an Industrial Research seminar series

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The MSc in Biotechnology is a one-year course designed to provide you with the theoretical and practical skills for employment in the industries of biomedical research, biopharmaceuticals, agrochemicals and biotechnology. Read more
The MSc in Biotechnology is a one-year course designed to provide you with the theoretical and practical skills for employment in the industries of biomedical research, biopharmaceuticals, agrochemicals and biotechnology. The course curriculum consists of six months of lectures, laboratory practical sessions, career service workshops, industry-based seminars and a six-month research project. The curriculum has been developed with input from staff in local biotechnology and biopharmaceutical industries, to provide you with the necessary skills required by employers. Students have the choice to complete the six-month research project in a national or international industry or university environment.

Visit the website: http://www.ucc.ie/en/ckr01/

Course Details

This is the most established MSc in Biotechnology course in Ireland and is the most popular MSc course in UCC. The international success of this course is attributed to the industry-led curriculum offered to students and the opportunity to complete a six-month placement in industry or an academic research lab. The global recognition of the course is also evident from our international alumni and receipt of several industry-sponsored scholarships available to students entering and on completion of the course.

The course will:

- introduce you to the theory and practice of bioanalytical chemistry?
- introduce you to molecular biotechnology, eukaryotic-, prokaryotic- and plant-biotechnologies, recombinant DNA technologies and their - application in the biotechnology and biopharmaceutical industries
- introduce you to the principles of process and biochemical engineering?
- introduce you to the role of process validation and quality assurance in the pharmaceutical industry, and give you an awareness of the - - latest trends in good manufacturing, laboratory and validation practices
- introduce you to the principles of food and industrial microbiology
- provide you with the opportunity to conduct and complete a body of independent research in a biotechnology-related area and present your research findings in a minor dissertation.

Format

The curriculum consists of approximately 250 contact hours over two academic terms (October to December and January to March), consisting of eight course modules, set practical sessions, career service workshops and an industry lecture series.

During the third academic term (April to September), students complete a six-month research project on a topic related to biotechnology, biopharmaceutical or biomedical research. Industry-based projects in these areas are managed by a dedicated placement officer who facilitates career workshops during which you prepare for and are interviewed by staff from companies interested in hosting students. For students interested in a career in biomedical research or PhD, projects are offered in a broad range of research areas utilising modern research techniques. All research projects are undertaken in consultation with an academic supervisor and examiner.

The MSc in Biotechnology degree course consists of eight course modules, set practical sessions, career service workshops, an industry lecture series and a six-month research project.

Students study the following eight modules and complete a research project:

- Advanced Molecular Microbial Biotechnology
- Biopharmaceuticals: formulation design, secondary processing and regulatory compliance
- Bioprocess Engineering
- Cell and Molecular Biology
- Functional Foods for Health
- Genetic Engineering
- Modern Methods in Analytical Chemistry
- Plant Genetic Engineering

Research Project and Industry Placement

You will be required to complete a six-month research project based on your individual research and development in a selected field of modern science. You carry out your research in UCC’s laboratories or at an approved academic or industrial partner.

When you complete your research dissertation in an industrial setting, it provides the company with an opportunity to assess your skills and abilities and to screen potential future full-time employees.

Students who secure employment upon graduation fit into the organisation and contribute productively much sooner that other graduates. For students with an interest in biomedical research and future careers as PhD researchers, research projects are offered across a broad range of topics including but not limited to; cancer biology, neuroscience, immunology, microbiology and plant biotechnology.

Further details on the content and modules are available on the Postgraduate College Calendar - http://www.ucc.ie/calendar/postgraduate/Masters/science/page05.html#4%20

Assessment

The MSc in Biotechnology is awarded after passing written examinations across taught course units, the continuous assessment of practical work and completion of a six-month research project, which has to be written up in the form of a dissertation and approved by an external examiner. All students must complete written examinations (typically held over a two week period in March) and submit a research project. Full details and regulations governing examinations for each course will be contained in the Marks and Standards 2013 Book and for each module in the Book of Modules, 2015/2016 - http://www.ucc.ie/modules/

Careers

The course is suitable for students wishing to extend their specific undergraduate degree knowledge in biotechnology, and for those wishing to bridge their undergraduate degree and gain more specialised knowledge and training in biotechnology. The course allows you to follow a number of career pathways. Each year, over 70 per cent of our students gain employment while approximately 20 per cent of graduates progress to international PhD opportunities.

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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This MSc programme consists of four elements; lecture courses, continuous assessment, practical work, and a minor research thesis. Read more
This MSc programme consists of four elements; lecture courses, continuous assessment, practical work, and a minor research thesis.

Programme description
The programme is divided into seven subject areas that include: occupational health, occupational hygiene, ergonomics, safety and risk management, research methods, legal studies, and management studies. Students will gain experience in the use of state-of-the-art equipment and software packages. They will also observe occupational health & safety in the workplace at first-hand through extensive site visits. Students will be exposed to relevant domain experts through seminars and team-based projects.

Programme aims and objectives
The programme will give participants formal instruction in the broad multidisciplinary areas of occupational health & safety and enable them to take on managerial responsibilities for these matters within an industry or to work with a regulatory agency or consultancy firm. It will also provide a foundation for further research in the areas of occupational health, ergonomics, occupational hygiene, and safety engineering. The programme has been recognised by the Irish Health and Safety Authority and satisfies the academic requirements for membership of the U.K. Institution of Occupational Safety and Health.

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Regenerative Medicine aims to generate therapeutics for repair and regeneration of damaged and diseased organs. These therapeutics are based on stem cells, gene therapy and engineered tissues. Read more
Regenerative Medicine aims to generate therapeutics for repair and regeneration of damaged and diseased organs. These therapeutics are based on stem cells, gene therapy and engineered tissues.
The M.Sc. in Regenerative Medicine at National University of Ireland in Galway, aims to provide students with the skills necessary for a career in this emerging discipline or within other areas of biomedical research. Taught modules will address the science behind regenerative medicine, its application to human disease and its importance to modern society. Students will then undertake a laboratory-based individual research project for four-5 months.
For more information see http://www.nuigalway.ie/courses/taught-postgraduate-courses/regenerative-medicine.html and http://www.remedi.ie/education/taught-msc-regenerative-medicine-0

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Please note due to the great demand for our programmes early applications are assessed when received and dealt with promptly. Therefore it is advisable to make early applications for an early response. Read more
Please note due to the great demand for our programmes early applications are assessed when received and dealt with promptly. Therefore it is advisable to make early applications for an early response. If you do not yet have your final degree results this will not hinder your application as we are happy to issue conditional offer letters in such circumstances.

The programme has been planned in response to a need in Industry for a master's degree programme that integrates energy, environmental issues and management. The programme will enhance the present and future effectiveness of managers, engineers and scientists by providing an opportunity to study the theory and practice of current developments, laws, standards, technologies, management, economics and finance, associated with European energy and environmental issues. Graduates from the programme will be effective managers of environmental technology with an in-depth awarenesss of resource management under financial and environmental constraints.

The programme is designed primarily for engineers, but will also be of interest to scientists , managers and multi-discipline professionals such as environment health officers, architects and planning officers.

Assessment

There is a formal examination and a list of assignments to be completed for each course module. The project will be assessed on the basis of the work undertaken, an oral presentation and a written report on this work.

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