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Engineering×

Full Time MSc Degrees in Engineering, Dublin, Ireland

We have 24 Full Time MSc Degrees in Engineering, Dublin, Ireland

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Trinity College Dublin School of Engineering
Distance from Dublin: 0 miles
This is a one year full-time or two year part-time postgraduate course designed to provide graduate engineers with specialist understanding in one of. Read more
This is a one year full-time or two year part-time postgraduate course designed to provide graduate engineers with specialist understanding in one of: Environmental Engineering; Structural Engineering; or Transport Engineering. In addition, the course offers students the opportunity to obtain knowledge in complimentary subject areas within Civil Engineering.

Course Organisation:

The MSc course can be undertaken as either a one year full-time or a two-year part-time postgraduate course.

The degree programme is divided into three parts: two semesters of taught courses (September - April inclusive) with an average of 12 lectures per week. A major dissertation is undertaken during the second half of the course (April - September inclusive).

It is possible to work full-time and do the course as a part-time option, providing you have the agreement of your employer.

Course Content:

Candidates must take eleven modules, namely the three mandatory modules (M1, M2 and M3) together with at least four of the modules in their chosen specialisation and four other modules, which in total amounts to 90 ECTS.

In the first semester, candidates pursuing the course full time must take modules M1 and M2 along with four other modules selected from options (including at least two from their selected specialisation), listed below. In the second semester, candidates pursuing the course full time must take module M3 along with four other modules selected from options (including at least 2 from their selected specialisation), also listed below:

Mandatory

M1. Civil Engineering Management (10 ECTS)

M2. Research Methodology (10 ECTS)

M3. (Environmental / Structural / Transport) Engineering Dissertation (30 ECTS)

Environmental Engineering

E1. Engineering Hydrology (5 ECTS)

E2. Environmental Monitoring and Assessment (5 ECTS)

E3. Environmental Processes and Technology (5 ECTS)

E4. Waste and Environmental Management (5 ECTS)

E5. Water Quality and Hydrological Modelling (5 ECTS)

E6. Water Resource Planning ( ECTS)

Structural and Geotechnical Engineering

S1. Geotechnical Engineering (5 ECTS)

S2. Advanced Structural Analysis (5 ECTS)

S3. Structural Dynamics and Earthquake Engineering (5 ECTS)

S4. Bridge Engineering (5 ECTS)

S5. Advanced Concrete Technology (5 ECTS)

S6. Soil-Structure Interaction (5 ECTS)

S7. A Unified Theory of Structures (5 ECTS)

S8. Concrete Durability and Sustainability (5 ECTS)

S9. Advanced Theory of Structures (5 ECTS)

Transport Engineering

T1. Transportation Engineering ( ECTS)

T2. Transport Modelling (5 ECTS)

T3. Highway Engineering (5 ECTS)

T4. Applied Transportation Analysis (5 ECTS)

Common

C1. Renewable Energy 1 (5 ECTS)

C2. Renewable Energy 2 ( ECTS)

C3. Modelling of Civil Engineering Systems (5 ECTS)

C4. Facade Engineering (5 ECTS)

C6. Construction Innovation and Research (5 ECTS)


Some of the module options in either semester may be withdrawn from time to time and some new modules may be included, subject to demand. In addition to passing the prescribed examinations, each student must submit a dissertation on an approved topic relating to their chosen specialisation.

Part Time Option:

For candidates taking the course part-time over two years, during the first year, candidates take seven modules, namely: the mandatory modules M1 and M2 along with five of the module options (including at least two from their chosen specialisation) which amounts to 45 ECTS. During the second year, candidates must complete the compulsory M3 module together with three other module options (including at least two from their chosen specialisation) which amounts to 45 ECTS. During the second year, candidates must complete the compulsory M3 module together with three other module options (including at least two from their chosen specialisation) which amounts to another 45 ECTS. By the end of the course, part-time candidates must have completed at least four of their specialisation module options and four of the other options, amounting to a total of 90 ECTS credits. The part time option runs in parallel with the full time course. Full and part time students attend the same lectures which are typically scheduled Monday-Friday, 9-5pm. During the teaching periods, students taking the part time option are typically required to attend 9-12 hours per week during year 1 and 3-6 hours during year 2.

Assessment:

Examination of course modules and completion of a Major Dissertation.

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Trinity College Dublin School of Engineering
Distance from Dublin: 0 miles
The MSc in Bioengineering provides education and training to the next generation of biomedical engineers. Bioengineering is defined as the application of the principles of engineering to advancements in healthcare and medicine. Read more
The MSc in Bioengineering provides education and training to the next generation of biomedical engineers. Bioengineering is defined as the application of the principles of engineering to advancements in healthcare and medicine. Some of the most exciting work in biomedical engineering today takes place at the intersection of disciplines where the biological, physical and digital worlds intersect and have an impact on the human condition.

Students of the MSc in Bioengineering in Trinity College Dublin take lectures from experts in a variety of biomedical engineering subjects and carry out research in world class, state of the art research laboratories and facilities.

Students of the MSc in Bioengineering have the opportunity to specialise in one of three key research themes - neural engineering, tissue engineering and medical device design.

The MSc in Bioengineering with specialisation in Neural Engineering aims to provide students with the education needed to undertake neural engineering in research and clinical environments. Students receive a focused education on the key subjects of neural engineering such as Neural Signal Analysis, Implantable Neural Systems and Neuroimaging Technologies. Neural engineering has generated considerable scientific and clinical opportunities, not only for the development of interfaces between the brain and computers but also for its mostly untapped potential to help understand neurological disorders such as Parkinson's Disease or psychiatric disorders such as schizophrenia.

The MSc in Bioengineering with specialisation in Medical Device Design is designed to bring together clinicians, researchers and the medical device industry to produce new solutions for clinical needs. The field of medical device research is a fast moving area which can offer students a rewarding career in the global medical device market. Students will gain a specific education of the key topics in medical device design process and a knowledge of medical device regulation.

The MSc in Bioengineering with specialisation in Tissue Engineering provides students with an understanding of stem cells, animal/human cell culture processes, and strategies to regenerate or repair damaged tissues. This exiting multidisciplinary field of research holds significant potential in the treatment of many diseases and disorders.

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Trinity College Dublin School of Medicine
Distance from Dublin: 0 miles
Neuroscience is a discipline concerned with the scientific study of the nervous system in health and disease. Research in the neurosciences is of considerable clinical impact considering the debilitating and costly effects of neurological and psychiatric disease. Read more
Neuroscience is a discipline concerned with the scientific study of the nervous system in health and disease. Research in the neurosciences is of considerable clinical impact considering the debilitating and costly effects of neurological and psychiatric disease. In this regard, a major goal of modern neuroscience research is to elucidate the underlying causes (genetic or environmental) of major brain diseases, and to produce more effective treatments for major psychiatric disorders such as schizophrenia and depression, and neurological disorders such as multiple sclerosis, Parkinson's disease, Alzheimer's disease, motor neurone disease and epilepsy. Improved treatment strategies for brain disorders relies entirely on increased understanding gained from research which integrates molecular, cellular and clinical aspects of disease. In this regard it is clear that interdisciplinary approaches are necessary to understand the complex processes which underlie brain function in health and disease. This interdisciplinary philosophy is adopted in the delivery of our M.Sc. programme in Neuroscience, which is underpinned by the diverse research expertise available within Trinity College Institute of Neuroscience (TCIN).

Course Content:

This one-year M.Sc. course aims to provide a multidisciplinary training in the neurosciences, in topics ranging from molecular to behavioural. The course is ideal for students wishing to extend their specialised knowledge, and for those wishing to convert from their original degree discipline. The programme will equip participants with the skills necessary to progress into a career in biomedical, pharmaceutical or neuropsychological research. Instruction for the course consists of approximately 200 contact hours over two academic Terms to include lectures, laboratory practical sessions, journal club workshops and student-based seminars. Modules are assessed by a mixture of in course assessment and written examinations.

Specialist modules covered include:

Form and Function of the Nervous System, Biochemical Basis of Neuropharmacology, Neuropharmacology, Drug Development, Advanced Neuroimmunology, Experimental Neuroscience, Scientific Literature Skills, Neural Engineering, Neuroimaging Technology, Current Topics in Neuroscience, Cellular Neuroscience, and Research Skills.

The third Term consists of a research project on novel aspects of Neuroscience. Trinity College Institute of Neuroscience is a dynamic research environment with research spanning molecular/cellular neuroscience to clinical/translational neuroscience. Projects across these research areas may be undertaken in consultation with an expert supervisor. For students interested in a project in cellular/molecular neuroscience a range of cellular techniques such as tissue culture, immunocytochemistry, western immunobloting and immunoprecipitation, confocal microscopy, Immunoassays, flow cytometry, Real-time PCR, and high performance liquid chromatography are available. In addition, some projects will involve assessing behavioural, electrophysiological and neurochemical endpoints using in vivo models of neurological and psychiatric disease. For those with an interest in experimentation on human subjects, projects will be offered utilizing techniques such as functional magnetic resonance imaging and neurocognitive testing. A selection of national and international projects is also available, which involve collaboration with other academic institutes and pharmaceutical companies, in Ireland, UK and across Europe.

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University College Dublin College of Science
Distance from Dublin: 0 miles
The MSc in Petroleum Geoscience at UCD offers bright and motivated geoscience graduates a vocational training in the broad range of technical fields associated with hydrocarbon exploration and production, as a prelude to a career in the petroleum industry or to further studies at PhD level. Read more

The MSc in Petroleum Geoscience at UCD offers bright and motivated geoscience graduates a vocational training in the broad range of technical fields associated with hydrocarbon exploration and production, as a prelude to a career in the petroleum industry or to further studies at PhD level.

 

The main aims of the MSc Petroleum Geoscience are to:

  • Deliver a comprehensive technical grounding in all aspects of geoscience bearing on the search for, and production of, hydrocarbons, both conventional and unconventional
  • Nurture and develop critical reasoning skills using ‘problem-based’ learning and a wide range of practical exercises using subsurface, outcrop, behind-outcrop and geophysical datasets
  • Provide quality vocational training in subsurface and related data acquisition, quality-control, interpretation, data integration and uncertainty
  • Demonstrate and give first-hand experience of typical industry workflows including the use of a suite of software packages (basin modelling, seismic interpretation, fault properties and reservoir modelling)
  • Develop essential transferrable skills (e.g. effective report writing, project management, team working) and the ability to communicate and work with cognate disciplines (e.g. drillers, petroleum engineers)

Career Opportunities

The UCD School of Earth Sciences run a one-year Petroleum Geoscience MSc. This taught Masters Course will provide an ideal opportunity to get ‘hands-on’ experience with subsurface and related data, to acquire the necessary technical knowledge and transferrable skills, and to interact and work closely with fellow students and staff, all within a highly supportive environment. The course will reflect the multi-disciplinary nature of petroleum geoscience, with coursework extending from the geological and geophysical through to reservoir engineering, along with very significant components of fieldwork and practical experience of industry-style work. It is anticipated that the course will act as focal point for industry recruitment, with co-opted industry instructors contributing to some modules, presenting case studies and attending and participating in some of the field courses.

How to Apply?

There is a rolling deadline for this opportunity as ourses will remain open until such time as all places have been filled, therefore early application is advised. You can apply here



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Dublin Institute of Technology College of Business
Distance from Dublin: 0 miles
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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