Zero Carbon Technology

Course Overview
The M.Sc. in Zero Carbon Technologies addresses how technology to achieve the transformation to low-carbon energy and transport. The Zero Carbon Technology strand will cover power, transport and resources with related business and planning options. Within the M.Sc., there is a wide range of module options and an excellent opportunity to engage in topical research with leading research groups within the School of Engineering. An important part of the MSc programme is a research dissertation, which directly builds on some of the content of the modules. Themed areas include advanced manufacturing, materials, fluid mechanics and automation design.

This M.Sc. course can be taken as either a full-time one year or a part-time two- or three-year postgraduate course. Alternatively, candidates may choose to study for a Postgraduate Diploma (60 ECTS) or a Postgraduate Certificate (30 ECTS) by selecting from various taught module options. The Postgraduate Diploma and Postgraduate Certificate awards do not include a research project. Part-time students may follow the staged award path over 3 years of study. You can find out more about the Postgraduate Diploma and Postgraduate Certificate at https://www.tcd.ie/mecheng/postgraduate/mscbymodule/

Is This Course For Me?
The course "Mechanical Engineering - Zero Carbon Technology" offered by Trinity College Dublin is designed for postgraduate students who hold a bachelor's degree in mechanical engineering or a related field and who are interested in pursuing a career in the development of zero-carbon technologies and sustainable energy systems.

The programme is suitable for those who want to expand their knowledge and skills in the design, development, and implementation of zero-carbon technologies, including renewable energy systems, energy storage systems, and energy efficiency measures. It is also suitable for those interested in understanding the environmental impacts of energy production and consumption and the policy frameworks surrounding the transition to a zero-carbon future.

This programme is also ideal for professionals who are already working in the field of mechanical engineering, renewable energy, or related areas and who are seeking to upskill or change their career path towards the development of zero-carbon technologies and sustainable energy systems.

Course Structure
Students take 60 ETCS of taught modules while the research project and dissertation contribute 30 ECTS. This M.Sc. course can be taken as either a full-time one year or a part-time two or three year postgraduate course. Alternatively, candidates may choose to study for a Postgraduate Diploma (60 ECTS) or a Postgraduate Certificate (30 ECTS) by selecting from various taught module options. The Postgraduate Diploma and Postgraduate Certificate awards do not include a research project. Part-time students may follow the staged award path over 3 years of study.

The M.Sc. in Mechanical Engineering consists of taught modules and a research project totaling 90 ECTS. Students will study a number of mandatory modules relating to mechanical engineering.

Zero-Carbon Technology
Research Project [30 credits]
Research Methods [10 credits]
Low Carbon Transport Technology [10 credits]
Low Carbon Power Technology [10 credits]
Geo-resources and Carbon Impact [10 credits]
Wind Energy [5 credits]
Solar Energy Conversion and Applications [5 credits]
Energy Policy and Building Energy Demand [5 credits]

The remaining 5 credits may be chosen from the optional modules listed under the MSc in Mechanical Engineering.

Module Options
Advanced Thermal Fluid Sciences [10 credits]
Engineering Vibrations and Noise [5 credits]
Control Engineering II [5 credits]
Instrumentation and Experimental Techniques [5 credits]
Introduction to Computational Fluid Mechanics [5 credits]
Micro and Precision Manufacturing [5 credits]
Supply Chain Management [5 credits]
Safety Management Systems and Risk Assessment [5 credits]
Wind Energy [5 credits]
Energy Policy and Building Energy Demand [5 credits]
Wave and Hydro Energy [5 credits]
Transportation Policy [5 credits]
Advanced Spatial Analysis using GIS [5 credits]
Finite Element Analysis [5 credits]
Medical Device Design Innovation Project [10 credits]
Tissue Engineering [5 credits]
Biomechanics [5 credits]
Biomaterials [5 credits]
Turbomachinery [5 credits]
Deep Learning and its Applications [10 credits]
Cyber-physical Systems and Control [10 credits]

Admission is normally restricted to graduates who have achieved an upper second-class honours degree (2.1), or better, in engineering, science, computing, statistics, mathematics or a related discipline. Well-qualified candidates or industry professionals from other numerate disciplines who have sufficient knowledge of engineering and science, may also be considered.

Closing Date: 31st July 2024.

Apply
Please click on "Application Weblink" above.

1 year full-time / 2 or 3 years part-time.

Next Intake: September 2024.

Career Opportunities
We expect graduates to be in high demand for research and development positions within leading multi-national and international companies and start-up companies alike.