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The Master of Science Degree in Oil & Gas Engineering (formerly Energy Futures (Oil & Gas)) has been designed to provide students with a detailed knowledge of the technology required to ensure energy provision in the oil and gas industry and aims to give both a theoretical and practical grounding for future managers of energy projects. It is taught by specialist staff drawn from Engineering, Geology, Chemistry, and the Energy Industry each of whom are highly regarded in their field of expertise.

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The course is intended to offer a route to an MSc to those prospective students who do not wish to specialise in a particular area within the discipline at this stage, either because they are uncertain of which area they would like to focus on, or because they wish to show a broad profile to as wide a range of potential employers of professional electronic and electrical engineers as possible. Accordingly, the course is specifically designed for students who wish to pursue advanced studies across the range of specialist areas relevant to electronic and electrical engineering.

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The masters course in Polymer Materials Science and Engineering, offered in partnership with the School of Chemistry, is multi-disciplinary: it provides Chemists, Materials Scientists and Engineers with a rich understanding of both traditional commodity plastics and speciality polymers with increasing applications in the biomedical and pharmaceutical fields, and in electronics and nanotechnology. The full range of issues, from fundamental polymer science, through polymer processing, to manufacturing are all covered.

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This MSc programme meets the industrial demand for the training and education of both existing and future engineers in the advanced concepts of sustainable electrical power and energy generation. It aims to produce graduates of the highest calibre with the right skills and knowledge who will be capable of leading in teams involved in the operation, control, design, regulation and management of the power systems and networks of the future.

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You will attend lectures, seminars and tutorials and take part in lab, project, team and studio work and workshops. Core courses ?Core research skills for postgraduates ?Product design engineering introduction project ?Advanced manufacture ?Micro-electronics in consumer products ?Human factors ?Integrated engineering design ?MSc final project.

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This course addresses contemporary issues in engineering and engineering management. If you wish to study the systems approach to engineering management, and systems engineering applied to one of three subject areas - electronic, mechanical or mechatronic engineering - then this course will fulfill your requirements.

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This course is continually developed to meet the requirements of the manufacturing sector. Current trends are in the development of lean and agile manufacturing systems and their supply chains, the design of web-based manufacturing information systems and the development of consulting skills.

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This course is an advanced MSc course in the area of renewable energy engineering, with an emphasis on the design, analysis and implementation of renewable energy project. The course is designed to help you develop critical understanding that you can apply to assist the wide range of renewable energy industries.

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The aim of programme is to develop students' knowledge in Maintenance Engineering and Tribology, to provide students with a learning environment in which they will demonstrate their capacity for independent study, their ability to collaborate with others in team settings, and their capacity for critical thought and reflection, to refine students' ability to communicate in written and verbal English and to relate their communication skills to the needs of maintenance engineering and tribology sector, to equip students with research skills to successfully undertake a complicated piece of independent research at postgraduate level, to encourage and enable the students to become reflective practitioners, to enhance students' career potential, personal and professional effectiveness and performance in employment, and assist them in making a positive and sustained contribution to their wider community. Module details: - Project: Individual projects will be undertaken to deal with one of a range of maintenance, reliability and tribological problems - Research Methods: - Design and operation of sustainable systems: The module aims to synthesise bearing designs that minimise power loss, to evaluate bearing material or coating selections that minimise friction and wear, to employ ISO standards in the design of lubricant management systems, to design condition-monitoring solutions of typical industrial machines based on an understanding of their performance and running characteristics, to synthesise reliability and maintainability analyses of mechanical or electrical devices. - Sustainable Systems Development: - Maintenance Management: This module examines the main methods for developing a modern maintenance programme for industrial plants.

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Automotive Mechatronics is a life-cycle activity that involves the multidisciplinary integration of physical systems (which may include elements of mechanical, electrical, hydraulic or pneumatic) with electronic digital control. It is widely recognised that a significant number of recent advancements and innovations within the automotive sector can be attributed to the specialised domain of Mechatronics.

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