What you will study
You will gain a broad understanding of the practical requirements of aerospace engineering, as well as an in-depth knowledge of aerospace stress analysis and advanced materials, alongside computational fluid dynamics (CFD) for aerospace applications. Complementary subjects covered include computer-integrated product development, advanced CAD/CAM plus green engineering and energy efficiency. In addition, the Engineering Research Techniques, Entrepreneurship and Quality Management module will develop your business and management skills. The Aerospace Individual Design Project module provides you with the experience of working in a multidisciplinary team within an engineering organisation – with real industrial constraints. You'll get the chance to apply the theory you've learnt to real-world contexts and evaluate methodologies, whilst developing your critical thinking and creativity.
As well as the professional, analytical and management skills necessary for employment, the course will provide you with the transferable skills required in the workplace, such as communication, IT, teamwork, planning, decision making, independent learning ability and problem solving.
Please note that this is an indicative list of modules and is not intended as a definitive list.
For a student to go on placement they are required to pass every module first time with no reassessments. It is the responsibility of individual students to find a suitable paid placement. Students will be supported by our dedicated placement team in securing this opportunity.
Core modules
Engineering Research Techniques, Entrepreneurship and Quality Management
30 credits
Engineering Research Techniques, Entrepreneurship and Quality Management is a core module for engineering students on various taught MSc programmes. The module is designed to provide the student with the research skills and techniques necessary to select and justify a research topic, plan project execution, use various resources to carry out a literature search and successfully complete the project and other module assignments on the course. It also addresses issues related to presentation of technical reports at MSc. level and for the purpose of wider publication in learned media.
The module further develops the students' knowledge and skills in business and management, with a particular focus on entrepreneurship and innovation. It supports students in producing proposals for enterprise ideas such as new products or services, or innovations in existing processes or organisations. Concepts of total quality management to enhance quality of products and processes in an industrial setting are presented and application of supporting quality tools and techniques are discussed.
The module content is designed to enhance the students' employability potential in a variety of national and international industrial organisations, or career opportunities in research and development arena. It also equips students with a set of skills to set up their own business in an engineering innovation area should they wish to do so.
Computational Fluid Dynamics for Aerospace Applications
30 credits
This module is designed for students in aerospace engineering and allied subject areas that have a prior exposure to relevant computational techniques and advanced mathematics. It intends to extend your knowledge and skills beyond the basic fluid mechanics methods, normally introduced at early undergraduate level, and to provide a theoretical and practical introduction to computational fluid dynamics (CFD). In the practical sessions, emphasis is placed on the solution of fluids problems in a realistic aerospace engineering context and on giving you the opportunity to develop awareness of the limitations of CFD software and to develop an understanding of good practice in your applications. The software used for this module is ANSYS ICEM/CFX/Fluent.
The module is also designed to provide you with advanced computational skills in fluid dynamics hence enhancing your employment potential in aerospace, automotive, energy and other similar industries. Additional support materials including excerpts from core texts will be available through Canvas.
This module consists of two week long block sessions, the lecture programme forms the first block (and is delivered by the mechanical department). The second week consists of additional tutorials, workshops and where possible guest lectures.
Aerospace Stress Analysis and Advanced Materials
30 credits
This module builds on the prior knowledge gained in stress analysis and structure of aircraft materials and other properties or an equivalent course of study. It is designed to extend your knowledge of the analytical techniques of stress analysis, plasticity theory and the importance of modern materials in advanced manufacturing processes.
Some of the more advanced theory behind finite element analysis is investigated. The module is primarily delivered through lectures supported by tutorials and by laboratories where applicable. Course materials are available via Canvas where appropriate.
Engineering Individual Project
60 credits
This is a core module for MSc courses in the School of Mechanical and Automotive Engineering, forming a capstone experience for students on these courses. The module allows you to research and study an engineering topic which is of personal interest, thus allowing you to demonstrate the mastery of your subject, and develop your ability to analyse and evaluate specific areas that may not have been previously covered in-depth in the course.
The vigorous structure of the module provides you with an opportunity to identify an industry-based (or research-focused) project area, establish a feasible hypothesis, find creditable solutions, analyse results and offer recommendations. The module enables you to acquire and appraise new knowledge and apply individual judgement to solve new and often complex engineering problems using cutting-edge technology. It also allows you to demonstrate high levels of responsibility, organisational capability and effective communication with others including the supervisor, wider research community and other stake holders. The module also encourages you to recognise, question and deal with the ethical dilemmas that are likely to occur in engineering professional practice and research.
The project applications can be individually tailored to support your career plan and prepare you to tackle real industrial problems with maturity and rationality hence enhancing your employability potential.
