Programme Type:

Course Overview

What you will study

Throughout the MSc Aeronautical Engineering programme, you will study a mix of core and optional modules and undertake a supervised 60 credit dissertation. Please note: If you’re an aeronautical engineering graduate from the University of South Wales intending to progress into postgraduate study, you will be required to complete the optional modules in advanced materials and manufacture, advanced computational fluid dynamics, fatigue and fracture and further FEA.

  • Advanced Materials and Manufacture
    This module will enable the student to gain knowledge and analytical skills on a range of modern engineering materials, subsequently develop a critical awareness on the selection criteria for aeronautical and mechanical engineering applications. You will also develop knowledge on a range of manufacturing processes, methods and techniques. 
     
  • Fatigue and Fracture 
    The aim of this module is to enable students to carry out appropriate analysis to apply to designs where failure due to fatigue may be an issue. The analysis of cracks in structures allows the students to make informed decisions as to appropriate actions that can be taken to prevent unwanted catastrophic failure.
     
  • Further Finite Element Analysis
    This will enable the student to assess the suitability of finite element analysis to solve a range of engineering analysis with an understanding of the limitations of the analysis. You will learn how to carry out appropriate finite element analysis using a range of modelling techniques and to critically analyse the results obtained from finite element software.
     
  • Further Computational Fluid Dynamics 
    This will provide students with a practical understanding of the numerical methods which underlie computational fluid dynamics analysis.
     
  • Research Methods for Engineers 
    This will provide the students with the ability to determine the most appropriate methods to collect, analyse and interpret information relevant to an area of engineering research. You will develop the ability to critically reflect on your own and others' work.
     
  • Aeroelasticity
    This module provides the student with an integrated understanding of the interaction among aerodynamic, inertia and elastic forces and how this interaction affects the design of an aircraft. You will learn how to predict, analyse and assess aeroelastic phenomena on an aircraft.
     
  • Professional Engineering Management
    This module will enable learners to develop knowledge of strategic leadership within the context of an engineering business. Learners will develop the skills to critically analyze leadership and management theories and how these shape the strategic direction and effectiveness of an organization. The learners will develop an understanding of the application of this knowledge to individual leadership skills in relation to professional engineering, using the Engineering Council UK-Spec document as a framework for good practice.
  • Advanced Propulsion
    This will provide the skills required to perform detail analysis of components of aircraft engines. You will develop a working knowledge and critical awareness of aircraft engine performance, analysing techniques, component, system design and associated technologies
     
  • Advanced Aircraft Design
    You will develop an integrated understanding of the taught aeronautical engineering postgraduate modules, through a design and synthesis perspective. This module will provide you with the tools and methods to conceptually create, simulate and optimise an aircraft design.
  • Dissertation
    The dissertation is the final component and the culmination of the MSc programme. The knowledge and skills of the taught elements of the MSc programe provide the foundation for this comprehensive research project along with additional guidance on research methodology. The dissertation represents a substantial piece of work, which brings the taught elements of the programme into context within a research or industrial based project work. The dissertation allows the students to undertake a substantial piece of investigative research work on an appropriate engineering topic and further develop the students skills in research, critical analysis and development of solutions using appropriate techniques

Direct Entry students with no prior knowledge of Computational Fluid Dynamics (CFD) or Finite Element Analysis (FEA) will also be given the option to enrol in the following modules:

  • Engineering Computational Analysis - 20 credits

Teaching

The MSc Aeronautical Engineering is delivered evenly throughout the year.

Modules involve lectures, tutorials and practical laboratory work, with continually assessed coursework or a mixture of coursework and exams.

Entry Requirement 

Academic Requirements:

A minimum 2:2 Honours degree in aeronautical or aerospace engineering, although other applicants with a relevant engineering degree will be considered. The course welcomes international applicants and requires an English level of IELTS 6.0 with a minimum of 5.5 in each component or equivalent.

Fees

Full-time UK:  £9000

Full-time International:  £14500 


This information was accurate on : 29/04/2021
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