Modelling & Simulation 3 - course unit details - MEng Aerospace Engineering - course details (2025 entry)

Duration: 4 years
Year of entry: 2025
UCAS course code: H402 / Institution code: M20

Key features:
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Scholarships available
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Typical A-level offer: A*AA including specific subjects
Typical contextual A-level offer: AAA including specific subjects
Refugee/care-experienced offer: AAB including specific subjects
Typical International Baccalaureate offer: 37 points overall with 7,6,6 at HL, including specific requirements

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Course unit details:
Modelling & Simulation 3

Course unit fact file
Unit code	AERO30052
Credit rating	10
Unit level	Level 3
Teaching period(s)	Semester 2
Available as a free choice unit?	No

Overview

The students are introduced to the mathematical formulations of (1) linear elastic (structural), and (2) fluid flow (CFD) problems and their implementation into numerical schemes. Particular emphasis is placed on the Finite Element and Finite Volume Methods and the associated modelling strategies. Two detailed project exercises are carried out to support the course and highlight the importance of numerical simulations as an important, indeed, essential aid in engineering design.

Pre/co-requisites

Unit title	Unit code	Requirement type	Description
Modelling & Simulation 3	AERO30052	Pre-Requisite	Compulsory

Aims

The principal aim of this course is to introduce students to the principles and procedures involved in the numerical modelling of problems in linear elasticity and in fluid flow and heat transfer.

Syllabus

The Finite Element Method, as applied to structural problems, includes: formulations and setting up of system equations for one-, two-, and three-dimensional elasticity problems, their assembly, solution, and post-processing. The associated project requires the analysis of a plate with central hole using ABAQUS: studying the effect of element type, element density on computed values of deflections and stresses; convergent curves; stress discontinuities.

Application of the Finite Volume Method is concerned with the governing equations of thermo-fluids and numerical discretization of those transport equations; there is a brief treatment of turbulence modelling. The project involves turbulent flow and heat transfer in a mixing elbow. CFD solution and post-processing is undertaken using the ANSYS-FLUENT package.

Assessment methods

Method	Weight
Written exam	80%
Report	20%

Feedback methods

Coursework feedback on two simulation laboratories is provided individually on the marked reports. Collective feedback is also given during the lecture period when marked reports are handed back.

Study hours

Scheduled activity hours
Lectures	24
Practical classes & workshops	6

Independent study hours
Independent study	70

Teaching staff

Staff member	Role
Timothy Craft	Unit coordinator

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MEng Aerospace Engineering

Course unit details:Modelling & Simulation 3