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Diploma (PD) Advanced Aerospace Engineering

Academic Year 2017/18

A programme specification is required for any programme on which a student may be registered. All programmes of the University are subject to the University's Quality Assurance and Enhancement processes as set out in the DASA Policies and Procedures Manual.

Programme Title

Diploma (PD) Advanced Aerospace Engineering

Final Award
(exit route if applicable for Postgraduate Taught Programmes)

Postgraduate Diploma

Programme Code

AER-PD-EN

UCAS Code

JACS Code

H400 (DESCR) 100

Criteria for Admissions

In addition to the general entry requirements set by the University (http://www.qub.ac.uk/ado ), the subject-specific requirements for admission to the programme are:

A minimum 2.2 Honours degree (or equivalent qualification acceptable to the University) in Aerospace Engineering or other suitable engineering discipline, including substantial Mathematics and relevant engineering content at 2.2 Honours level or equivalent standard acceptable to the School.

Applicants holding a 2.2 Honours degree or equivalent qualification acceptable to the University in a suitable engineering discipline with performance in key modules below 2.2 Honours standard may be considered on an individual basis.

A 2.1 Honours degree in Mathematics or Physics or equivalent qualification acceptable to the University will be considered.
Applicants with non-standard qualifications will be considered on an individual basis.

Non-EEA nationals must also satisfy UK Visas and Immigration (UKVI) immigration requirements for English language for visa purposes. Evidence of an IELTS* score of 6.0, with not less than 5.5 in any component, or an equivalent qualification acceptable to the University is required (*taken within the last 2 years).

ATAS Clearance Required

Health Check Required

Portfolio Required

Interview Required

Mode of Study

Full Time

Type of Programme

Postgraduate

Length of Programme

1 Academic Year(s)

Total Credits for Programme

120

Exit Awards available

INSTITUTE INFORMATION

Awarding Institution/Body

Queen's University Belfast

Teaching Institution

Queen's University Belfast

School/Department

Mechanical & Aerospace Engineering

Framework for Higher Education Qualification Level
www.qaa.ac.uk

Level 7

QAA Benchmark Group
www.qaa.ac.uk/quality-code/subject-benchmark-statements

Accreditations (PSRB)

Royal Aeronautical Society

Date of most recent Accreditation Visit 16-04-14

REGULATION INFORMATION

Does the Programme have any approved exemptions from the University General Regulations
(Please see General Regulations)

N/A

Programme Specific Regulations

N/A

Students with protected characteristics

N/A

Are students subject to Fitness to Practise Regulations

(Please see General Regulations)

EDUCATIONAL AIMS OF PROGRAMME

The overall aim of the programme is to offer a high quality, supportive teaching and learning environment that provides graduates with:

Engineering education and training which is accredited by the Royal Aeronautical Society.

Intellectual, practical and professional skills in the critical analysis, evaluation, design and management of advanced engineering projects and organisations.

Skills, tools and techniques to enable graduates of the programme to embark or progress on a high-level industrial career in advanced engineering and management. The course also aims to provide in-depth knowledge in specific subject areas to those graduates who are considering a career in research, either in industry or academia.

Competences and expertise in the application of advanced computer-aided design, analysis and management techniques.

Transferable skills which relate to literacy, numeracy, ICT, team-work, presentations and interactions to prepare graduates for more general employment.

LEARNING OUTCOMES

Learning Outcomes: Cognitive Skills

On the completion of this course successful students will be able to:

Draw rational conclusions from experimental data.

Teaching/Learning Methods and Strategies

The development of cognitive skills is promoted through project work and assignments.

Methods of Assessment

Assessment rewards instances of creative and critical thinking and logical approaches to problem solving and decision making.

Identify and define an engineering problem that may be unfamiliar and generate practical as well as innovative solutions.

Teaching/Learning Methods and Strategies

The development of cognitive skills is promoted through project work and assignments.

Methods of Assessment

Assessment rewards instances of creative and critical thinking and logical approaches to problem solving and decision making.

Apply appropriate methods to model such solutions and assess the limitations of the method.

Teaching/Learning Methods and Strategies

The development of cognitive skills is promoted through project work and assignments.

Methods of Assessment

Assessment rewards instances of creative and critical thinking and logical approaches to problem solving and decision making.

Evaluate the technical capabilities of modern engineering design and analysis tools.

Teaching/Learning Methods and Strategies

The development of cognitive skills is promoted through project work and assignments.

Methods of Assessment

Assessment rewards instances of creative and critical thinking and logical approaches to problem solving and decision making.

Make informed judgements on best-in-class practice in engineering design and manufacture.

Teaching/Learning Methods and Strategies

The development of cognitive skills is promoted through project work and assignments.

Methods of Assessment

Assessment rewards instances of creative and critical thinking and logical approaches to problem solving and decision making.

Make general evaluations of commercial risk.

Teaching/Learning Methods and Strategies

The development of cognitive skills is promoted through project work and assignments.

Methods of Assessment

Assessment rewards instances of creative and critical thinking and logical approaches to problem solving and decision making.

Learning Outcomes: Transferable Skills

On the completion of this course successful students will be able to:

Use a wide range of enhanced personal and inter-personal team-working skills.

Teaching/Learning Methods and Strategies

Formal lectures are presented, but students also acquire knowledge and understanding experientially in assignments, as well as individual and group project work.

Methods of Assessment

Assessment is based on written examinations, coursework and oral presentations by both individuals and groups, where students are expected to acquire knowledge and develop their own understanding as part of their assigned tasks.

Apply ICT skills in the use of modern general purpose computer software.

Teaching/Learning Methods and Strategies

Formal lectures are presented, but students also acquire knowledge and understanding experientially in assignments, as well as individual and group project work.

Methods of Assessment

Apply ICT skills in the use of specialised computer-aided design and analysis systems such as statistical analysis, finite element analysis and computational fluid dynamics.

Teaching/Learning Methods and Strategies

Formal lectures are presented, but students also acquire knowledge and understanding experientially in assignments, as well as individual and group project work.

Methods of Assessment

Exercise independent judgment, autonomy and personal responsibility in addressing potentially complex situations.

Teaching/Learning Methods and Strategies

Formal lectures are presented, but students also acquire knowledge and understanding experientially in assignments, as well as individual and group project work.

Methods of Assessment

Learning Outcomes: Subject Specific

On the completion of this course successful students will be able to:

Integrate statistical methods and quantitative data analysis to find solutions to engineering problems.

Teaching/Learning Methods and Strategies

Formal lectures are presented, but students also acquire knowledge and understanding experientially in assignments, individual and group project work.

Methods of Assessment

Perform a basic strategic operational analysis of an engineering business.

Teaching/Learning Methods and Strategies

Formal lectures are presented, but students also acquire knowledge and understanding experientially in assignments, individual and group project work.

Methods of Assessment

Use state-of-the-art commercial software tools for digital design, simulation and manufacturing.

Teaching/Learning Methods and Strategies

Formal lectures are presented, but students also acquire knowledge and understanding experientially in assignments, individual and group project work.

Methods of Assessment

Identify the technical capabilities and limitations of advanced software tools.

Teaching/Learning Methods and Strategies

Formal lectures are presented, but students also acquire knowledge and understanding experientially in assignments, individual and group project work.

Methods of Assessment

Learning Outcomes: Knowledge & Understanding

On the completion of this course successful students will be able to:

Identify and employ appropriate engineering science and advanced technical software for aerospace design, simulation and manufacture.

Teaching/Learning Methods and Strategies

Formal lectures are presented, but students also acquire knowledge and understanding experientially in assignments, individual and group project work.

Methods of Assessment

Develop and critically evaluate the results from engineering models and simulations.

Teaching/Learning Methods and Strategies

Formal lectures are presented, but students also acquire knowledge and understanding experientially in assignments, individual and group project work.

Methods of Assessment

Manage the evaluation, design and management of advanced aerospace engineering projects and organisations.

Teaching/Learning Methods and Strategies

Formal lectures are presented, but students also acquire knowledge and understanding experientially in assignments, individual and group project work.

Methods of Assessment

Analyse, evaluate and create strategies for efficient engineering manufacture.

Teaching/Learning Methods and Strategies

Formal lectures are presented, but students also acquire knowledge and understanding experientially in assignments, individual and group project work.

Methods of Assessment

MODULE INFORMATION

Programme Requirements

Module Title	Module Code	Level/ stage	Credits	Availability		Duration	Pre-requisite			Assessment
				S1	S2			Core	Option	Coursework %	Practical %	Examination %
Operations Management in the New Economy	MGT9029	7	20	YES		12 weeks	N		YES	50%	0%	50%
Finite Element Analysis	MEE7002	7	10	YES		12 weeks	N		YES	40%	0%	60%
Compressible Flow & Turbomachinery	MEE7001	7	10	YES		12 weeks	N		YES	0%	0%	100%
Computational Fluid Dynamics	MEE7003	7	10		YES	12 weeks	N		YES	0%	50%	50%
Aerodynamics	MEE7008	7	10	YES		12 weeks	N		YES	40%	0%	60%
Composite Structures	MEE7009	7	20	YES		12 weeks	N		YES	65%	0%	35%
Fracture Mechanics	MEE7011	7	10		YES	12 weeks	N		YES	20%	0%	80%
Sustainable Transportation Systems	MEE7013	7	10	YES		12 weeks	N		YES	0%	0%	100%
Research Methods	MEE7014	7	10		YES	12 weeks	N		YES	60%	40%	0%
Internal Combustion Engines	MEE7021	7	10	YES		12 weeks	N		YES	20%	0%	80%
Turbomachinery	MEE7022	7	10		YES	12 weeks	N		YES	0%	0%	100%
Digital Manufacturing	AER7010	7	10		YES	12 weeks	N		YES	100%	0%	0%
Aviation Maintenance Management	AER7011	7	10		YES	12 weeks	N		YES	30%	0%	70%
Manufacturing Automation & Robotics	MEE7025	7	10	YES		12 weeks	N		YES	20%	0%	80%
Lean Manufacture	MEE7026	7	10	YES		12 weeks	N		YES	50%	0%	50%
Notes

detail

Diploma (PD) Advanced Aerospace Engineering

Academic Year 2017/18

INSTITUTE INFORMATION

REGULATION INFORMATION

EDUCATIONAL AIMS OF PROGRAMME

LEARNING OUTCOMES

Learning Outcomes: Cognitive Skills

Learning Outcomes: Transferable Skills

Learning Outcomes: Subject Specific

Learning Outcomes: Knowledge & Understanding

MODULE INFORMATION

Notes