MEng Aerospace Engineering

Program Overview

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The MEng Aerospace Engineering program at Sheffield Hallam University equips students with the knowledge and skills to tackle challenges in air and space transportation. Emphasizing research and practical experience through industry-led projects, this IMechE-accredited program prepares graduates for diverse roles in aerospace research, design, manufacturing, and more. With elective modules and applied learning opportunities, students can tailor their education to their interests and career aspirations.

Program Outline

The program aims to prepare students for diverse roles in aerospace research and development, manufacturing, product design, testing, modeling, simulating, and other commercial engineering enterprises. The program emphasizes a research-informed approach to learning, preparing students for future aerospace challenges within a diverse student community. Students will engage in professional practice from day one, working on industry-led projects and addressing complex aerospace problems. The program is accredited by the Institution of Mechanical Engineers (IMechE) and meets the exemplifying academic benchmark requirements for registration as a Chartered Engineer.

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Outline:

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Year 2:

• Applied Thermodynamics, Aircraft Systems And Manufacturing: This module delves into the application of thermodynamics to aircraft systems, including propulsion and power generation.
• Numerical Methods And Applications: This module covers numerical methods and their application to solving engineering problems.
• Structures, Aerodynamics And Flight Mechanics: This module builds upon the foundation laid in Year 1, exploring advanced concepts in structures, aerodynamics, and flight mechanics.
• Systems Modelling And Simulation: This module introduces students to the principles of systems modeling and simulation, using software tools to analyze and predict system behavior.

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Year 3:

• Placement Year: Students have the opportunity to undertake a year-long work placement in a relevant industry setting.
This provides valuable practical experience and networking opportunities.

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Year 4:

• Advanced Aerospace Engineering And Design: This module covers advanced topics in aerospace engineering, including aircraft design, optimization, and performance analysis.
• Aircraft Design And Simulation: This module involves the design and simulation of a real aircraft, using software tools to assess its performance and characteristics.
• Project: Implementation: This module focuses on the implementation of a research project, involving the application of engineering principles and problem-solving skills.
• Project: Management And Scoping: This module covers the management and scoping of engineering projects, including planning, resource allocation, and risk assessment.

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Final Year:

• Aerothermodynamics Of Space Transport Systems: This module explores the principles of aerothermodynamics as applied to space transportation systems.
• Industrial Group Project: Students work in teams on a real-world industry project, applying their knowledge and skills to solve a specific problem.

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Elective Modules:

Students can choose from a range of elective modules, including:

• Advanced Computational Methods In Engineering: This module covers advanced computational methods for solving engineering problems.
• Artificial Intelligence Concepts And Applications: This module explores the concepts and applications of artificial intelligence in engineering.

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Assessment:

Assessment methods vary across modules and may include:

• Exams: Written examinations to assess theoretical knowledge and understanding.
• Coursework: Assignments, reports, and presentations to demonstrate practical skills and problem-solving abilities.
• Case Studies: Analysis and evaluation of real-world aerospace engineering scenarios.
• Phase Tests: Short assessments to monitor progress and identify areas for improvement.
• Viva Presentations: Oral presentations to defend research findings and demonstrate communication skills.
• Portfolios: Collections of work to showcase individual achievements and development.

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Teaching:

The program employs a variety of teaching methods, including:

• Lectures: Interactive lectures to deliver core concepts and stimulate discussion.
• Tutorials: Small group sessions to practice and apply knowledge.
• Hands-on Lab Experience: Practical sessions in dedicated laboratories to gain hands-on experience with equipment and software.
• Q&A and Discussions: Opportunities for self-assessment and clarification of concepts.
• Teamwork Activities: Collaborative projects to foster teamwork and communication skills.
• Project-based Learning: Real-world projects to apply knowledge, creativity, design, critical analysis, and professional skills.

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Careers:

Graduates of this program are well-prepared for a wide range of careers in the aerospace industry and related fields, including:

• Aerospace Industry: Roles in aircraft design, manufacturing, testing, research, and development.
• Civil and Military Aviation: Positions in airlines, airports, and defense organizations.
• Aeronautical Roles: Engineering and technical roles in aircraft maintenance, operations, and safety.
• Space and Defense Technology: Opportunities in space exploration, satellite technology, and defense systems.
• Aerospace Research Centers and Agencies: Research positions in universities, government agencies, and private research institutions.
• Academia: Teaching and research roles in higher education institutions.
• Automotive Roles: Engineering positions in the automotive industry, leveraging transferable skills from aerospace engineering.
• Mechanical Roles: Engineering roles in various industries, applying mechanical engineering principles.
• Energy and Thermal Power Engineering: Positions in the energy sector, utilizing knowledge of thermodynamics and fluid mechanics.
• Systems and Control: Roles in the development and implementation of control systems for aerospace and other industries.
• Computing and Software Development: Opportunities in software development for aerospace applications.
• Manufacturing: Engineering and management roles in aerospace manufacturing companies.
• Management: Leadership positions in aerospace organizations, utilizing technical expertise and management skills.

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Other:

• Applied Learning: The program incorporates applied learning through work placements, live projects, field trips, and networking opportunities.
• Student Societies: Students can join aerospace societies, space academic networks, or form their own teams to engage in extracurricular activities.
• Training Programs: Opportunities to participate in training programs such as piloting or computer simulations.
• Competitions: Students can participate in national and international aerospace competitions, such as the British Model Flying Association (BMFA) Payload challenge, the RAeS International Light Aircraft Design Competition, and the IMechE Unmanned Aerial System (UAS) Challenge.
• Guest Lectures and Seminars: The program features guest lectures and seminars from industry partners, professional bodies, and researchers to provide insights into current trends and research activities.

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• Home students: £9,250 per year (£1,200 for placement year)
• International/EU students: £16,655 per year (£1,200 for placement year)