Advanced Mechanical Engineering MSc

Program Overview

The MSc in Advanced Mechanical Engineering equips students with advanced engineering skills and management capabilities for leading complex projects in industries like energy, aerospace, and manufacturing. Combining theoretical knowledge with practical experience, the program emphasizes industry-relevant projects and research, preparing graduates for successful careers in various sectors.

Program Outline

Degree Overview:

Overview:

The MSc in Advanced Mechanical Engineering is a graduate-level program designed to prepare students for successful careers in industry, government, and research, focusing on leading large, complex projects. The program combines state-of-the-art mechanical engineering methods with industry-focused modules and research projects, while equipping students with essential management skills to bring their ideas to life.

Objectives:

• The program aims to equip students with advanced engineering skills and experience transferable to various sectors, including energy, aerospace, automotive, and manufacturing.
• The focus is on ensuring students can make an impact from day one in their careers.
• The program empowers students to apply state-of-the-art skills in mechanical engineering, allowing them to apply their learnings through industry-relevant group and individual research projects.
• The program equips students with technology leadership skills.

Description:

• The program ranks among the UK's top five for mechanical, aeronautical, and manufacturing engineering.
• It offers a unique, postgraduate-only environment with near-industrial-scale engineering facilities and a teaching team with extensive experience solving real-world industry challenges.
• The program focuses on developing students' technical skills, analytical abilities, and decision-making capabilities.
• The program emphasizes the application of mechanical engineering principles in industrial contexts through various projects and modules.
• The program equips students with the management skills necessary to lead and manage projects effectively.

Outline:

Content:

• The program covers a comprehensive range of topics, including structural mechanics and integrity, design, computer-aided engineering, operation and optimization of machinery, technology leadership, project management, and research methods.
• The program emphasizes the application of principles through hands-on projects and case studies.
• The program provides a solid foundation in engineering theory and equips students with the skills to solve complex engineering problems.

Structure:

• The program is one year full-time or two-three years part-time.
• The program combines taught modules, an individual research project, and a group project.
• The taught modules are delivered in intensive two-week blocks in the early part of the year.
• The individual research project takes place between May and August.
• The group project runs from late February to early May.

Course Schedule:

• The full-time program runs from October to September.
• The part-time program runs from October to September.
• The taught modules are delivered in intensive two-week blocks in the early part of the year.
• The individual research project takes place between May and August.
• The group project runs from late February to early May.
• Part-time students may participate in a group project, but an option for an individual dissertation is available with the Course Director's approval.

Individual Modules:

The program comprises eight modules, including:

• Structural Integrity: This module provides students with an understanding of pertinent issues in using engineering materials and practical tools for solving structural integrity and structural fitness-for-service problems.
• Fluid Mechanics and Loading: This module aims to provide students with a theoretical and applied understanding of fluid mechanics and fluid loading on structures.
• Computational Fluid Dynamics for Renewable Energy: This module aims to
• Engineering Stress Analysis: Theory and Simulations: This module brings together theories and computational practicalities of Finite Element Analysis (FEA).
• Engineering Project Management: This module aims to provide students with experience in scoping and designing projects.
• Assessing Risk and Failure: This module introduces the principles of risk and reliability engineering to engineers, including the associated tools and methods to solve relevant engineering problems in industry.
• Component Design: This module aims to advance students' technical skills in industry prototyping design processes.
• Design of Offshore Energy Structures: This module provides students with the ability to critically evaluate the structural components of renewable energy devices operating in challenging environments.

Assessment:

Assessment Methods:

• The program uses various assessment methods, including:
• Exams
• Coursework
• Individual research projects
• Group projects
• Presentations
• Case studies
• The weightings of each assessment method vary depending on the module.

Assessment Criteria:

• The assessment criteria vary depending on the module but generally assess students' ability to:
• Demonstrate a grasp of the theoretical concepts
• Apply knowledge to practical problems
• Communicate effectively
• Work independently and as part of a team
• Conduct research
• Analyze and interpret data
• Solve problems creatively
• The program emphasizes the development of professional skills, including written and oral communication, teamwork, and project management.

Teaching:

Teaching Methods:

• The program employs various teaching methods, including:
• Lectures
• Seminars
• Tutorials
• Workshops
• Practical laboratory sessions
• Field trips
• E-learning platforms
• The program uses a blended learning approach, combining traditional teaching methods with innovative online resources.

Faculty:

• The program is taught by a team of experienced academics and industry professionals.
• The faculty has extensive experience in research and teaching, and they are active in various professional organizations.
• The faculty is committed to providing students with a high-quality learning experience.

Unique Approaches:

• The program offers a unique combination of theoretical knowledge and practical experience.
• The program emphasizes the development of professional skills alongside technical expertise.
• The program provides students with the opportunity to work on real-world projects with industry partners.
• The program has a strong focus on sustainability and renewable energy.

Careers:

Potential Career Paths:

• Graduates of the program have gone on to work in various roles, including:
• Mechanical Design Engineer
• Production Line Supervisor & Lean Implementer
• Staff Engineer
• Engineer
• Management Associate
• Project Engineer
• The program prepares students for careers in various sectors, including:
• Energy
• Aerospace
• Automotive
• Manufacturing
• Research and development
• Consultancy

Opportunities:

• The program provides students with opportunities to:
• Develop their industry-relevant skills
• Network with industry professionals
• Gain real-world experience through projects
• Attend career fairs and recruitment events
• Benefit from the Career Service's support

Outcomes:

• Graduates of the program are highly sought-after by employers.
• The program has a strong track record of graduate employment.
• Graduates of the program are equipped with the skills and knowledge to make a significant impact in their careers.

Other:

Highlights:

• The program is ranked among the UK's top five for mechanical, aeronautical, and manufacturing engineering.
• The program provides students with a unique opportunity to study at a research-intensive university with near-industrial-scale engineering facilities.
• The program is supported by a team of experienced academics and industry professionals.
• The program offers a strong focus on sustainability and renewable energy.
• The program provides students with outstanding career opportunities.

Student Feedback:

• Students have consistently praised the program for its high-quality teaching, industry focus, and career support.
• Students have particularly enjoyed the program's group project, which allows them to apply their learnings to a real-world problem.
• Students have also appreciated the opportunity to network with industry professionals and gain real-world experience.

Overall:

The MSc in Advanced Mechanical Engineering is a highly regarded program that provides students with the skills and knowledge to succeed in their careers. The program combines state-of-the-art mechanical engineering methods with industry-focused modules and research projects, while equipping students with essential management skills to bring their ideas to life. The program offers a unique learning experience that prepares students for challenging and rewarding careers in various sectors.