MEng General Engineering

4 Years On Campus Masters Program

Durham University

Program Overview

The BEng (Hons) General Engineering is a four-year full-time degree designed to provide students with a comprehensive understanding of engineering principles. The program emphasizes flexibility, allowing students to explore various engineering disciplines before specializing in their chosen field.


 Year-by-Year Breakdown

Year 1: Foundation in General Engineering

  • Core Modules:

    • Solid Mechanics and Structures: Study of solid mechanics, structures, and structural analysis.

    • Electronic and Electrical Systems: Introduction to electrical and electronic circuit theory, components, electromagnetism, and digital electronics.

    • Thermodynamics and Fluid Mechanics: Fundamentals of thermodynamics and fluid mechanics, including dimensional analysis, fluid statics, and fluid dynamics.

    • Engineering Practice: Development of practical engineering skills relevant to multiple engineering disciplines, including computer-aided design (CAD), computing, engineering design, and professional issues.

    • Mathematics for Engineers and Scientists: Essential mathematical techniques needed for engineering studies.

  • Optional Modules:

    • Introduction to Programming

    • Computational Thinking

    • Various languages

Year 2: Advanced Engineering Concepts

  • Core Modules:

    • Engineering Mathematics: Advanced mathematical methods for modeling and analyzing engineering problems.

    • Thermodynamics and Fluid Mechanics: Further study of thermodynamics and fluid mechanics.

    • Solid Mechanics and Structures: In-depth study of dynamics, vibration, stress analysis, structures, and the mechanics of soils. Introduction to finite element methods.

    • Electrical Engineering: Introduction to electrical machines and systems, and mathematical methods for modeling engineering problems.

    • Electronics: Study of electronics and computing for analog circuits, sensors, digital electronics, and microprocessor design.

    • Engineering Design: Introduction to various aspects of the design process, including principles of engineering design and project management. Undertake a major design project with guidance from an academic supervisor and an external (industrial) engineer.

Year 3: Specialization and Individual Project

  • Specialization:

    • Choose a specialization in one of the following disciplines:

      • Civil Engineering (H211)

      • Electrical Engineering (H511)

      • Electronic Engineering (H711)

      • Mechanical Engineering (H311)

      • Aeronautical Engineering (H411)

      • Renewable Energy Engineering (H811)

      • Bioengineering (H911)

  • Core Modules:

    • Modules tailored to the chosen specialization, focusing on advanced topics and practical applications within the selected field.

    • Engineering Design: Continued development of design skills, emphasizing innovation and business aspects of engineering design projects.

    • Individual Engineering Project: An open-ended challenge to investigate a research topic at BEng level, working closely with a project supervisor. This project involves identifying methods to investigate the topic, generating and analyzing data, formulating recommendations, and presenting the work in a written report and oral exam.

Year 4: Advanced Topics and Research

  • Core Modules:

    • Advanced and state-of-the-art concepts and applications in areas such as fluid mechanics, solid mechanics, turbomachinery, renewable energy technology, and future vehicles, depending on the chosen specialization.

    • MEng Research and Development Project: An open-ended challenge to undertake research working closely with an academic supervisor. This involves identifying and initiating methods to investigate the topic, generating and analyzing data, formulating conclusions and recommendations, and presenting the work in a written report and oral exam.

  • Optional Modules:

    • Students typically take an optional module in the final year, allowing exploration of interests or topics outside the core specialization. Recent examples have included:

      • Deep Learning and Artificial Intelligence

      • Environmental Engineering

      • Optimisation and Control for AI


Accreditation and Professional Recognition

  • The program is accredited by the relevant professional institutions.

  • The MEng program fulfills the educational requirements for Chartered Engineer status.


 Career Opportunities

Graduates of the BEng (Hons) General Engineering program are well-prepared for careers in various engineering sectors, including:

  • Mechanical Engineering

  • Civil Engineering

  • Electrical and Electronic Engineering

  • Aerospace Engineering

  • Renewable Energy

  • Bioengineering

The program's emphasis on practical skills, independent research, and multidisciplinary projects ensures that graduates are equipped to tackle complex engineering challenges in a rapidly evolving technological landscape.

Experiential Learning (Research, Projects, Internships etc.)

When you choose the BEng (Hons) General Engineering at Durham University, you're stepping into a program that emphasizes hands-on learning and real-world application. From day one, you'll engage with industry-standard tools and technologies, ensuring that your education is both practical and forward-thinking.

Here's how the experiential learning is structured:

  • Mechanical Engineering Lab: Dive into practical sessions that cover mechanical principles, providing a solid foundation for your future studies.

  • Electrical Engineering/Electronics Lab: Engage in experiments and projects that enhance your understanding of electrical systems and electronics.

  • Machine Shop: Gain hands-on experience with machining tools and techniques, bridging the gap between theory and practice.

  • F1 and Formula E Garage: Work on cutting-edge automotive technologies, providing insights into high-performance engineering.

  • Industry Placement Opportunities: Apply your skills in real-world settings, enhancing employability and gaining valuable experience.

  • Collaborative Projects: Work on group projects that simulate real-world engineering challenges, fostering teamwork and problem-solving skills.

  • Digital and Design Tools: Utilize CAD software and other digital tools to design and simulate engineering solutions.

These facilities and opportunities ensure that you're not just learning engineering but are actively engaged in shaping the future of the field

Progression & Future Opportunities

Graduates of the BEng (Hons) General Engineering program at Durham University are well-prepared to embark on dynamic careers across various engineering sectors. Equipped with a multidisciplinary skill set encompassing civil, mechanical, electrical, electronic, robotics, computing, and mathematics, they are ready to tackle complex engineering challenges in the digital age.

Typical roles include:

  • Systems Engineer

  • Robotics Engineer

  • Automation Engineer

  • Product Development Engineer

Future Progression & Opportunities:

  • University support for employability: Durham University offers comprehensive career services, including one-to-one guidance, industry workshops, and access to employer fairs, ensuring you are well-prepared for the job market.

  • Employment statistics: 94% of graduates are in work or further study within 15 months of completing their course.

  • Industry partnerships: The program benefits from strong industry links, providing opportunities for hands-on experience and exposure to real-world engineering challenges.

  • Accreditation value: The degree satisfies the educational requirements for becoming an Incorporated Engineer, with the option to progress towards Chartered Engineer status.

  • Graduation outcomes: Alumni have gone on to work with leading companies, demonstrating the program's effectiveness in preparing students for successful engineering careers.

Further Academic Progression:
After completing the BEng (Hons) General Engineering, you have the option to pursue:

  • MEng (Hons) Integrated Engineering: An integrated master's program that provides advanced knowledge and skills, fast-tracking your journey to Chartered Engineer status.

  • Specialist MSc programs: Tailor your expertise by choosing a master's degree in a specific engineering discipline, such as robotics, automation, or sustainable energy.

  • PhD research: Engage in cutting-edge research opportunities, contributing to innovation and development in the engineering field.

Program Key Stats

£TBA
£
£ 29
Rolling


Eligibility Criteria

A*AA
38
87

NA
NA
NA
NA
6.5
92
1300
29

Additional Information & Requirements

Career Options

  • Engineer
  • Communications designer
  • Computer hardware Engineer
  • Software Engineer
  • Computer system designer
  • Control system designer
  • Embedded system designer

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