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Advanced Mechanical Engineering

Computing, Engineering and Technology

Taught

MSc

  • Overview
  • Application Timeline
  • Tuition
  • Requirements
  • Modules
  • About
  • Subject Area Information
  • Career
  • Similar courses

Overview

The MSc in Advanced Mechanical Engineering at Durham University prepares students to tackle global engineering challenges through a blend of theoretical and practical learning. The program covers key topics like turbomachinery design and fluid mechanics, fostering collaboration in multinational teams. Students benefit from world-class teaching, state-of-the-art facilities, and strong industry connections.

Application Timeline

  1. September 1, 2025
    Start date

  2. April 6, 2026
    Today

Tuition

Year 1
Student categories Study
Full-time Part-time
England£14,500N/A
Northern Ireland£14,500N/A
Scotland£14,500N/A
Wales£14,500N/A
Channel Islands£14,500N/A
EU£33,000N/A
International£33,000N/A

Requirements

Entry Requirements:
Language Requirements

Language requirements information is currently unavailable.

Modules

Modules is currently unavailable

Please check back later for updates.

About

The MSc in Advanced Mechanical Engineering is a prestigious program designed to equip students with the skills and knowledge necessary to address engineering challenges faced by industry and society globally.

Course Structure

This course emphasizes both theoretical and practical learning, utilizing advanced tools and technologies. Students will develop collaborative skills by working in multinational teams on advanced design projects, adhering to industry standards and employing complex engineering analysis tools.

Key Topics Covered

  • Turbomachinery Design
  • Non-linear Stress Analysis
  • Fluid Mechanics
  • Contact and Friction

These topics provide a...

Subject Area Information

Turbine technology is a specialized field within mechanical and aerospace engineering that focuses on the design, operation, and maintenance of turbines, critical components in various industries including power generation, aviation, and marine propulsion.

Typical Course Structure

  • 1. Introduction to Turbine Technology

  • 2. Thermodynamics and Fluid Mechanics

  • 3. Turbine Design and Manufacturing

  • 4. Control Systems for Turbines

  • 5. Maintenance and Reliability Engineering

  • 6. Environmental Impact and Sustainability

Typical Skills Acquired
  • Technical Proficiency
  • Design and Analysis
  • Problem-Solving
  • Project Management
  • Sustainability Awareness

Career

Turbine technology is a multifaceted discipline that equips students with the knowledge and skills to excel in various engineering roles, covering a broad range of topics from fundamental principles to advanced design and sustainability.

Potential Professions

  • Aerospace Engineer

    Designing and testing turbines for aircraft engines.

  • Mechanical Engineer

    Working on the development and maintenance of industrial turbines.

  • Renewable Energy Engineer

    Focusing on wind turbines and other sustainable energy solutions.

  • Maintenance Engineer

    Specializing in the upkeep and reliability of turbine systems.

  • Research Scientist

    Conducting advanced research in turbine technology and materials.

  • Technical Consultant

    Providing expertise to companies on turbine design, operation, and maintenance.

Similar courses

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Palatine Centre, Stockton Road, Durham, DH1 3LE
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Contact

Loading map...
Palatine Centre, Stockton Road, Durham, DH1 3LE
Visit Course Website
Visit Student Union Website
Get expert guidance

Enhance your academic journey with the help from our experts.

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