Description
Combine core engineering analysis modules with option modules in applied mathematics, environmental management, innovation management and systems thinking to shape a qualification that suits your career aspirations. You’ll broaden and deepen your understanding of professional engineering and work collaboratively on a project. The diploma is a step to Chartered Engineer status and is the same in structure as the first two-thirds of the MSc.
Key features of the course
- Develop advanced engineering, project management, communication and teamwork skills
- Complete group project work with other students (at a residential school)
- Top up to the MSc in Engineering in just one more year
This postgraduate diploma is the same as the first two-thirds of our MSc in Engineering (F46).
Planning your studies
There are no entry requirements for this qualification.
Although this qualification has no entry requirements, we recommend you have:
However, some option modules do have entry requirements. We’ll ask you to prove you meet them when you register for any of these modules:
Our free course, Succeeding in postgraduate study, helps you develop the skills and confidence to manage the requirements and demands of postgraduate study.
Computing requirements
Compulsory module T808 uses software that requires a 64-bit operating system. Therefore, you’ll need a computer with Windows 10 (64-bit) or Windows 11.
You’ll find detailed computing requirements for each module in the ‘Study materials’ section of the module descriptions.
How long it takes
Most students study the Postgraduate Diploma in Engineering part-time, completing 60 credits a year over two years. Typically, this means 13–15 study hours each week.
You must complete the Postgraduate Diploma in Engineering within eight years.
Career relevance and employability
This qualification will help you to develop your engineering skills, as well as a range of transferable skills, such as: the ability to use specialist knowledge to solve problems creatively; effective communication skills; project management skills; the ability to turn concepts into reality; a professional approach to your work.
The knowledge and practical experience you gain during your postgraduate studies mean you'll be well placed to take advantage of the many senior engineering and technology employment opportunities available at home and abroad. At the same time, you'll be developing capabilities that are highly prized by employers in a variety of other sectors, where your logical thinking, numeracy skills, and team working abilities will be in demand.
Careers and Employability Services have more information on how OU study can improve your employability.
Modules
There are two routes through this qualification:
- Route 1 is for students starting their studies in November 2025.
- Route 2 is for students starting their studies in May 2025 or who have already started. If you’re following this route, you must complete your studies by 31 December 2032.
Route 1
To gain this qualification, you need 120 credits as follows:
60 credits from:
30 credits from:
Option modules |
Credits |
Next start |
- Project management (M815)
This APM accredited module is ideal for aspiring project managers and practising project managers who wish to develop their knowledge and skills of managing technological projects.
See full description
|
30 |
May 2026 |
- Calculus of variations and advanced calculus (M820)
This calculus module explores advanced topics, including the Gâteaux differential, Euler–Lagrange equation, Noether’s theorem and Sturm–Liouville theory.
See full description
|
30 |
Oct 2025 |
- Deterministic and stochastic dynamics (MS327) 1
This module covers core topics in the application of mathematics and is an accessible introduction to the study of applied mathematics at OU level 3.
See full description
|
30 |
Oct 2025 |
- Mathematical methods and fluid mechanics (MST326) 1
Learn about modelling simple fluid flows, ordinary and partial differential equations and mathematical methods that can be used to solve fluid-flow problems.
See full description
|
30 |
Oct 2025 |
- Strategic capabilities for technological innovation (T849)
This module draws on a range of theoretical perspectives from both strategic and innovation management to produce a multi-layered, practical, approach to strategic management of technological innovation.
See full description
|
30 |
Nov 2025 |
- Environmental monitoring and protection (T868)
This engaging online module will equip you with information on monitoring, modelling, and preventive technologies for water, noise, air, and wastes pollution.
See full description
|
30 |
Nov 2025 |
- Making environmental decisions (T891)
This module teaches you to use a systems framework to integrate environment with other considerations when making decisions in complex environmental management situations.
See full description
|
30 |
Nov 2025 |
- Sustainable organisations: theory and practice (T892)
This module provides the background knowledge and a practical skill-set to lead the way in transforming or creating sustainable organisations of the future.
See full description
|
30 |
May 2026 |
- Technology innovation management (TB801)
This module examines innovation from a management perspective, enabling you to develop an understanding of how to contribute to the process and management of technological innovation.
See full description
|
30 |
Nov 2025 |
- Making strategy with systems thinking in practice (TB871)
TB871 builds capability for making strategy within your own chosen area of (professional) practice using ideas and tools from five traditions of systems thinking.
See full description
|
30 |
May 2026 |
- Managing change with systems thinking in practice (TB872)
This module is about effecting systemic and systematic change in uncertain and complex situations, change that can transform situations for the better.
See full description
|
30 |
Nov 2025 |
Or, subject to the rules about excluded combinations, the discontinued modules T804, T846, T848, T867, TU811 and TU812. |
1While the 30 credits you achieve will contribute to the 120 credits required for this qualification, the grade you get won’t contribute to the overall classification. |
Module M820 has entry requirements – check them on the module description. |
30 credits from:
Compulsory modules |
Credits |
Next start |
- Team engineering (T885)
This module provides an opportunity for you to explore an engineering problem in-depth, working as part of a small team.
See full description
|
30 |
Sep 2025 |
Route 2
To gain this qualification, you need 120 credits as follows:
At least 30 credits from:
Up to 60 credits from:
Option modules |
Credits |
Next start |
- Project management (M815)
This APM accredited module is ideal for aspiring project managers and practising project managers who wish to develop their knowledge and skills of managing technological projects.
See full description
|
30 |
May 2026 |
- Calculus of variations and advanced calculus (M820)
This calculus module explores advanced topics, including the Gâteaux differential, Euler–Lagrange equation, Noether’s theorem and Sturm–Liouville theory.
See full description
|
30 |
Oct 2025 |
- Deterministic and stochastic dynamics (MS327) 1
This module covers core topics in the application of mathematics and is an accessible introduction to the study of applied mathematics at OU level 3.
See full description
|
30 |
Oct 2025 |
- Mathematical methods and fluid mechanics (MST326) 1
Learn about modelling simple fluid flows, ordinary and partial differential equations and mathematical methods that can be used to solve fluid-flow problems.
See full description
|
30 |
Oct 2025 |
- Manufacture materials design (T805)
Introducing materials processing from the perspective of a design engineer, this module explores how components are made, focusing on the interactions between manufacturing, materials and design.
See full description
|
30 |
May 2026 |
- Finite element analysis: principles and applications (T808)
Learn the basics of finite element modelling of components and materials under static and thermal stresses, and dynamic analysis using ANSYS software.
See full description
|
30 |
Nov 2025 |
- Strategic capabilities for technological innovation (T849)
This module draws on a range of theoretical perspectives from both strategic and innovation management to produce a multi-layered, practical, approach to strategic management of technological innovation.
See full description
|
30 |
Nov 2025 |
- Environmental monitoring and protection (T868)
This engaging online module will equip you with information on monitoring, modelling, and preventive technologies for water, noise, air, and wastes pollution.
See full description
|
30 |
Nov 2025 |
- Making environmental decisions (T891)
This module teaches you to use a systems framework to integrate environment with other considerations when making decisions in complex environmental management situations.
See full description
|
30 |
Nov 2025 |
- Sustainable organisations: theory and practice (T892)
This module provides the background knowledge and a practical skill-set to lead the way in transforming or creating sustainable organisations of the future.
See full description
|
30 |
May 2026 |
- Technology innovation management (TB801)
This module examines innovation from a management perspective, enabling you to develop an understanding of how to contribute to the process and management of technological innovation.
See full description
|
30 |
Nov 2025 |
- Making strategy with systems thinking in practice (TB871)
TB871 builds capability for making strategy within your own chosen area of (professional) practice using ideas and tools from five traditions of systems thinking.
See full description
|
30 |
May 2026 |
- Managing change with systems thinking in practice (TB872)
This module is about effecting systemic and systematic change in uncertain and complex situations, change that can transform situations for the better.
See full description
|
30 |
Nov 2025 |
Or, subject to the rules about excluded combinations, the discontinued modules T804, T846, T848, T867, TU811 and TU812. |
1You may choose only one of these two modules. While the 30 credits you achieve will contribute to the 120 credits required for this qualification, the grade you get won’t contribute to the overall classification. |
Module M820 has entry requirements – check them on the module description. |
30 credits from:
Compulsory modules |
Credits |
Next start |
- Team engineering (T885)
This module provides an opportunity for you to explore an engineering problem in-depth, working as part of a small team.
See full description
|
30 |
Sep 2025 |
Either 60 credits from:
Or 60 credits from:
Modules |
Credits |
Next start |
- Project management (M815)
This APM accredited module is ideal for aspiring project managers and practising project managers who wish to develop their knowledge and skills of managing technological projects.
See full description
|
30 |
May 2026 |
- MSc project: researching in context (T803)
T803 is the capstone module of multiple masters qualifications, during which you’ll complete a small research project.
See full description
|
30 |
Nov 2025 |
Or, subject to the rules about excluded combinations, the discontinued module T847. |
The University’s unique study rule applies to this qualification. This means you must include at least 40 credits from OU modules that have not been counted in any other OU qualification that we’ve previously awarded to you.
Learning outcomes
The learning outcomes of this qualification are described in four areas:
- Knowledge and understanding
- Cognitive skills
- Practical and professional skills
- Key skills
Read more detailed information about the learning outcomes, and how they are acquired through teaching, learning and assessment methods.
Credit for previous study elsewhere
If you have already completed some successful study at postgraduate level at another institution you may be able to transfer credit for this study and count it towards this Open University qualification. If you wish to apply to transfer credit you must do so as soon as possible as it may affect your choice of OU modules. If you are awarded credit for study completed elsewhere, you may find that you need to study fewer OU modules to complete your qualification with us.
Visit our Credit Transfer site for more information and details of how to apply for credit transfer.
On completion
On successfully completing this course, we’ll award you our Postgraduate Diploma in Engineering. You’ll be entitled to use the letters PG Dip (Eng) (Open) after your name.
If your diploma is awardable with a distinction or a merit, the qualification regulations explain how you can achieve these.
You can progress from this Postgraduate Diploma in Engineering to our MSc in Engineering (F46).
Regulations
As a student of The Open University, you should be aware of the content of the qualification-specific regulations below and the academic regulations that are available on our Student Policies and Regulations website.
How to register
If you want to study for this qualification, read the description and check you meet any specific requirements (for example, some of
our qualifications, require you to be working in a particular environment, or be sponsored by your employer). Then select the
module you wish to study first and ensure it is suitable for you before following the registration procedure for that module.
During the registration procedure you will be asked to declare which qualification you are studying towards.
See a full list of modules available for this qualification