Advanced Chemical Engineering (Hydrogen and Low Carbon Technologies) MSc 12 months Postgraduate Program By Brunel University of London |Top Universities

Program overview

Main Subject

Engineering - Chemical

Degree

MSc

Study Level

Masters

Study Mode

On Campus

Taught within Brunel’s young and vibrant chemical engineering department, this new master’s programme is the first of its kind in the UK. The course’s pioneering approach is rooted in its collaboration with four other departments within the university - mechanical and aerospace engineering, civil engineering, environmental science and social and political sciences - giving you a holistic view of low carbon technology and the issues that surround it.
You will be taught by a team of world-leading academics with extensive experience and diverse backgrounds in low carbon technologies, who deliver research-informed teaching across topics such as hydrogen production, carbon capture, utilisation and storage (CCUS), biorefineries and fuel cells. You will benefit from the programme’s blended approach to teaching, which includes interactive modes, traditional lectures and tutorial-style learning, along with an active learning approach through extensive discussion.
A clear benefit of the programme’s interdisciplinary approach is that while you acquire the ground-breaking science expertise you’ll also have the opportunity to select employability-boosting modules, focusing for example on project management, environmental legislation and climate politics. The compulsory modules will give you industry-relevant problem solving and transferable skills through holistic assessments, including assignments, written exams, oral presentations, and report writing.
Brunel is recognised for its sector-leading chemical engineering facilities on campus, from where you will undertake practical project work comprising both computational modelling and laboratory experiments. This will not only enhance your employability on graduation, but also offer you a unique and exciting perspective on a range of modern technologies, and their potential to achieve sustainable resource management with minimal environmental impact.

Program overview

Main Subject

Engineering - Chemical

Degree

MSc

Study Level

Masters

Study Mode

On Campus

Taught within Brunel’s young and vibrant chemical engineering department, this new master’s programme is the first of its kind in the UK. The course’s pioneering approach is rooted in its collaboration with four other departments within the university - mechanical and aerospace engineering, civil engineering, environmental science and social and political sciences - giving you a holistic view of low carbon technology and the issues that surround it.
You will be taught by a team of world-leading academics with extensive experience and diverse backgrounds in low carbon technologies, who deliver research-informed teaching across topics such as hydrogen production, carbon capture, utilisation and storage (CCUS), biorefineries and fuel cells. You will benefit from the programme’s blended approach to teaching, which includes interactive modes, traditional lectures and tutorial-style learning, along with an active learning approach through extensive discussion.
A clear benefit of the programme’s interdisciplinary approach is that while you acquire the ground-breaking science expertise you’ll also have the opportunity to select employability-boosting modules, focusing for example on project management, environmental legislation and climate politics. The compulsory modules will give you industry-relevant problem solving and transferable skills through holistic assessments, including assignments, written exams, oral presentations, and report writing.
Brunel is recognised for its sector-leading chemical engineering facilities on campus, from where you will undertake practical project work comprising both computational modelling and laboratory experiments. This will not only enhance your employability on graduation, but also offer you a unique and exciting perspective on a range of modern technologies, and their potential to achieve sustainable resource management with minimal environmental impact.

Admission Requirements

6+
59+
77+
2.8+

1 Year
Sep

Tuition Fee

Domestic Students

14,435 GBP
-

International Students

26,250 GBP
-

Scholarships

One of the important factors when considering a master's degree is the cost of study. Luckily, there are many options available to help students fund their master's programme. Download your copy of the Scholarship Guide to find out which scholarships from around the world could be available to you, and how to apply for them.

In this guide you will find:
opportunities

Where to look for scholarship opportunities

how_to

How to apply to scholarships relevant to you

list

A list of available scholarships around the world

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A scholarship application checklist

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