MSc Maritime Engineering Science: Ocean Energy & Offshore Engineering
Study ocean energy and offshore engineering on this MSc course at the University of Southampton. This master’s degree will give you expert knowledge about the science behind natural energy resources. You’ll be well prepared for a range of offshore engineering specialisms, and will graduate with the skills to move into a career in the maritime sector.
This Maritime Engineering Science: Ocean Energy and Offshore Engineering MSc is one of 5 maritime engineering science specialisms you can study at the University of Southampton.
On this pathway you’ll carry out structural and hydrodynamic analyses for offshore engineering of fixed and floating structures. You’ll focus on how to incorporate feasibility analysis of designs and probabilistic theory of the operating climate.
Discover the role of thermo-fluid processes in technologies which use hydrocarbon fuels in a sustainable way. These include clean combustion, carbon capture and storage, and oil and gas recovery.
You'll learn about the development of technology for these applications through physical insight and engineering methods covering:
We’ll teach you about turbines for low and high-head hydroelectric schemes and explain the role of marine energy in the offshore environment. This includes installation and system survivability. Through design and lab assignments, you’ll explore the physics and methods behind assessing device cost-effectiveness.
Optional modules give you the chance to further your understanding of wind, wave and tidal energy. You’ll study these natural resources and the practical methods for extracting cost-effective electrical and other energy conversions.
Your course leader is Dr Gabriel Weymouth, an associate professor for the Southampton Marine and Maritime Institute at the University of Southampton. His main areas of interest are mechanics and maths. He is currently working on unsteady fluid dynamics and nonlinear fluid/structure interaction. Read Dr Weymouth’s staff profile to find out more about his work.
If you'd prefer to study a different specialism, you can apply for one of our other MSc Maritime Engineering Science pathways:
Study ocean energy and offshore engineering on this MSc course at the University of Southampton. This master’s degree will give you expert knowledge about the science behind natural energy resources. You’ll be well prepared for a range of offshore engineering specialisms, and will graduate with the skills to move into a career in the maritime sector.
This Maritime Engineering Science: Ocean Energy and Offshore Engineering MSc is one of 5 maritime engineering science specialisms you can study at the University of Southampton.
On this pathway you’ll carry out structural and hydrodynamic analyses for offshore engineering of fixed and floating structures. You’ll focus on how to incorporate feasibility analysis of designs and probabilistic theory of the operating climate.
Discover the role of thermo-fluid processes in technologies which use hydrocarbon fuels in a sustainable way. These include clean combustion, carbon capture and storage, and oil and gas recovery.
You'll learn about the development of technology for these applications through physical insight and engineering methods covering:
We’ll teach you about turbines for low and high-head hydroelectric schemes and explain the role of marine energy in the offshore environment. This includes installation and system survivability. Through design and lab assignments, you’ll explore the physics and methods behind assessing device cost-effectiveness.
Optional modules give you the chance to further your understanding of wind, wave and tidal energy. You’ll study these natural resources and the practical methods for extracting cost-effective electrical and other energy conversions.
Your course leader is Dr Gabriel Weymouth, an associate professor for the Southampton Marine and Maritime Institute at the University of Southampton. His main areas of interest are mechanics and maths. He is currently working on unsteady fluid dynamics and nonlinear fluid/structure interaction. Read Dr Weymouth’s staff profile to find out more about his work.
If you'd prefer to study a different specialism, you can apply for one of our other MSc Maritime Engineering Science pathways:
