General information
Maritime Engineering Science is an MSc course designed for graduates, or similarly qualified, with an engineering, scientific or mathematical background, who desire to pursue a career in maritime sector. An introductory module is provided at the start to give students the fundamental knowledge necessary for them to succeed in the course. The masters course in Maritime Engineering Science / Maritime Computational Fluid Dynamics concentrates on the computational techniques and their applications to the predictions of fluid behaviour and its interactions with structure, core to the engineering in the maritime environment.
Computational fluid dynamics can transform a design and drastically reduce production costs. The course explores cutting-edge computational techniques and is ideal for physical sciences, engineering and mathematics graduates wanting to enter maritime engineering and seeking to specialise.
Programme Overview
The year will be divided into two semesters. Your compulsory modules will give you an in-depth understanding of CFD methodology, data interpretation and practical applications of numerical procedures. You will also study Application of CFD and advances in ship resistance and propulsion.
In each semester, you will have the chance to broaden your maritime engineering education by selecting option modules including flow control, offshore engineering analysis and design search and optimisation.
The last four months will be devoted to practical research. You will complete a final research project and take advantage of our world-class high performance computing facility for your CFD work as well as CFD test facilities to perform your experimental work.
| Semester 1 | Semester 2 |
| Compulsory Modules | Compulsory Modules |
| Applications of CFD | Marine Hydrodynamics |
| Advances in Ship Resistance and Propulsion | Marine Safety and Environmental Engineering |
| Fundmentals of Ship Science | |
| Optional Modules | Optional Modules |
| Finite Element Analysis in Solid Mechanics | Ship Manoeuvring and Control |
| Advanced Computational Methods I | Marine Structures |
| Turbulence: Physics and modelling | Design Search and Optimisation (DSO) - principles, methods, parameterizations and case studies |
| Flow Control | Offshore Engineering and Analysis |
| Marine Structures in Fluids | |
| Core module: MSc Research Project | |
The maritime sector provides many and varied career opportunities in engineering and project management related roles. Maritime Engineering Science graduates are in strong demand with good starting salaries and excellent career progression opportunities.
Our graduates work across many different organisations. The Solent region around Southampton is the main UK hub for the maritime sector with organisations such as Lloyd’s Register, Carnival, BMT Nigel Gee, Maritime and Coastguard agency and many others based nearby. Organisations such BAE Systems, QinetiQ and Babcock support primarily the defence sector and employ a good number of our graduates. The offshore and marine renewable developments are offering excellent prospects both to work in the UK (locally, London or Aberdeen) or worldwide in places such as Singapore, Houston or Perth, etc.
Having successfully completed this programme you will be able to demonstrate knowledge and understanding of:
1. Detailed knowledge and understanding of the fundamental physical principles and concepts which underpin Maritime Engineering Science.
2. Knowledge and understanding of analytical, numerical and computational tools appropriate to the discipline of Maritime Engineering Science.
3. Awareness and understanding of the broader physical, commercial, regulatory and societal contexts in which Maritime Engineering Science takes place.
4. Understanding of information and communication technology relevant to the practice of Maritime Engineering Science.
5. A critical awareness of current problems and developments in Maritime Engineering Science, informed by the forefront of research within the field.
6. Detailed knowledge and understanding of essential facts, concepts and principles relevant to your chosen specialisation within the Maritime Engineering Science sector.
Content
The highlighted icons, represent the fields of education (in compliance with ISCED Classification) engaged during this course/programme.
Venue
Southampton, United Kingdom
Faculty of Engineering and the Environment
Boldrewood Campus
Application
Click here to apply: https://studentrecords.soton.ac.uk/BNNRPROD/bzsksrch.P_Search#_ga=1.80893335.181...
Cost:
<ul> <li>UK/EU: £ 9000</li> <li>International: £ 19.570</li> <li>Channel Islands: £ 9000</li> </ul> <p><a href="http://www.southampton.ac.uk/uni-life/fees-funding/pg-fees-funding/pg-fees/postgraduate-taught.page#m" target="_self">View the full list of course fees</a></p> <p>Students are responsible for meeting the cost of essential textbooks, and of producing such essays, assignments, laboratory reports and dissertations as are required to fulfil the academic requirements for each programme of study. <a href="http://www.southampton.ac.uk/engineering/postgraduate/taught_courses/engineering/msc_maritime_engineering_science_maritime_computational_fluid_dynamics.page#fees_%26amp%3B_funding">More information can be found here</a></p>
Prerequisites:
This MSc will suit engineering, mathematics and physical sciences graduates who wish to specialise in the maritime engineering science sector. The core modules are particularly relevant to the Maritime Computational Fluid Dynamics theme of this course.
Honours Degree
2:1 honours degree (or equivalent) or above in Marine Engineering, Naval Architecture, Ship Science, Aerospace Engineering, Mechanical Engineering, General Engineering, Electrical Engineering, Physics or Mathematics. Applicants with undergraduate degrees in Oceanography or Architecture, or applicants from Marine Academies may also be considered. Relevant employment experience would be considered if a candidate does not meet the formal qualifications requirements.
Equivalent Qualifications
Relevant employment experience would be considered if a candidate does not meet the formal qualifications requirements. We are always happy to receive applications from candidates with an equivalent standard in other qualifications approved by the University. If you are unsure about our entry criteria, please contact our admissions staff who would be happy to provide advice in advance of your application.
English Language requirements
If your first language is not English, we need to ensure that your listening, written and spoken English skills would enable you to enjoy the full benefit of your studies. For entry onto our programmes, you will need an International English Language Testing System (IELTS) score of 6.5 or an equivalent qualification.
Application Procedure:
To apply you need to complete and submit the online application form. You must also upload the following supporting documentation, preferably be in PDF format, as part of the application process:
- academic transcript
- degree certificate
- English language certificate (IELTS or equivalent) except those from English exempt countries
- CV and personal statement
- two reference letters.
Application Deadline: 31st July each year.
Grant Opportunities:
Scholarships, bursaries, sponsorships or grants may be available to support you through your course. Funding opportunities available to you are linked to your subject area and/or your country of origin. These can be from the University of Southampton or other sources.
Regulations:
This course is accredited by the Royal Institution of Naval Architects (RINA) and The Institute of Marine Engineering, Science and Technology (IMarEST) on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer.
Qualification
Assessment:
Testing of the knowledge base is through a combination of unseen written examinations and assessed coursework in the form of problem solving exercises, laboratory reports, design exercises, essays, and individual and group projects. Analysis and problem solving skills are assessed through unseen written examinations and problem based exercises. Experimental, research and design skills are assessed through laboratory reports, coursework exercises, project reports and oral presentations.
Analysis and problem solving skills are assessed through unseen written examinations and problem based exercises. Experimental, research and design skills are assessed through laboratory reports, coursework exercises, project reports and oral presentations.
Qualification: Master of Science
Credits:
Maritime Engineering Science is an MSc course designed for graduates, or similarly qualified, with an engineering, scientific or mathematical background, who desire to pursue a career in maritime sector. An introductory module is provided at the start to give students the fundamental knowledge necessary for them to succeed in the course. The masters course in Maritime Engineering Science / Maritime Computational Fluid Dynamics concentrates on the computational techniques and their applications to the predictions of fluid behaviour and its interactions with structure, core to the engineering in the maritime environment.
Computational fluid dynamics can transform a design and drastically reduce production costs. The course explores cutting-edge computational techniques and is ideal for physical sciences, engineering and mathematics graduates wanting to enter maritime engineering and seeking to specialise.
Programme Overview
The year will be divided into two semesters. Your compulsory modules will give you an in-depth understanding of CFD methodology, data interpretation and practical applications of numerical procedures. You will also study Application of CFD and advances in ship resistance and propulsion.
In each semester, you will have the chance to broaden your maritime engineering education by selecting option modules including flow control, offshore engineering analysis and design search and optimisation.
The last four months will be devoted to practical research. You will complete a final research project and take advantage of our world-class high performance computing facility for your CFD work as well as CFD test facilities to perform your experimental work.
| Semester 1 | Semester 2 |
| Compulsory Modules | Compulsory Modules |
| Applications of CFD | Marine Hydrodynamics |
| Advances in Ship Resistance and Propulsion | Marine Safety and Environmental Engineering |
| Fundmentals of Ship Science | |
| Optional Modules | Optional Modules |
| Finite Element Analysis in Solid Mechanics | Ship Manoeuvring and Control |
| Advanced Computational Methods I | Marine Structures |
| Turbulence: Physics and modelling | Design Search and Optimisation (DSO) - principles, methods, parameterizations and case studies |
| Flow Control | Offshore Engineering and Analysis |
| Marine Structures in Fluids | |
| Core module: MSc Research Project | |
To apply you need to complete and submit the online application form. You must also upload the following supporting documentation, preferably be in PDF format, as part of the application process:
- academic transcript
- degree certificate
- English language certificate (IELTS or equivalent) except those from English exempt countries
- CV and personal statement
- two reference letters.
Application Deadline: 31st July each year.
Testing of the knowledge base is through a combination of unseen written examinations and assessed coursework in the form of problem solving exercises, laboratory reports, design exercises, essays, and individual and group projects. Analysis and problem solving skills are assessed through unseen written examinations and problem based exercises. Experimental, research and design skills are assessed through laboratory reports, coursework exercises, project reports and oral presentations.
Analysis and problem solving skills are assessed through unseen written examinations and problem based exercises. Experimental, research and design skills are assessed through laboratory reports, coursework exercises, project reports and oral presentations.
The maritime sector provides many and varied career opportunities in engineering and project management related roles. Maritime Engineering Science graduates are in strong demand with good starting salaries and excellent career progression opportunities.
Our graduates work across many different organisations. The Solent region around Southampton is the main UK hub for the maritime sector with organisations such as Lloyd’s Register, Carnival, BMT Nigel Gee, Maritime and Coastguard agency and many others based nearby. Organisations such BAE Systems, QinetiQ and Babcock support primarily the defence sector and employ a good number of our graduates. The offshore and marine renewable developments are offering excellent prospects both to work in the UK (locally, London or Aberdeen) or worldwide in places such as Singapore, Houston or Perth, etc.
Having successfully completed this programme you will be able to demonstrate knowledge and understanding of:
1. Detailed knowledge and understanding of the fundamental physical principles and concepts which underpin Maritime Engineering Science.
2. Knowledge and understanding of analytical, numerical and computational tools appropriate to the discipline of Maritime Engineering Science.
3. Awareness and understanding of the broader physical, commercial, regulatory and societal contexts in which Maritime Engineering Science takes place.
4. Understanding of information and communication technology relevant to the practice of Maritime Engineering Science.
5. A critical awareness of current problems and developments in Maritime Engineering Science, informed by the forefront of research within the field.
6. Detailed knowledge and understanding of essential facts, concepts and principles relevant to your chosen specialisation within the Maritime Engineering Science sector.
This MSc will suit engineering, mathematics and physical sciences graduates who wish to specialise in the maritime engineering science sector. The core modules are particularly relevant to the Maritime Computational Fluid Dynamics theme of this course.
Honours Degree
2:1 honours degree (or equivalent) or above in Marine Engineering, Naval Architecture, Ship Science, Aerospace Engineering, Mechanical Engineering, General Engineering, Electrical Engineering, Physics or Mathematics. Applicants with undergraduate degrees in Oceanography or Architecture, or applicants from Marine Academies may also be considered. Relevant employment experience would be considered if a candidate does not meet the formal qualifications requirements.
Equivalent Qualifications
Relevant employment experience would be considered if a candidate does not meet the formal qualifications requirements. We are always happy to receive applications from candidates with an equivalent standard in other qualifications approved by the University. If you are unsure about our entry criteria, please contact our admissions staff who would be happy to provide advice in advance of your application.
English Language requirements
If your first language is not English, we need to ensure that your listening, written and spoken English skills would enable you to enjoy the full benefit of your studies. For entry onto our programmes, you will need an International English Language Testing System (IELTS) score of 6.5 or an equivalent qualification.
This course is accredited by the Royal Institution of Naval Architects (RINA) and The Institute of Marine Engineering, Science and Technology (IMarEST) on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer.
