About
Dr Joseph Banks is a Lecturer in Ship Science/Maritime Engineering at the 黑料社. He specialises in experimental and computational fluid dynamics with particular interests in high performance sport, fluid structure interactions and the performance of sailing and wind-assitsted ships.
Responsibilities:
Admissions Team for Maritime Engineering degree programs
Editorial Board member for Journal of Sailing Technology
Secretary of the 28th International Towing Tank Conference (ITTC) specialist committee 鈥楨nergy Saving Methods鈥
Member of the 29&30th International Towing Tank Conference (ITTC) specialist committees 鈥楥ombined CFD/EFD methods鈥
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Research
Research interests
- Performance sport engineering;
- Experimental methods for fluid structure interaction problems;
- Performance of sailing vessels and wind assited ships;
- Numerical methods for determining resistance and propulsion.
Current research
Performance sport engineering
I work closely with the UK Sports Institute (UKSI) to improve athletes鈥 performance through a greater understanding of the physical mechanisms of resistance and propulsion. This research mainly focuses on the sports of Swimming, Sailing, Rowing and Bob-skeleton and supports British Athletes at the Olympic games.
Performance of sailing vessels and wind-assisted ships
My personal interest in the sport of sailing means that I have keen professional interest in understanding the physics behind a yacht鈥檚 performance and how we can use the wind to reduce the emmisions from commercial ships. This predominantly focuses of the fluid dynamics involved in sailing, from the aerodynamic forces that propel the vessel forward to the hydrodynamic forces generated by the hull, keel, rudder, propeller or hydrofoils.
I am currently leading the 2 year innovate UK funded research program 'Winds of Change' with Smart Green Shipping Ltd to install their FastFig wing sails on a ship for the first time.
Experimental methods for fluid structure interaction problems
Increased use of composite materials is leading to more flexible structures being designed to operate in a marine environment (for example composite propellers and hydrofoils). The ability to quantify the impact of structural deformations is crucial to maximising their performance. Developing experimental methods for measuring the structural deformations (such as Digital Image Correlation) can be combined with flow field measurements (such as Particle Image Correlation) to understand how the fluid and structure interact.
Numerical methods for determining resistance and propulsion
Computational fluid dynamics allows detailed simulations of the flow structures that develop around a body moving through the water. This allows the physical causes of different resistance components and propulsive mechanisms to be quantified and their interactions understood. These techniques can be used to help improve the efficiency of a commercial ship, the performance of lifting surfaces in sailing or minimise a swimmer鈥檚 drag.
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Current research
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Supervision
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Teaching
SESS3027: Module lead for 鈥榊acht and high performance craft鈥
SESS6067: 鈥楻enewable energy from environmental flows鈥
SESS6063: 鈥楢dvances in Ship Resistance and Propulsion鈥 鈥 Towing tank lab coordinator
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Courses and modules
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Biography
I graduated from the 黑料社 in 2009 with a First Class degree in Ship Science (Yacht and Small Craft). Growing up as a keen sailor this combined my passion for yachts with my technical curiosity of how to improve performance.
I continued to study for a PhD working with British Swimming and UK Sport during the build-up to the London 2012 Olympic Games. This work developed experimental tools for coaches and athletes to use in a pool environment and numerical simulations investigating the resistance components of a swimmer.
Following my PhD I worked as a research fellow developing experimental methods for assessing the performance of passive adaptive composite structures. I continued to work closely with elite sports and now lead the University鈥檚 research partnership with the UK Sports Institute (UKSI).
My research primarily focuses on the fluid dynamics involved in the resistance and propulsion of ships, yachts, athletes and their equipment (including swimming, sailing and rowing).
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Prizes
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