|UK Students, EU Students, International Students
|Funding for tuition fees and a living stipend are available on a competitive basis
|28th November 2023
|28th February 2024
PhD Supervisor: Ivo Peters
Supervisory Team: Ivo Peters, John Shrimpton
When a gas surrounded by a liquid film flows out of a coaxial nozzle, the stream can spontaneously deform into liquid shells: bubbles of air trapped in a layer of liquid. Under the right circumstances, these liquid shells are highly reproducible and can form at a very high rate, up to thousands of liquid shells per second. This makes them highly desirable for industrial applications where hollow spherical objects need to be produced. Example application areas are encapsulation for pharmaceuticals, 3D printing of foam structures, shells for inertial confinement fusion, and even novel shower systems.
Despite this vast range of applications, how these liquid shells are formed, and what conditions are required, is not fully understood. A better understanding is needed in order to address specific application requirements. For example, the cost of a pharmaceutical product could be reduced by increasing the production rate, but this should be balanced by the potential negative impact on the reproducibility. Addressing this balance requires a thorough understanding of how the production rate influences reproducibility, and which nozzle geometry would be best suited for such a specific application.
In this project you will experimentally investigate the formation of liquid shells from coaxial nozzles. Nozzle can be machined and 3D-printed using different materials, and visualization will be done using state-of-the-art high-speed cameras.
The candidate should have a degree in physical sciences or engineering and have an interest in fluid dynamics. You will join an enthusiastic, friendly, and supportive team of PhD students and postdocs that all work on different experimental and numerical fluids projects within the Aerodynamics and Flight Mechanics Research Group. You will further be interacting with an industrial partner that will support the research.
A very good undergraduate degree (at least a UK 2:1 honours degree, or its international equivalent).
Closing date: 31 August 2024
Funding for tuition fees and a living stipend are available on a competitive basis. Funding will be awarded on a rolling basis, so apply early for the best opportunity to be considered.
How To Apply
Apply online: Search for a Postgraduate Programme of Study (soton.ac.uk). Select programme type (Research), 2024/25, Faculty of Engineering and Physical Sciences, next page select “PhD Engineering & Environment (Full time)”. In Section 2 of the application form you should insert the name of the supervisor Ivo Peters
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