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Fluid Dynamics PhD Projects, Programs & Scholarships in Glasgow

We have 12 Fluid Dynamics PhD Projects, Programs & Scholarships in Glasgow

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  Finite temperature superfluid turbulence flow-structure interactions via immersed boundary methods
  Dr D Kivotides
Applications accepted all year round

Funding Type

PhD Type

This is a multidisciplinary research project that combines the quantum physics of superfluid turbulence flows with advanced computational fluid dynamics for flow-structure interactions.
  Developing A Smart Venturi Wet-Gas Meters To Foster Efficient Gas Production And Digital Transformation
  Prof D McGlinchey, Dr S Smith, Dr G Chinello
Applications accepted all year round

Funding Type

PhD Type

SCEBE-20-020-DMSF. Wet gas metering is essential to enable optimized and cost-effective production of natural gas. There is demonstrably significant industrial demand for a smart metering device with diagnostic capabilities.
  Designing colloidal films and membranes with complex interactions
  Dr M Haw
Applications accepted all year round

Funding Type

PhD Type

Porous films and membranes are important for applications such as adsorbing, separating and storing gases, cleaning water and soils, sensor devices and many others.
  Developing a multiscale description of complex fluids from the molecular to the continuum scales
  Dr L Lue, Dr D Kivotides
Applications accepted all year round

Funding Type

PhD Type

Engineers have traditionally used continuum equations to model processes, such as the Navier-Stokes equation for fluid flow. These methods require constitutive relations that encode the properties of the fluid; these are typically determined empirically and have limited predictive capabilities.
  Direct numerical simulation of polymeric-fluid flows
  Dr D Kivotides, Dr P Grassia
Applications accepted all year round

Funding Type

PhD Type

Polymers and turbulence are two of the most difficult problems in statistical physics. In the past, the study of polymeric liquids was divided in two categories.
  Electroforming 4.0
  Prof S Roy
Applications accepted all year round

Funding Type

PhD Type

Electrochemical forming is a unique additive manufacturing method which uses electrochemical technologies to manufacture, layer-by-layer, parts of complex geometry.
  Foam improved oil recovery
  Dr P Grassia, Dr L Lue
Applications accepted all year round

Funding Type

PhD Type

Typically in oil and gas production, only a small fraction of the oil present manages to flow out of an oil reservoir under the reservoir’s own pressure.
  Nucleation of organic crystals in flows: Discover how organic crystals nucleate and how fluid flows can be used to influence this
  Prof J Sefcik, Dr M Haw
Applications accepted all year round

Funding Type

PhD Type

Nucleation is a birth of new crystals.
  Sustainable paper making using foam
  Dr P Grassia, Dr L Lue
Applications accepted all year round

Funding Type

PhD Type

Despite the advent of 21st century electronic communications, paper remains one of the most widely utilised materials in the world.
  Coherent and incoherent attosecond x-ray sources based on laser-plasma interactions
  Prof D Jaroszynski
Applications accepted all year round

Funding Type

PhD Type

PhDs are offered in an exciting and challenging research area, with a vibrant group of experimentalists and theoreticians developing and applying ultra-compact accelerators and x-ray sources based on laser-plasma interactions.
  From fines migration to filter cake formation and back again: state-of-the-art in situ observation to understand pore scale processes
  Dr K Dobson
Application Deadline: 1 October 2020

Funding Type

PhD Type

This project will use the latest 4D (3D + time) imaging methods to capture the porosity networks within the geological samples, and then track flow, and the transport of the suspended fine particles through that pore network.
  Advanced microscopy for blood flow field mapping in the heart
  Dr J Taylor, Prof A Harvey
Applications accepted all year round

Funding Type

PhD Type

A PhD studentship is available in the Imaging Concepts Group at Glasgow University, developing and applying advanced optical microscopy and computational imaging techniques to measure and study the blood flow and heart function in the developing zebrafish heart.
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