Non-Newtonian Club, 17th September 2021
Rheology of Multiphase Systems: Bubbles, Drops and Particles
We are delighted to announce the next annual Non-Newtonian Club meeting on the theme of“Rheology of multiphase systems: bubbles, drops and particles”. The meeting is organised by Mónica Oliveira, Konstantinos Zografos, Paul Grassia and Mark Haw at the University ofStrathclyde and will be hosted virtually on Zoom platform on Friday 17th September.
The Non-Newtonian Club (NNC) is an informal rheology discussion group, which provides halfday or one-day meetings with the aim of bringing together experienced and not-soexperienced rheologists from industry and academia. PhD students with an interest in rheology
are particularly encouraged to attend, as it is you who are the future of our discipline.
This meeting will include invited talks from:
• Ari Jäsberg and Tuomo Hjelt -- VTT Technical Research Centre of Finland Ltd
Rheology of the foams used in foam-aided chemical addition on a paper machine
• Isabelle Cantat – University of Rennes
Visco-elasticity of foam films - Local scale experimental study
• Nathanael Inkson -- Siemens Digital Industries Software
Multiphase Rheology in CFD
• Anke Lindner – ESPCI Paris PSL, Sorbonne Université, Université de Paris
Steering microscopic particles in viscous flows via shape and deformability
• Elizabeth Jamie -- Schlumberger Cambridge Research
Structure and rheology of a non-aqueous drilling fluid
• Adam Townsend -- Durham University
Microorganisms swimming through structured networks: from the point of view of
the microorganism
Registration:
The meeting is free to attend, but requires registration. To receive an invitation to the Zoom meeting, you will need to register via https://form.jotform.com/212382143215344.
REGISTRATION WILL CLOSE AT NOON on Wednesday 15th of September.
The British Society of Rheology (BSR) is a charitable society focused on the science of "the deformation of matter". The BSR's main objective is to promote the science and the
dissemination of knowledge in the areas of pure and applied rheology to all