InFoMM Cohort One
Graham Benham
Research Project:
Mini-Projects:
- Modelling solidification of silicon (Elkem & Teknova)
- Fluid dynamics of VETT design (Verderg)
Niall Bootland
Research Project:
- Scalable Two-Phase Flow Solvers (US Army Corps of Engineers)
Mini-Projects:
- Block preconditioning for incompressible two-phase flow (US Army Corps of Engineers & HR Wallingford)
- Blind source separation (Selex)
Ferran Brosa Planella
Reserach Project:
Mini-Projects:
- Modelling of freezing processes in pipes (Sharp)
- Parameter estimation by dynamic indentation of materials (Solitonik)
Nabil Fadai
Research Project:
-
Multiphase Modelling of Coffee Bean Roasting (Jacobs Douwe Egberts)
Mini-Projects:
- Roasting of a single coffee bean (Jacobs Douwe Egberts - formerly Mondelez)
- Heat dissipation in superconducting wires (Siemens)
Helen Fletcher
Research Project:
- High Resolution Computational Wave Flume (US Army Corps of Engineers)
Mini-Projects:
- Sodium intercalation into hard carbon (Sharp)
- Active wave absorption for polychromatic waves (US Army Corps of Engineers & HR Wallingford)
Jane Lee
Research Project:
Mini-Projects:
- Metallurgical scale-up: Metal droplets in slag (Eramet & Teknova)
- FE solvers for pressure and temperature equations (PDS)
Roxana Pamfil
Research Projects:
- Community Structure in Product-Purchase Networks (dunnhumby)
Mini-Projects:
- Community structure in product-purchase networks (dunnhumby)
- Pulse Clustering Using Probabilistic Methods (Thales)
Rachel Philip
Research Project:
Mini-Projects:
- Oil droplet formation using dispersants (BP)
- Source reconstruction from hydrophone data (NPL)
Asbjørn Nilsen Riseth
Research Project:
- Decisions Under Uncertainty for Price Management (dunnhumby)
Mini-Projects:
- Improvement of nonlinear solver for reservoir simulation (Schlumberger)
- Optimisation under uncertainty (dunnhumby)
Ben Sloman
Research Project:
Mini-Projects:
- Modelling the inner structure in a silicon furnace (Elkem)
- MLMC for 1-D edge plasma fluid model (CCFE)
For More Information
Contact Sophie Hurden or call +44 (0)1865 611512