Differential Equations
Below are the InFoMM Mini-projects that fall within the mathematical area of differential equations. To read more about each project please click on the title, this will open the project's lay report:
- Behaviour of bifurcating systems with parameter distribution (AstraZeneca)
- Homogenisation approaches for non-static microscale structures (USACE)
- A critical analysis of the cereal extrusion process (Nestlé)
- Degradation of Lithium-ion Batteries (Siemens)
- Drying of Quantum Dot Suspensions (Sharp)
- Effective thermal conductivity in bulk materials at high temperatures (Teknova)
- Electrical current distribution model for a silicon furnace (Elkem)
- Flow field description and droplet entry into Pitot tubes (Thales)
- Fluid and particle dynamics in blenders and food processors (SharkNinja)
- Fluid dynamics of VETT design (VerdErg)
- Heat and mass transfer in a collective of roasting coffee beans (Jacobs Douwe Egberts)
- Heat Dissipation in Superconducting Wires (Siemens)
- Homogenisation of agents and cleansers interacting on the microscale (DEFRA)
- Hydrodynamics and species transport during Gel formation for converging flows (Schlumberger)
- Injection of fines (Elkem)
- Integrated fluid management for urological scopes (Boston Scientific)
- Ion Transport in Liquid Crystal Devices (Merck)
- Mathematical Modelling of dissolving alumina lumps (Norsk Hydro)
- Mathematical modelling of unsteady flows through a ureteroscope (Boston Scientific)
- Mechanistic models for the deposition of advanced glycation end-products (AGEs) in the cornea and lens of the eye (Lein Applied Diagnostics)
- Metallurgical scale-up: Metal droplets in slag (Teknova)
- Modelling decontamination of two-dimensional spills (DEFRA)
- Modelling for Multi-Morbidity (Biosensors Beyond Borders)
- Modelling lead-acid batteries for off-grid energy storage systems in Sub-Saharan Africa (BBOXX)
- Modelling Microsilica particle formation and growth (Elkem)
- Modelling of carbon paste baking (Teknova)
- Modelling of freezing processes in pipes (Sharp)
- Modelling paste flow and segregation in high performance Søderberg electrodes (Elkem)
- Modelling solidification of silicon (Teknova)
- Modelling the extraction of sulphur dioxide from natural gas (Gore)
- Modelling the inner structure in a silicon furnace (Teknova)
- Modelling the thermal cracking of composite electrodes (Elkem)
- More Accurate Optical Measurements of the Cornea (Lein Applied Diagnostics)
- Oil droplet formation using dispersants (BP)
- Oxygen profile in the ‘CXP1’ organoid expansion bioreactor (Cellesce)
- Parameter estimation by dynamic indentation of materials (TapTools)
- Penetration of a liquid agent into a polymer (Government Decontamination Service)
- Pore Blocking by Clay Fines (BP)
- Prediction of bulk properties from microstructure (NPL)
- Reflections from curved reflective buildings (ARUP)
- Roasting of a single coffee bean (Jacobs Douwe Egberts)
- Sodium intercalation into hard carbon (Sharp)
- Stress distributions in silicon electrodes during lithiation (Nexeon)
- Swarm robotics in bearing only formations (Leonardo)
- Ternary phase diagrams for water/brine/surfactant mixtures (Schlumberger)
- Thermal electrical behaviour of a calciner (Teknova)
- Thermo-viscous effects in shaping glass (Schott AG)
- Clogging Mechanisms in Silicon Tapping (Elkem)
- Stability of the Danner Process (Schott)
- Oxygen concentration in the CXP1 bioreactor (Cellesce)
- Dynamic flapping in a moving fluid (Animal Dynamics)
- Clearance paradigms for network models of prion-like proteopathy development throughout the brain (Simula)
- Carding of Recycled Carbon Fibres (ELG Carbon Fibre)
- Measuring Octane Number in Fuels (BP)
- Clogging of Charge in Silicon Furnaces (Elkem)
- Modelling of Laser-Induced Cavitation Bubbles for Ureteroscopy