At the heart of modern numerical weather forecasting and climate modelling lie simulations of two geophysical fluids: the atmosphere and the ocean. These endeavours rely on numerically solving the equations that describe these fluids. A key challenge is that the fluids contain motions spanning a range of scales. As the small-scale processes (unresolved by the numerical model) affect the resolved motions, they need to be described in the model, which is known as parametrisation. One major class of methods for numerically solving such partial differential equations is the finite element method. This thesis focuses on the coupling of such parametrised processes to the resolved flow within finite element discretisations. Four sets of research a...
We present an energy conserving space discretisation based on a Poisson bracket that can be used to ...
International audienceGeophysical models of the atmosphere and ocean invariably involve parameteriza...
We present an energy conserving space discretisation of the rotating shallow water equations using c...
This is the final version. Available on open access from Wiley via the DOI in this recordA promising...
This book introduces recently developed mixed finite element methods for large-scale geophysical flo...
A framework of variational principles for stochastic fluid dynamics was presented by Holm (2015), an...
This is the final version. Available from Oxford University Press via the DOI in this record.Compati...
Many fluid models share a common geometric structure which is usually ignored by the standard algori...
There is a current explosion of interest in new numerical methods for atmospheric modeling. A drivin...
A key part of numerical weather prediction is the simulation of the partial differential equations ...
The application of a new finite element (FE) technique for the solution of stratified, non-hydrostat...
Numerical weather, climate, or Earth system models involve the coupling of components. At a broad le...
Numerical computer models play a key role in Earth science. They are used to make predictions on tim...
The advance of massively parallel computing in the nineteen nineties and beyond encouraged finer gri...
Numerical weather, climate, or Earth system models involve the coupling of components. At a broad le...
We present an energy conserving space discretisation based on a Poisson bracket that can be used to ...
International audienceGeophysical models of the atmosphere and ocean invariably involve parameteriza...
We present an energy conserving space discretisation of the rotating shallow water equations using c...
This is the final version. Available on open access from Wiley via the DOI in this recordA promising...
This book introduces recently developed mixed finite element methods for large-scale geophysical flo...
A framework of variational principles for stochastic fluid dynamics was presented by Holm (2015), an...
This is the final version. Available from Oxford University Press via the DOI in this record.Compati...
Many fluid models share a common geometric structure which is usually ignored by the standard algori...
There is a current explosion of interest in new numerical methods for atmospheric modeling. A drivin...
A key part of numerical weather prediction is the simulation of the partial differential equations ...
The application of a new finite element (FE) technique for the solution of stratified, non-hydrostat...
Numerical weather, climate, or Earth system models involve the coupling of components. At a broad le...
Numerical computer models play a key role in Earth science. They are used to make predictions on tim...
The advance of massively parallel computing in the nineteen nineties and beyond encouraged finer gri...
Numerical weather, climate, or Earth system models involve the coupling of components. At a broad le...
We present an energy conserving space discretisation based on a Poisson bracket that can be used to ...
International audienceGeophysical models of the atmosphere and ocean invariably involve parameteriza...
We present an energy conserving space discretisation of the rotating shallow water equations using c...