To develop numerical models and computational tools to simulated quantify the physics of Earth and Early Solar system development.
My current model uses multiphase fluid dynamics and thermochemical laws to quantify rapid core formation in planetesimals. Computational numerical models are invaluable tools for planetary and earth science, which can link small scale physical sample analyses to global scale geodynamic processes.
BSc. Geology, University of Manchester (2019)
MSc by research. Volcanology, Durham University (2020)
PhD Computational Earth Science – University of Glasgow – ongoing
Numerical modelling of melting and magmatic differentiation in planetesimals.
Numerical modelling, Planetary Science, Magma fluid dynamics, Multiphase fluid dynamics.
Conference talks:
2D FOUR-PHASE NUMERICAL MODELLING OF THE MELTING AND DIFFERENTIATION OF PLANETESIMALS
FM Bintang, T Keller, L Daly
METSOC (2022)
2D Four-Phase Numerical Modelling of Percolation-and Rainfall-Driven Core Formation in Planetesimals
FM Bintang, T Keller, L Daly
LPSC (2022)