Master dissertation for HIT (SUSTech)
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Updated
Jun 21, 2018 - TeX
Master dissertation for HIT (SUSTech)
This project used convolutional neural networks to predict the steady-state concentration of 3D porous media, and subsequently calculates the tortuosity. This package includes data generation, processing, training, and post-processing functions. The loss function includes a Laplacian loss, which is a physics-informed loss.
Seminar about the Topic of Imbibition and Porous Media Flow
2D image analysis tool tailored for additively manufactured lattice structures
Code corresponding to paper "Robust time-discretisation and linearisation schemes for singular and degenerate evolution systems modelling biofilm growth" implemented in python using FEniCSx. It covers the biofilm model and the porous medium equation.
Random Porous Media Generator 2D(R.P.M.G. 2D). It is an open source software based on GNU Octave that produces a 2D random porous media with the same and specific characteristics.
This project is about generating 3D microstructure images with specified porosity and surface area values.
Github Pages template for academic personal websites, forked from mmistakes/minimal-mistakes
PaperVision: Immersive Visualization of Porous Materials and Their PNMs
Pore-scale reactive-transport simulator developed as part of my PhD project.
the drunkard particle system simulator
Acoustic design exploration and material property identification for porous structures
Image-based Throat Permeability Model for flow in porous media
Porous Media Theory - a summary from a detailed literature review extracted from my PhD thesis
Modeling multiphase flow in fractured porous media using DARTS: a simple DFM example. See https://darts.citg.tudelft.nl/ for more information
A MATLAB-based tool used for generating 2D complex and geologically significant fracture networks. Originally developed as part of the master thesis of Andrea Sartori (http://resolver.tudelft.nl/uuid:d20ab3d6-a63d-41b2-b74d-198a3f3f44c5) and later extended by Stephan de Hoop (https://doi.org/10.2118/203968-ms).
SOFTBALL: SOlidification, Flow, and Thermodynamics in Binary ALLoys. A code for simulating convection in mushy layers with Adaptive Mesh Refinement.
Simulating fractures in heterogenous media using Random Walk approach
Fortran 90 source code, example problems, and output conversion scripts for the STOMP-W simulator.
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