mezzatf

pore_impact_on_ppgd

This electrostatic model calculates the electric field distribution across the granite pores, thereby investigating the impact of the pore characteristics on the localized electric breakdown, which is responsible for the rock damage in the Plasma Pulse Geo Drilling process.

electropulse_stimulation_modeling

Modeling of electropulse induced damage

pamdi3d

Particle model for discharge simulation

plasma-Simulation-Zapdos

We are using [Zapdos code](https://github.com/shannon-lab/zapdos), based on [MOOSE] (https://mooseframework.org/), for simulating the plasma formation in rocks under a few hundred kilovolts. This is essential to understand the rock fracture mechanism under high voltage micropulse that has been achieved at different facilities.

plasmasolver

One dimensional plasma solver

pore_impact_on_ppgd

Numerical Modelling of Pore Characteristics in Plasma Pulse Geo Drilling using MOOSEFramework

pore_plasma_1D

thermal_spallation_model

thermal spallation model

zapdos

Open source Moose app for simulating low-temperature plasmas

mezzatf/plasma-Simulation-Zapdos

We are using [Zapdos code](https://github.com/shannon-lab/zapdos), based on [MOOSE] (https://mooseframework.org/), for simulating the plasma formation in rocks under a few hundred kilovolts. This is essential to understand the rock fracture mechanism under high voltage micropulse that has been achieved at different facilities.

mezzatf/electropulse_stimulation_modeling

Modeling of electropulse induced damage

mezzatf/pamdi3d

Particle model for discharge simulation

mezzatf/plasmasolver

One dimensional plasma solver

mezzatf/pore_impact_on_ppgd

Numerical Modelling of Pore Characteristics in Plasma Pulse Geo Drilling using MOOSEFramework

mezzatf/pore_plasma_1D

mezzatf/thermal_spallation_model

thermal spallation model

mezzatf/zapdos

Open source Moose app for simulating low-temperature plasmas