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Pumping_Test_Interpretation_with_Python
This is a Python (version 2 or 3) script to aid in the interpretation of aquifer pumping tests using the Theis (1935) and Hantush and Jacob (1955) solutions for confined and leaky confined aquifers, respectively, as well as a simple numerical method-of-lines solution for an unconfined aquifer with wellbore storage.Coupled_gas_water_flow_and_transport_porous_media
This Julia language (version 0.5) script solves the coupled partial differential equations associated with (1) compressible gas flow in partially water-saturated porous media, (2) partially-saturated flow of water (essentially amounting to a solution of the Richards equation using the Van Genuchten equations for capillarity and relative permeability), and (3) advective-dispersive transport of both aqueous-phase solutes and gas components in the respective media.Coupled_gas_water_transport_with_geochemistry
A two-phase (water + gas) reactive transport model, written in Julia, that also simulates geochemical reactions between water-gas-mineral phases via a link with PHREEQC.Monte_Carlo_atmospheric_plume
Air plume dispersion model, written in R - Monte Carlo mode enables multiple realizationsUnsaturated_Flow_2D_Steady-state
This script, written in Julia (v. 1.0), solves the steady-state form of the Richards equation for variably-saturated flow in porous media in a two-dimensional vertical cross section.RBF-based_correlated_random_field_generator
This is a streamlined python 3 script for generating spatially-correlated random fields in 2-D or 3-D using a radial basis function interpolator.random_field
Python-based script for generating realistic-looking correlated random fields in 2-D or 3-D; includes a tkinter-based user interfaceTheis_Well_Field_Drawdown
This python script uses scipy functionality (special function + spatial classes) to calculate the drawdown associated with a pumping well field according to the Theis equation.vadose_multiphase
A python script for modeling 1-D multiphase flow, based on a method-of-lines approach to solving a modified form of the Richards equationanalytical_element_model
Analytic element groundwater model, written in python, that uses a leaky aquifer solution and can model faults, wells, and line injectorsgroundwater_chem_data_explorer
A simple python script for processing and analyzing a large, multi-parameter groundwater quality data setSimplified_surface_water-groundwater_screening_model
This python script models the transient flow of water through a network of connected stream reaches of differing slopes and widths in accordance with the Manning equation, also accounting for discharge through the stream bed to underlying groundwater.MFP
3-D multiphase flow model, written in D-language, plus sample input filesPartially_saturated_groundwater_flow_model_in_julia
This julia script is a complete groundwater flow model based on the integral finite difference method.water_gas
Python script to model coupled flow of water and gas phases in 1-D, variable-geometry porous mediaNumerical_Solver_in_Python_for_Soil_Infiltration_Tests
This is a short Python 3 script that uses the SciPy package’s integrate.odeint method to solve a set of coupled ordinary differential equations approximating the infiltration of a wetting front into unsaturated soil.Python_Script_for_Statistical_Resampling_and_Modeling_of_Multivariate_Water_Quality_Data
This special-purpose Python script reads a multivariate water quality data set, generates a larger synthetic data set with matching parameter probability distributions and pairwise correlations, and runs PHREEQC speciation simulations on the synthetic data.Facilitator_scripts_for_reactive_flow_through_fractured_rock_with_PHREEQC
This repository contains python scripts for pre- and post-processing PHREEQC simulations for flow through a dual-porosity column, emulating reactive transport through fractured porous media.1-D-diffusion
Julia script for modeling 1-D gaseous diffusion in porous media with fixed boundary conditionsHeuristic_model_for_aquifer-aquitard_structures_in_fluvial_environments
This julia script models the formation of aquifer-aquitard structures in a fluvial setting.Diamond-Square_Terrain_and_3D_Lattice_Generation_with_Python_and_Pandas
This is a relatively short python script (works with versions 2 or 3) for generating fractal surfaces or volumes, starting with an arbitrary initial lattice.USG_python
A single-layer, unstructured grid finite-difference groundwater flow model, written in pythonLeaky_Aquifer_Analytical_Model_for_Gas_Flow
This Python script models the steady-state pressure distribution and gas mass fluxes associated with operation of a soil vapor extraction (SVE) system in a leaky aquifer setting.A_Prototype_Lake_Package_for_Solute_Transport_Modeling_with_PHAST
This Python script provides a limited groundwater-lake water interaction modeling capability to the U.S. Geological Survey’s PHAST reactive transport model.Numerical_Toolkit_for_Approximating_Groundwater_Flow_Field_from_Scattered_Data
This Julia script imports and interpolates scattered hydraulic head and hydraulic conductivity data (for a single-layer aquifer) using ordinary kriging.VOC_Plume_Meta-analysis_with_Python
This is a python script I have written to read and parse a large groundwater quality database (tens of thousands of wells, with hundreds of thousands of sample events) into individual groundwater plumes, subject to subsequent spatial analyses to develop a simple set of plume metrics.Love Open Source and this site? Check out how you can help us