Interactive Modeling & Simulation Tools

Computational tools for microbial electrochemical systems research. Bridge experimental data with mathematical models using real-time visualization and parameter export for COMSOL, MATLAB, and other platforms.

Research-Ready Tools

Comprehensive tools that combine multiple features for complete research workflows

MFC Design Assistant

available

Comprehensive tool for MFC design combining kinetics, scaling, and economic analysis in one interface.

Key Features:

Butler-Volmer kinetics
Scale-up analysis
Economic modeling
Parameter export

Performance Predictor

available

AI-powered performance prediction with parameter sweep optimization and database comparison.

Key Features:

Parameter sweeps
Biofilm modeling
Database comparison
ML predictions

Economic Dashboard

available

Investment-grade financial analysis with TEA, sensitivity analysis, and technology comparison.

Key Features:

TEA calculations
NPV/IRR analysis
Technology comparison
Pitch deck export

Individual Components

Standalone simulation components for specific modeling needs

Electrode KineticsReady

Interactive Butler-Volmer Kinetics

Real-time visualization of electrode kinetics with parameter export for COMSOL/MATLAB. Interactive sliders for exchange current density, transfer coefficient, and overpotential with Tafel approximation comparison.

For computational researchers

Launch Tool →

Biofilm ModelingReady

Biofilm Growth Simulator

Time-lapse biofilm development with electron transfer visualization. Interactive parameters for substrate concentration, shear force, temperature, and different microbial species with conductivity analysis.

For computational researchers

Launch Tool →

Parameter FittingBeta

Model Parameter Fitter

Automatic parameter fitting from experimental data using Levenberg-Marquardt algorithm. Upload CSV data, select model templates, and export fitted parameters with sensitivity analysis for computational models.

For computational researchers

Launch Tool →

Built for Computational MES Research

Experimental Integration

Upload experimental data (CSV/JSON) and automatically fit parameters to validated mathematical models used by researchers like Cristian Picioreanu.

Real-Time Visualization

Interactive WebGL-powered visualizations of biofilm growth, electron transfer mechanisms, and electrochemical kinetics with scientific accuracy.

Model Export

Export fitted parameters and model configurations directly to COMSOL, MATLAB, ANSYS, and other computational platforms.

Research Focus: These tools implement validated models from leading MES researchers including Jorge Rodríguez, Miriam Rosenbaum, and support the computational workflows used in top-tier research institutions.