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  1. SOEC-Cell-First-Principles-Modeling SOEC-Cell-First-Principles-Modeling Public

    Cell-level, first-principles electrochemical modeling of Solid Oxide Electrolysis Cells (SOEC) for hydrogen production at lab scale (IDAES/Pyomo + opyrability).

    Jupyter Notebook

  2. SOEC-Stack-Flowsheet-TEA SOEC-Stack-Flowsheet-TEA Public

    Stack/system-level flowsheet model and techno-economic analysis (Monte Carlo) of HT-SOEC hydrogen production at industrial scale, with Underground Hydrogen Storage (UHS).

    Jupyter Notebook

  3. TEA-Interactive-Model TEA-Interactive-Model Public

    Python 1

  4. IDAES---SOEC-Operability-mapping IDAES---SOEC-Operability-mapping Public

    Jupyter Notebook

  5. Publications-and-Dissertation Publications-and-Dissertation Public

    PhD dissertation (WVU, 2026) and peer-reviewed publications on electrolyzer modeling, process operability analysis, and techno-economic optimization for green hydrogen production.

  6. lithium-ion-cell-modeling lithium-ion-cell-modeling Public

    Physics-based electrochemical modeling of lithium-ion cells in Python: a from-scratch DFN/SPM solver, parameter estimation, and thermal, degradation, and design studies, validated against PyBaMM.

    Jupyter Notebook 1