Electricity Networks

This section provides tutorials on how to model a electric power flow system in SAInt. Case studies and use cases are available at the following link Electricity Networks:

  1. Power flow: Run an AC three-phase balanced power flow simulation.

  2. Optimal power flow: Run an AC optimal power flow dispatch model.

  3. Unit commitment and economic dispatch: Run nodal and zonal security constrained unit commitment and economic dispatch optimization models using DCUCOPF or transport-based transmission representation.

  4. Generation, storage, demand, transmission, and distribution: Model constraints and costs of different power system assets, including generators, lines, transformers, storage devices, and demands.

  5. Probability analyses: Perform reliability studies and risk assessments by evaluating 1,000s of scenarios using SAInt’s flexibility to run Monte-Carlo simulations.

  6. Wind and solar variability: Model electricity generation profiles of wind and solar plants by leveraging SAInt’s integration with high spatial- and temporal-resolution meteorological datasets.