Energies (Aug 2023)

Advances in the Co-Simulation of Detailed Electrical and Whole-Building Energy Performance

  • Stephen Frank,
  • Brian Ball,
  • Daniel L. Gerber,
  • Khanh Cu,
  • Avpreet Othee,
  • Jordan Shackelford,
  • Omkar Ghatpande,
  • Richard Brown,
  • James Cale

DOI
https://doi.org/10.3390/en16176284
Journal volume & issue
Vol. 16, no. 17
p. 6284

Abstract

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This article describes recent co-simulation advances for the simultaneous modeling of detailed building electrical distribution systems and whole-building energy performance. The co-simulation architecture combines the EnergyPlus® engine for whole-building energy modeling with a new Modelica library for building an electrical distribution system model that is based on harmonic power flow. This new library allows for a higher-fidelity modeling of electrical power flows and losses within buildings than is available with current building electrical modeling software. We demonstrate the feasibility of the architecture by modeling a simple, two-zone thermal chamber with internal power electronics converters and resistive loads, and we validate the model using experimental data. The proposed co-simulation capability significantly expands the capabilities of building electrical distribution system models in the context of whole-building energy modeling, thus enabling more complex analyses than would have been possible with individual building performance simulation tools that are used to date.

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