Virtual Integrated Battery Environment (VIBE): Version 1.2 Release Documentation

Srikanth Allu, Jay Jay Billings, Wael R. Elwasif, Sergiy Kalnaus, Abhishek Kumar, Damien T. Lebrun-Grandie, Alex McCaskey, Sreekanth Pannala, Srdjan Simunovic, Robert W. Smith, Bruno R. Turcksin, John A. Turner

Research output: Book/ReportCommissioned report

Abstract

As part of the CAEBAT (Computer Aided Engineering for Batteries) activities, ORNL developed a flexible, robust, and computationally scalable open-architecture framework that integrates multi-physics and multi-scale battery models. The physics phenomena of interest include charge and thermal transport, electrochemical reactions, and mechanical stresses. They operate and interact across the porous 3D structure of the electrodes (cathodes an d anodes), the solid or liquid electrolyte system and the other battery components. The underlying lower-length processes are accounted for through closure equations and sub-models that are based on resolved quantities.
Original languageEnglish
Place of PublicationUnited States
DOIs
StatePublished - 2016

Keywords

  • 25 ENERGY STORAGE

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