Royal Society Open Science (Dec 2020)

Linear parameter-varying model for a refuellable zinc–air battery

  • Woranunt Lao-atiman,
  • Sorin Olaru,
  • Sette Diop,
  • Sigurd Skogestad,
  • Amornchai Arpornwichanop,
  • Rongrong Cheacharoen,
  • Soorathep Kheawhom

DOI
https://doi.org/10.1098/rsos.201107
Journal volume & issue
Vol. 7, no. 12

Abstract

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Due to the increasing trend of using renewable energy, the development of an energy storage system (ESS) attracts great research interest. A zinc–air battery (ZAB) is a promising ESS due to its high capacity, low cost and high potential to support circular economy principles. However, despite ZABs' technological advancements, a generic dynamic model for a ZAB, which is a key component for effective battery management and monitoring, is still lacking. ZABs show nonlinear behaviour where the steady-state gain is strongly dependent on operating conditions. The present study aims to develop a dynamic model, being capable of predicting the nonlinear dynamic behaviour of a refuellable ZAB, using a linear parameter-varying (LPV) technique. The LPV model is constructed from a family of linear time-invariant models, where the discharge current level is used as a scheduling parameter. The developed LPV model is benchmarked against linear and nonlinear model counterparts. Herein, the LPV model performs remarkably well in capturing the nonlinear behaviour of a ZAB. It significantly outperforms the linear model. Overall, the LPV approach provides a systematic way to construct a robust dynamic model which well represents the nonlinear behaviour of a ZAB.

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