Energies (May 2023)

Impacts of Atmospheric and Load Conditions on the Power Substation Equipment Temperature Model

  • Osni Silva Junior,
  • Jose Carlos Pereira Coninck,
  • Fabiano Gustavo Silveira Magrin,
  • Francisco Itamarati Secolo Ganacim,
  • Anselmo Pombeiro,
  • Leonardo Göbel Fernandes,
  • Eduardo Félix Ribeiro Romaneli

DOI
https://doi.org/10.3390/en16114295
Journal volume & issue
Vol. 16, no. 11
p. 4295

Abstract

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Infrared thermography is a predictive maintenance tool used in substations to identify a disturbance in electrical equipment that could lead to poor operation and potential failure in the future. According to Joule’s law, the temperature of electrical equipment is proportional to the current flowing through it. Other external factors, such as solar incidence, air humidity, wind speed, and air temperature, can interfere with its operating temperatures. Based on this premise, this article aims to analyze the influence of atmospheric and load conditions on the operational cycle of thermography-monitored equipment in order to describe the operating temperature of the object using only external data and to show the impacts of external influences on the final temperature reached by the object. Five multivariate time series regression models were developed to describe the maximum equipment temperature. The final model achieved the best fit between the measured and model temperature based on the Akaike information criterion (AIC) metric, where all external variables were used to compose the model. The proposed model shows the impacts of each external factor on equipment temperature and could be used to create a predictive maintenance strategy for power substations to avoid failure.

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