Abstract
At present, electrical energy is a very important factor in the productive chain of Industry 4.0, which is why guaranteeing the electrical supply, either by conventional energy or by clean energy, is mandatory for the utilities. The ampacity or current conduction capacity in underground cables can be mathematically modeled based on the thermal behavior of its elements, however, the availability of dedicated software that already has the programmed algorithm, helps make this task more efficient. Therefore, it is possible to determine with great accuracy the ampacity of lines that are currently in service. To minimize calculation errors with respect to those measured, parameters such as: characteristics of the power cable, configuration of the layout and grounding of the line, construction conditions and the surrounding environment, among others, must be recorded. In this chapter, an analysis of the sensitivity of ampacity with respect to the variability of the input parameters will be presented, in order to establish the statistical significance of the accuracy of the information.
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Jaramillo-Vacio, R., Cruz-Salgado, J., Ochoa-Zezzatti, A. (2022). Selection of Factors Influencing for Reliable Electrical Power Transmission Design in Industry 4.0. In: Ochoa-Zezzatti, A., Oliva, D., Hassanien, A.E. (eds) Technological and Industrial Applications Associated With Industry 4.0 . Studies in Systems, Decision and Control, vol 347 . Springer, Cham. https://doi.org/10.1007/978-3-030-68663-5_15
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DOI: https://doi.org/10.1007/978-3-030-68663-5_15
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