A model to calculate the current–temperature relationship of insulated and jacketed cables
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hdl:2117/374502
Document typeArticle
Defense date2022-09-30
PublisherMultidisciplinary Digital Publishing Institute (MDPI)
Rights accessOpen Access
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Abstract
This paper proposes and validates using experimental data a dynamic model to determine the current–temperature relationship of insulated and jacketed cables in air. The model includes the conductor core, the inner insulation layer, the outer insulating and protective jacket and the air surrounding the cable. To increase its accuracy, the model takes into account the different materials of the cable (conductor, polymeric insulation and jacket) and also considers the temperature dependence of the physical properties, such as electrical resistivity, heat capacity and thermal conductivity. The model discretizes the cable in the radial direction and applies the finite difference method (FDM) to determine the evolution over time of the temperatures of all nodal elements from the temperatures of the two contiguous nodes on the left and right sides. This formulation results in a tri-diagonal matrix, which is solved using the tri-diagonal matrix algorithm (TDMA). Experimental temperature rise tests at different current levels are carried out to validate the proposed model. This model can be used to simulate the temperature rise of the cable when the applied current and ambient temperature are known, even under short-circuit conditions or under changing applied currents or ambient temperatures.
CitationRiba, J.; Llauradó, J. A model to calculate the current–temperature relationship of insulated and jacketed cables. "Materials", 30 Setembre 2022, vol. 15, núm. 19, article 6814, p. 1-16.
ISSN1996-1944
Publisher versionhttps://www.mdpi.com/1996-1944/15/19/6814
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