Freitag C, Weindl C, Mladenovic I (2010)
Publication Type: Conference contribution
Publication year: 2010
Pages Range: Report 437
Conference Proceedings Title: International Conference on Renewable Energies and Power Quality ICREPQ '10
Event location: Granada (Spanien)
DOI: 10.24084/repqj08.437
The Power quality of our networks is influenced by transients, short- and long-duration variations, voltage unbalance, waveform distortions, voltage fluctuations and power frequency variations. These impacts affect the aging rapidity of the electrical equipment and finally the entire electrical network. By partial discharge (PD) and tan(δ) analyses, it is possible to determine the electrical equipment’s condition. The significance of the results depends on the quality of the measurement system and of the data interpretation. Based on these results, a reliable maintenance and investment strategy could be made, and the reliability of the network could be improved. A specially designed aging system for the accelerated aging of MV cables has been developed to point out the most relevant aging parameters and their limits, and, in this way, to upgrade the accuracy of the MV cable diagnostics. In this paper, the system’s “intelligence”, which controls the aging process and acquires, evaluates and stores all necessary data is presented.
APA:
Freitag, C., Weindl, C., & Mladenovic, I. (2010). Fully Automated MV Cable Monitoring and Measurement System for Multi-Sample Acquisition of Artificial Aging Parameters. In International Conference on Renewable Energies and Power Quality ICREPQ '10 (pp. Report 437). Granada (Spanien).
MLA:
Freitag, Christian, Christian Weindl, and Ivana Mladenovic. "Fully Automated MV Cable Monitoring and Measurement System for Multi-Sample Acquisition of Artificial Aging Parameters." Proceedings of the International Conference on Renewable Energies and Power Quality ICREPQ '10, Granada (Spanien) 2010. Report 437.
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