Electric power transmission is looking for new alternative technologies to overcome traditional overhead and cable lines limits. Gas Insulated Transmission Lines (GIL) represent an excellent future opportunity to increase power capability and to solve problems due to the electromagnetic field. A multiconductor approach is extremely useful for a detailed analysis of GIL. The paper shows the general matrix algorithm to face such a system. The authors highlight steady-state regime and faulty conditions performances, demonstrating high power ratings, low losses and almost null environmental impact. Nowadays offers by technical developers are praiseworthy.
GAS INSULATED TRASMISSION LINES: EXCELLENT PERFORMANCE AND LOW ENVIRONMENTAL IMPACT
BENATO, ROBERTO;
2000
Abstract
Electric power transmission is looking for new alternative technologies to overcome traditional overhead and cable lines limits. Gas Insulated Transmission Lines (GIL) represent an excellent future opportunity to increase power capability and to solve problems due to the electromagnetic field. A multiconductor approach is extremely useful for a detailed analysis of GIL. The paper shows the general matrix algorithm to face such a system. The authors highlight steady-state regime and faulty conditions performances, demonstrating high power ratings, low losses and almost null environmental impact. Nowadays offers by technical developers are praiseworthy.
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