Efficient Ways and Means of Reliability Increase of Distribution Networks

Felix Byk; Lyudmila Kazakova

doi:10.4028/www.scientific.net/AMM.792.280

Paper Titles

Improving of Energy Measurements Reliability Using Weighted and Normalized Residual Analysis
p.255

Problem of Reliability, Verification of Electrical Power Systems Simulation and Ways of Solving it
p.261

Fixing Magnetically Operated Sealed Switches of Current Protections in Closed Electrical Pathways of Electrical Installations at 6-20 kV
p.267

Development of Calculation Methodology of Thermal Equivalent Circuit’s Parameters for Predicting Temperature of High Voltage Cable Lines 110 - 500 kV
p.272

Efficient Ways and Means of Reliability Increase of Distribution Networks
p.280

Phasor Measurements Application in Power Systems for Accelerated Power Flow Calculations in Emergency Control
p.286

Open Overhead Transmission Lines
p.293

Peculiarity of Determination of Economic Current Density Values for 6 – 35 kV Power Lines under Modern Conditions
p.300

Investigation of Defect Formation Process in Transmission and Distribution Equipment
p.305

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 792Efficient Ways and Means of Reliability Increase...

Efficient Ways and Means of Reliability Increase of Distribution Networks

Abstract:

The efficiency of electric network companies is influenced by the time and scale of distribution network reliability improvement. It’s proposed to make the analysis of the network reliability due to the ratio of the “current” and “limiting” availability factors. The method and the model have been developed for comparison and making a choice of the ways and means to improve the distribution network recoverability and its failure-free operation. The problems of efficiency calculation and the choice of means for 35-220 kV lines reliability improvement have been solved.The use of a cross-arm and a tower made from composite materials is considered to be the obvious example of such means.

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Periodical:

Applied Mechanics and Materials (Volume 792)

Pages:

280-285

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.792.280

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Online since:

September 2015

Authors:

Felix Byk*, Lyudmila Kazakova

Keywords:

Availability Factor, Distribution Network, Failure-Free, Operability, Recoverability

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References

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