Add to ORKGAs shown in previous papers by the authors, the “enlargement law” can be used for selecting the best among two compounds for power cable insulation, by evaluating the so-called crossing quantities, namely the values of length, dielectric strength and breakdown voltage of the cable line at which a crossover in the breakdown performances of the two compounds occurs. This paper investigates the effect of conductor radius and insulation thickness on crossing quantities. For this purpose, a theoretical analysis of the mathematical relationships between crossing quantities and cable conductor radius plus insulation thickness is carried out. Such analysis is supported by applicative examples relevant to a comparison between two typica...
Insulation coordination is essential for designing and testing HV cable systems properly. In transie...
This paper was presented at IEEE International Symposium on Electrical Insulation, June 2006. ©2006 ...
In this paper the combined electro-thermal life model for the insulation of power cables is extended...
As shown in previous papers by the authors, the “enlargement law” can be used for selecting the bes...
Previous investigations by the Authors of this paper showed that the so-called crossing quantities -...
none3An innovative theory—derived from the ‘‘enlargement law’’—about how to compare the breakdown p...
In this paper, previous theoretical developments by one of the authors - relevant to the “enlargemen...
Theoretical considerations about the \u201cenlargement law\u201d, that were developed by one of the ...
A new theoretical approach to the application of the Enlargement Law for assessing the breakdown per...
This paper, the first of two companion papers, describes a new approach to the application of the st...
A new theoretical approach to the application of the Enlargement Law for assessing the breakdown per...
In this paper the innovative theoretical approach to the enlargement law for HVDC cables previously ...
none2This paper is the second part of an investigation on the new enlargement law for HVDC cables de...
none2noThe paper studies the effect of the Weibull shape parameter β and of conductor temperatu...
Insulation coordination is essential for designing and testing HV cable systems properly. In transie...
This paper was presented at IEEE International Symposium on Electrical Insulation, June 2006. ©2006 ...
In this paper the combined electro-thermal life model for the insulation of power cables is extended...
As shown in previous papers by the authors, the “enlargement law” can be used for selecting the bes...
Previous investigations by the Authors of this paper showed that the so-called crossing quantities -...
none3An innovative theory—derived from the ‘‘enlargement law’’—about how to compare the breakdown p...
In this paper, previous theoretical developments by one of the authors - relevant to the “enlargemen...
Theoretical considerations about the \u201cenlargement law\u201d, that were developed by one of the ...
A new theoretical approach to the application of the Enlargement Law for assessing the breakdown per...
This paper, the first of two companion papers, describes a new approach to the application of the st...
A new theoretical approach to the application of the Enlargement Law for assessing the breakdown per...
In this paper the innovative theoretical approach to the enlargement law for HVDC cables previously ...
none2This paper is the second part of an investigation on the new enlargement law for HVDC cables de...
none2noThe paper studies the effect of the Weibull shape parameter β and of conductor temperatu...
Insulation coordination is essential for designing and testing HV cable systems properly. In transie...
This paper was presented at IEEE International Symposium on Electrical Insulation, June 2006. ©2006 ...
In this paper the combined electro-thermal life model for the insulation of power cables is extended...