A New Approach to the Statistical Enlargement Law for Comparing the Breakdown Performance of Power Cables – Part 1: Theory

A comparison between XLPE and EPR as insulating materials for high voltage cables

Mazzanti G.
Montanari G. C.

January 1997

In the paper, the performances of XLPE and EPR as materials candidate for insulation of high voltage...

A comparison between XLPE and EPR as insulating materials for HV cables

Mazzanti G.
Montanari G. C.

January 1997

The performances of XLPE and EPR as materials candidate for insulation of high voltage power cables ...

The practical effect of the enlargement law on the electrothermal life model for power-cable lines

M. Marzinotto
MAZZANTI, GIOVANNI

January 2015

Insulation coordination is essential for designing and testing HV cable systems properly. In transie...

A New Approach to the Statistical Enlargement Law for Comparing the Breakdown Performance of Power Cables – Part 1: Theory

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2007

This paper, the first of two companion papers, describes a new approach to the application of the st...

A New Approach to the Statistical Enlargement Law for Comparing the Breakdown Performances of Power Cables – Part 2: Application

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2008

A new theoretical approach to the application of the Enlargement Law for assessing the breakdown per...

A new approach to the statistical enlargement law for comparing the breakdown performances of power cables - Part 2: application

M., Marzinotto
G., Mazzanti
MAZZETTI DI PIETRALATA, Carlo

January 2008

A new theoretical approach to the application of the Enlargement Law for assessing the breakdown per...

Comparison of breakdown performances of extruded cables via the enlargement law

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2006

In this paper, previous theoretical developments by one of the authors - relevant to the “enlargemen...

Considerations about the application of the enlargement law to dielectric strength data relevant to power cables

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2006

Theoretical considerations about the “enlargement law”, that were developed by one of the authors in...

The enlargement law as a tool for comparing the breakdown performances of power cables: the role played by conductor radius and insulation thickness

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2007

As shown in previous papers by the authors, the “enlargement law” can be used for selecting the bes...

Crossing quantities: How to compare electrical strength performances of insulation compounds for power cables

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2009

An innovative theory—derived from the ‘‘enlargement law’’—about how to compare the breakdown perfor...

The effect of conductor radius and insulation thickness in the application of the enlargement law for comparing power cable breakdown performances

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2007

Previous investigations by the Authors of this paper showed that the so-called crossing quantities -...

Merging the electro-thermal life model for power cables with the statistical volume enlargement law

M. Marzinotto
MAZZANTI, GIOVANNI

January 2014

In this paper the combined electro-thermal life model for the insulation of power cables is extended...

A statistical method for establishing insulated cable clearances in large power transformers

Lanoue, Thomas J.

January 1975

The relationship between impulse breakdown stress and stressed oil volume has been extensively inves...

A comparison between XLPE and EPR as insulating materials for high voltage cables

Mazzanti G.
Montanari G. C.

January 1997

In the paper, the performances of XLPE and EPR as materials candidate for insulation of high voltage...

A comparison between XLPE and EPR as insulating materials for HV cables

Mazzanti G.
Montanari G. C.

January 1997

The performances of XLPE and EPR as materials candidate for insulation of high voltage power cables ...

The practical effect of the enlargement law on the electrothermal life model for power-cable lines

M. Marzinotto
MAZZANTI, GIOVANNI

January 2015

Insulation coordination is essential for designing and testing HV cable systems properly. In transie...

A New Approach to the Statistical Enlargement Law for Comparing the Breakdown Performance of Power Cables – Part 1: Theory

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2007

This paper, the first of two companion papers, describes a new approach to the application of the st...

A New Approach to the Statistical Enlargement Law for Comparing the Breakdown Performances of Power Cables – Part 2: Application

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2008

A new theoretical approach to the application of the Enlargement Law for assessing the breakdown per...

A new approach to the statistical enlargement law for comparing the breakdown performances of power cables - Part 2: application

M., Marzinotto
G., Mazzanti
MAZZETTI DI PIETRALATA, Carlo

January 2008

A new theoretical approach to the application of the Enlargement Law for assessing the breakdown per...

Comparison of breakdown performances of extruded cables via the enlargement law

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2006

In this paper, previous theoretical developments by one of the authors - relevant to the “enlargemen...

Considerations about the application of the enlargement law to dielectric strength data relevant to power cables

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2006

Theoretical considerations about the “enlargement law”, that were developed by one of the authors in...

The enlargement law as a tool for comparing the breakdown performances of power cables: the role played by conductor radius and insulation thickness

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2007

As shown in previous papers by the authors, the “enlargement law” can be used for selecting the bes...

Crossing quantities: How to compare electrical strength performances of insulation compounds for power cables

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2009

An innovative theory—derived from the ‘‘enlargement law’’—about how to compare the breakdown perfor...

The effect of conductor radius and insulation thickness in the application of the enlargement law for comparing power cable breakdown performances

M. Marzinotto
C. Mazzetti
MAZZANTI, GIOVANNI

January 2007

Previous investigations by the Authors of this paper showed that the so-called crossing quantities -...

Merging the electro-thermal life model for power cables with the statistical volume enlargement law

M. Marzinotto
MAZZANTI, GIOVANNI

January 2014

In this paper the combined electro-thermal life model for the insulation of power cables is extended...

A statistical method for establishing insulated cable clearances in large power transformers

Lanoue, Thomas J.

January 1975

The relationship between impulse breakdown stress and stressed oil volume has been extensively inves...

A comparison between XLPE and EPR as insulating materials for high voltage cables

Mazzanti G.
Montanari G. C.

January 1997

In the paper, the performances of XLPE and EPR as materials candidate for insulation of high voltage...

A comparison between XLPE and EPR as insulating materials for HV cables

Mazzanti G.
Montanari G. C.

January 1997

The performances of XLPE and EPR as materials candidate for insulation of high voltage power cables ...

The practical effect of the enlargement law on the electrothermal life model for power-cable lines

M. Marzinotto
MAZZANTI, GIOVANNI

January 2015

Insulation coordination is essential for designing and testing HV cable systems properly. In transie...

A New Approach to the Statistical Enlargement Law for Comparing the Breakdown Performance of Power Cables – Part 1: Theory

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A New Approach to the Statistical Enlargement Law for Comparing the Breakdown Performance of Power Cables – Part 1: Theory

Abstract

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