The present work deals with the study of the electrical behavior of cross-linked polyethylene (XLPE) used for HVDC cable insulation. The aim is to better understand the influences of electrical and thermal stresses on the insulating material in order to provide useful information for designing HVDC cables. This study was carried out on Rogowski samples made of XLPE insulation with semiconductive electrodes, aged for more than 3 years (1220 days) at three different temperatures (70, 80 and 90 °C) under two DC electric fields (30 and 60 kV/mm). Dielectric loss factor, volume resistivity and space charge accumulation were measured. Results are analyzed and cross-correlated, in order to propose possible ageing kinetics
Extruded polyethylene (PE) is used as the bulk insulation for ac high voltage cables; because of its...
Polyethylene polymers, especially cross-linked polyethylene (XLPE), are widely used in high voltage ...
The most popular cable insulation material used is XLPE due to its excellent electrical and thermal ...
International audienceThe assessment of insulating materials regarding space charge features is one ...
HVDC cables play a vital role in the power transmission system for renewable energy and global power...
Despite similar material composition and insulation application, the alternating current (AC) cross-...
After extensive research during the last decades extruded polymeric insulation is now becoming an al...
Cross-linked polyethylene (XLPE) cables are widely used in the distribution and transmission network...
Cross-linked Polyethylene (XLPE) has been used as the insulation for polymeric power cables for its ...
International audienceControlling the lifetime of insulating materials is required to insure reliabi...
The mechanisms which lead to the long term deterioration of electric strength in polyethylene insula...
The aim of work is to highlight the evolution of physico-chemical properties of peroxide crosslinked...
Polyethylene exhibits many key characteristics including low dielectric loss, high breakdown strengt...
Abstract. Preference is given to cable lines with cross-linked polyethylene insulation in electrica...
One of the factors that affects HVDC cable is the field distribution inside the insulation resulting...
Extruded polyethylene (PE) is used as the bulk insulation for ac high voltage cables; because of its...
Polyethylene polymers, especially cross-linked polyethylene (XLPE), are widely used in high voltage ...
The most popular cable insulation material used is XLPE due to its excellent electrical and thermal ...
International audienceThe assessment of insulating materials regarding space charge features is one ...
HVDC cables play a vital role in the power transmission system for renewable energy and global power...
Despite similar material composition and insulation application, the alternating current (AC) cross-...
After extensive research during the last decades extruded polymeric insulation is now becoming an al...
Cross-linked polyethylene (XLPE) cables are widely used in the distribution and transmission network...
Cross-linked Polyethylene (XLPE) has been used as the insulation for polymeric power cables for its ...
International audienceControlling the lifetime of insulating materials is required to insure reliabi...
The mechanisms which lead to the long term deterioration of electric strength in polyethylene insula...
The aim of work is to highlight the evolution of physico-chemical properties of peroxide crosslinked...
Polyethylene exhibits many key characteristics including low dielectric loss, high breakdown strengt...
Abstract. Preference is given to cable lines with cross-linked polyethylene insulation in electrica...
One of the factors that affects HVDC cable is the field distribution inside the insulation resulting...
Extruded polyethylene (PE) is used as the bulk insulation for ac high voltage cables; because of its...
Polyethylene polymers, especially cross-linked polyethylene (XLPE), are widely used in high voltage ...
The most popular cable insulation material used is XLPE due to its excellent electrical and thermal ...