Investigating dc polyethylene threshold by space charge. Current and electroluminescence measurements

Augé, Jean-Louis; Laurent, Christian; Fabiani, Davide; Montanari, Gian Carlo

doi:10.1109/94.891991

Cited by 52 publications

(31 citation statements)

References 18 publications

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“…Electrodes were made of semicon (high voltage, anode) and aluminium (cathode). Tests with gold electrodes prepared by cold sputtering were also performed [3,4]. Electroluminescence was detected through a photomultiplier (PM) working in photon counting mode, using specimens metallized on both surfaces with semitransparent layers of gold deposited by cold sputtering.…”

Section: Methodsmentioning

confidence: 99%

“…The procedure adopted to measure EL during depolarization was slightly different. We have already reported that under short-circuit conditions, the EL is a transient process occurring immediately after grounding the sample [4]. The analysis of the EL decay necessitates a shorter sampling time which has been chosen at 10 ms. Voltage was applied to the specimen by using a high voltage switch which can be used to ground the sample after the polarization time.…”

mentioning

confidence: 99%

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Space charge and associated electroluminescence processes in XLPE cable peelings

Laurent

Teyssèdre²,

Augé³

et al.

2000 Annual Report Conference on Electrical Insulation and Dielectric Phenomena (Cat. No.00CH37132)

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The intent of this paper is to correlate the information obtained by space charge profile analysis and electroluminescence detection in cross-linked polyethylene samples under DC\fields, with the objective to make a link between space charge phenomenon and energy release as revealed by detection of visible photons. Space charge measurements carried out at different electrical fields by the pulsed electro-acoustic method. show the presence of a low-field threshold, close to 15-20 kV/mm, above which space charges begins to accumulate considerably in the insulation. Charges are seen to cross the insulation thickness through a packet-like behavior at higher fields, starting at about 60-70 kV/mm. Electroluminescence measurements show the existence of two distinct thresholds, one related to the excitation of electroluminescence under voltage, the other upon specimen short-circuit. The former occurs at values of fields corresponding to space charge packet formation, and the latter to space charge accumulation. The two techniques give therefore consistent information on space charge phenomenology and associated energy release in the optical EM spectrum. Introduction Measurements of electrical properties useful for insulation characterization and for aging diagnosis were carried out by different research groups in the framework of the European project "ARTEMIS" (Aging and Reliability Testing and Monitoring of Power Cables : Diagnosis for Insulation Systems), with the aim to investigate the degradation mechanisms and to evaluate reliability of high voltage cross-linked polyethylene (XLPE) cables. Among these properties, space charge, chargingdischarging current, polarization loss and electroluminescence (EL) measurements are associated with the mechanism of charge injection and transport. There is a general agreement among researchers that electrical aging of synthetic insulation used in high voltage cables could be started by space charge accumulation. However, there is no clear picture of the nature of the degradation reaction that would be involved at a microscopic level. Electroluminescence emission enables a link to be made between space charge phenomenology and the release of energy due, for example, to radiative charge recombination. It is therefore of importance to be able to define levels of fields and associated space charge profiles that are liable to give rise to luminescence excitation since EL is the evidence of the existence of highly reactive excited states in the insulation that could promote accelerated aging [1]. This paper presents and discusses the results obtained from space charge and EL measurements, focusing on the limits of electrical field (thresholds) which promote space charge formation and luminescence excitation. Experimental proceduresMeasurements were performed on peels cut from unaged cross-linked polyethylene (XLPE) cables produced specifically for the project [2], width 80 mm and mean thickness 150 m. Before testing, specimens were pretreated in an oven for 48 h at 50°C in order...

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Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 99%

Space charge and associated electroluminescence processes in XLPE cable peelings

Laurent

Teyssèdre²,

Augé³

et al.

2000 Annual Report Conference on Electrical Insulation and Dielectric Phenomena (Cat. No.00CH37132)

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“…However, this value is significantly lower than the value of 10 kV/mm mentioned in literature for polyethylene. 5,6 As the blocking layer was fluorinated polyethylene, its dielectric properties such as permittivity and conductivity are different from the normal one; therefore, it is possible the charges accumulated at the interface between the two layers may be related to the Maxwell-Wagner polarisation.…”

Section: And Lisheng Zhongmentioning

confidence: 99%

Determination of threshold electric field for charge injection in polymeric materials

Liu

Zhou

Chen

et al. 2015

Applied Physics Letters

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Accurately determining the threshold electric field at which charge injection from the electrodes starts is important for reliable operation of dielectric materials as the presence of charge in the material can lead to electric field enhancement, resulting in degradation and early failures of the material. The two methods in charge measurements that have been commonly used to find out the threshold field have been compared to the proposed method, which overcomes the drawbacks of the two methods. Such method offers (i) high sensitivity as the effect of capacitive charge has been eliminated and (ii) contributions from both mobile and slow charges; hence, providing a more accurate value for the threshold electric field. Based on the proposed method, it has been found that the threshold field for low density polyethylene is around 8 kV/mm, which is lower than the reported value obtained from the other methods.

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“…The injection of charge carriers occurs at the conductor/solid insulator interface when the applied electric field is higher than the threshold field for the specific dielectric material. For example, the threshold for PE is about 10 kV/mm [88]- [90]. The injected charge carriers are expected to have the same polarity of the related electrode, i.e., positive charges are injected from the anode, and negative charges are injected from cathode, which is called homo-charges.…”

Section: B Space Charge Effects In Hvdc Cablesmentioning

confidence: 99%

Review of high voltage direct current cables

Chen

Hao

et al. 2015

CSEE Power and Energy Syst.

230

125

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Abstract-Increased renewable energy integration and international power trades have led to the construction and development of new HVDC transmission systems. HVDC cables, in particular, play an important role in undersea power transmission and offshore renewable energy integration having lower losses and higher reliability. In this paper, the current commercial feasibility of HVDC cables and the development of different types of HVDC cables and accessories are reviewed. The non-uniform electric field distribution caused by the applied voltage, temperature dependent conductivity, and space charge accumulation is briefly discussed. Current research in HVDC cable for higher operation voltage level and larger power capacity is also reviewed with specific focus on the methodologies of space charge suppression for XLPE extruded cables.

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Investigating dc polyethylene threshold by space charge. Current and electroluminescence measurements

Cited by 52 publications

References 18 publications

Space charge and associated electroluminescence processes in XLPE cable peelings

Space charge and associated electroluminescence processes in XLPE cable peelings

Determination of threshold electric field for charge injection in polymeric materials

Review of high voltage direct current cables

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