Mechanism of space charge packets transport in LDPE driven by the temperature fluctuation under constant DC voltage
Mechanism of space charge packets transport in LDPE driven by the temperature fluctuation under constant DC voltage
In case of an emergency power supply or short-term overload, a rapid load change can generate temperature fluctuations across the insulation of the power equipment. Failures are possible in conditions where temperature fluctuations are affecting HVDC equipment. In this study, the space charge characteristics and dynamics in LDPE under DC voltage that is subjected to temperature fluctuation are tested and analyzed. The results show that space charge packets form inside LDPE under high electric fields when a temperature fluctuation is applied. The speed of the charge packet decreases with time and the higher the temperature fluctuation, the more pronounced the resulting charge packet is, and the faster it can move through the insulation. The experimental results verify that the temperature fluctuation under constant DC voltage can form and drive the movement of space charge packets. The Bipolar Charge Transport Model was used to simulate space charge packets due to temperature fluctuation with consideration of the transient temperature distribution. Simulation results indicate that the temperature fluctuation forms a new temperature gradient and forces the space charge re-distribute: the charge mobility decreases with the decreased temperature across the sample; the re-distributed space charge distorts the electric field, generating a step-like electric field distribution. The mobility and the step-like electric field generate peaks of the charge velocity, which is the direct cause for the formation and migration of space charge packets. The temperature fluctuation can force the existing charge to redistribute and can drives space charge packet movement.
Bipolar Charge Transport Model, LDPE, Space charge packet, charge migration velocity, temperature fluctuation
Wu, Chenyu
305795a7-e519-4610-bbf8-3695a575b8cb
Zhang, Chen
ebbdc9ef-e97e-4a6e-a27f-e3f381368a1a
Lv, Zepeng
91e761a6-eaaf-4ba7-8f1f-6ef880f459f5
Wu, Kai
750a9dca-468c-4afc-aac9-c5c7a4aa79e4
Cheng, Yonghong
c00f734a-0262-432d-b12b-e0bf37abb36e
Andritsch, Thomas
8681e640-e584-424e-a1f1-0d8b713de01c
Jia, Beibei
127a219a-debe-45eb-96b9-d57106959ace
19 February 2026
Wu, Chenyu
305795a7-e519-4610-bbf8-3695a575b8cb
Zhang, Chen
ebbdc9ef-e97e-4a6e-a27f-e3f381368a1a
Lv, Zepeng
91e761a6-eaaf-4ba7-8f1f-6ef880f459f5
Wu, Kai
750a9dca-468c-4afc-aac9-c5c7a4aa79e4
Cheng, Yonghong
c00f734a-0262-432d-b12b-e0bf37abb36e
Andritsch, Thomas
8681e640-e584-424e-a1f1-0d8b713de01c
Jia, Beibei
127a219a-debe-45eb-96b9-d57106959ace
Wu, Chenyu, Zhang, Chen, Lv, Zepeng, Wu, Kai, Cheng, Yonghong, Andritsch, Thomas and Jia, Beibei
(2026)
Mechanism of space charge packets transport in LDPE driven by the temperature fluctuation under constant DC voltage.
IEEE Transactions on Dielectrics & Electrical Insulation.
(doi:10.1109/TDEI.2026.3666436).
Abstract
In case of an emergency power supply or short-term overload, a rapid load change can generate temperature fluctuations across the insulation of the power equipment. Failures are possible in conditions where temperature fluctuations are affecting HVDC equipment. In this study, the space charge characteristics and dynamics in LDPE under DC voltage that is subjected to temperature fluctuation are tested and analyzed. The results show that space charge packets form inside LDPE under high electric fields when a temperature fluctuation is applied. The speed of the charge packet decreases with time and the higher the temperature fluctuation, the more pronounced the resulting charge packet is, and the faster it can move through the insulation. The experimental results verify that the temperature fluctuation under constant DC voltage can form and drive the movement of space charge packets. The Bipolar Charge Transport Model was used to simulate space charge packets due to temperature fluctuation with consideration of the transient temperature distribution. Simulation results indicate that the temperature fluctuation forms a new temperature gradient and forces the space charge re-distribute: the charge mobility decreases with the decreased temperature across the sample; the re-distributed space charge distorts the electric field, generating a step-like electric field distribution. The mobility and the step-like electric field generate peaks of the charge velocity, which is the direct cause for the formation and migration of space charge packets. The temperature fluctuation can force the existing charge to redistribute and can drives space charge packet movement.
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Published date: 19 February 2026
Additional Information:
Publisher Copyright:
© 2026 IEEE.
Keywords:
Bipolar Charge Transport Model, LDPE, Space charge packet, charge migration velocity, temperature fluctuation
Identifiers
Local EPrints ID: 509918
URI: http://eprints.soton.ac.uk/id/eprint/509918
ISSN: 1070-9878
PURE UUID: 6ead74d3-a609-4459-b8ed-efe504812ffe
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Date deposited: 10 Mar 2026 17:57
Last modified: 11 Mar 2026 02:46
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Contributors
Author:
Chenyu Wu
Author:
Chen Zhang
Author:
Zepeng Lv
Author:
Kai Wu
Author:
Yonghong Cheng
Author:
Thomas Andritsch
Author:
Beibei Jia
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