Partial discharge investigation on palm oil using needle — Plane electrode configuration and electric field distribution using ANSYS Maxwell

Amin, N. A. M.; Ishak, Mohd Taufiq; Hamid, M. H. A.; Rahman, M. S. Abd

doi:10.1109/ichveps.2017.8225886

Cited by 4 publications

(4 citation statements)

References 3 publications

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“…The fiber is enclosed in an insulating polypropylene sleeve with only a small segment of it extending beyond the end of the sleeve where anodization takes place. Maxwell 16.0 software was used for simulation 13 . The silica fiber diameter is 200 µm.…”

Section: Methodsmentioning

confidence: 99%

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Fabrication of anodic aluminum oxide on silica optical fiber with nanopore channels oriented off surface normal

Tang

2022

J Am Ceram Soc.

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Aluminum coating on silica optical fiber was anodized by applying an electric field off‐axis to surface normal of the fiber coating with simulation of the electric field lines between angularly positioned anode and cathode as a guide. The nanostructure features, including nanopore orientation, of the resultant anodized aluminum oxide (AAO) were characterized using scanning electron microscopy. This unique off‐axis electric field arrangement enabled the formation of AAO with uniformly tilted nanopore channel arrays. Nanopore channels with tilting angles around 10°–20° relative to surface normal of AAO were obtained. These results are in general agreement with the simulated electric field lines between the anode and cathode.

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Section: Methodsmentioning

confidence: 99%

“…Maxwell 16.0 software was used for simulation. 13 The silica fiber diameter is 200 µm. The thickness of aluminum coating is 35 µm.…”

Section: Simulation Of the Electric Field Lines Between Anode And Cat...mentioning

confidence: 99%

Fabrication of anodic aluminum oxide on silica optical fiber with nanopore channels oriented off surface normal

Tang

2022

J Am Ceram Soc.

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“…The maximum electric field intensity is not individual changes by the geometrical design of electrodes, on the other hand also with other characteristics i.e. distance between electrodes, applied voltage, temperature, and pressure, according to the conclusions in both situations [11], [12]. A group of researcher used different gap distances to find out the breakdown voltage of SF6 gas empirically using the analysis of abnormal electrical discharge of node tank SF6 gas circuit breaker [13].…”

Section: Journal Of Applied Engineering and Technologymentioning

confidence: 99%

Analysis of Breakdown Phenomena of SF6-Gas Using Different Electrodes Configuration in High Voltage Application

Sharafat Ullah,

Khan,

Irshad Ullah

et al. 2023

JAET

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This research investigates the breakdown voltage of SF6 gas using several electrode configurations, including Sphere-sphere, Rod-rod, Plate-plate, Sphere-plate, and Rod-plate, to guarantee sufficient clearance for an acceptable insulation level. The objective of the various electrode geometries is to produce a homogeneous and non-homogeneous electric field wherein the SF6 gas breakdown could be analyzed. The simulation under the influence of six gaps length be-tween electrodes (0.5cm, 1cm, 2cm, 3cm, 4cm, 5cm) were conducted. The lowest breakdown voltage is found in the Rod-rod electrode arrangement, followed by Plate-plate and Sphere-sphere electrode configuration. Compared with the Sphere-sphere electrode design, the Rod-rod electrode configuration is also asymmetric, with a substantially more inhomogeneous electric field. Based on the results, the Rod-plate and Sphere-plate arrangements appear to be asymmetrical. In the event of discharge and breakdown voltage, different electrode configurations have a significant influence. This study helps to identify the most suitable clearance and electrodes configuration in high voltage SF6 circuit breakers. A few researches were performed to find the breakdown voltage of SF6 gas in medium voltage applications under homogeneous electric stress. Some research paper also studied to find the breakdown voltage of SF6 gas under different temperature and pressure. However, this paper is based on finding out the breakdown voltage of SF6 gas in high voltage application providing homogeneous and non-homogeneous electric stress. This homogeneous and non-homogeneous electric field is designed using different electrodes configuration.

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“…The finite element method (FEM) has been extensively used in electric field analysis due to its flexibility and simplicity, allowing the estimation of fields on thin and highly curved electrode surfaces using various dielectric materials [26][27][28][29][30]. It calculates the field strength and potential distribution in a high-voltage electric field by discretizing the electrode domain and thereby even solving problems with complex geometries [31].…”

Section: Introductionmentioning

confidence: 99%

Development of High-Voltage Electrodes for Neutron Scattering Sample Environment Devices

Sun,

Guo,

Yuan

et al. 2024

Instruments

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The sample environment is essential to neutron scattering experiments as it induces the sample under study into a phase or state of particular interest. Various sample environments have been developed, yet the high-voltage electric field has rarely been documented. In this study, Bruce electrodes with various sectional geometries and chamber sizes were examined by using simulation modeling based on ANSYS Maxwell. A large uniform field region where samples would sit could be achieved in the planar region for all specifications, but the size of the region and the field strength varied with the gap distance between electrodes. The edging effect was inherently observed even for bare electrodes, about 1.7% higher in the sinusoidal region than the planar region, and was significantly deteriorated when a chamber was applied. This effect, however, presented an exponential decrease as the minimum distance between the electrode edge and the chamber shell increased. A compromise between the spatial confinement and the achievable field (strength and uniform region) could be reached according to the unique applicability of neutron instruments. This research provides a theoretical basis for the subsequent design and manufacturing of high-voltage sample environment devices.

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Partial discharge investigation on palm oil using needle — Plane electrode configuration and electric field distribution using ANSYS Maxwell

Cited by 4 publications

References 3 publications

Fabrication of anodic aluminum oxide on silica optical fiber with nanopore channels oriented off surface normal

Fabrication of anodic aluminum oxide on silica optical fiber with nanopore channels oriented off surface normal

Analysis of Breakdown Phenomena of SF6-Gas Using Different Electrodes Configuration in High Voltage Application

Development of High-Voltage Electrodes for Neutron Scattering Sample Environment Devices

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