Analysis on Behavior Grounding Electrode Resistance base on Profiling Method

Abstract Grounding electrode resistance non-linearly changes under impulse conditions due to soil ionisation phenomenon. Several models have been proposed to model soil ionisation for grounding electrodes applications. However, to date, there is yet an attempt made to compile all these works into a comprehensive review article. Therefore, this paper is written with the objective of summarizing all related works in this field as a one- stop reference. With reference to the literature, this paper is written to summarize the working principles of the soil ionisation models as well as the accuracy and performance analysis of the models. This paper, particularly highlights the deficiencies of the available models in terms of accuracy and performance. This knowledge will contribute to the development of a new accurate and efficient soil ionisation model.

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The Effect of Grounding Electrode Parameters on Soil Ionization and Transient Grounding Resistance Using Electromagnetic Field Approach

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.554.628 ◽

2014 ◽

Vol 554 ◽

pp. 628-632 ◽

Cited By ~ 4

Author(s):

Mehrdad Mokhatri ◽

Zulkurnain Abdul-Malek

Keyword(s):

Electromagnetic Field ◽

Electric Field ◽

Field Intensity ◽

Electric Field Intensity ◽

Electrode System ◽

Grounding Resistance ◽

Field Approach ◽

Electrode Resistance ◽

Grounding Electrode ◽

Soil Ionization

The soil ionization phenomenon occurs during the dispersion of lightning current into the earth. This phenomenon causes the grounding electrode resistance to be effectively reduced. The extension of the soil ionization depends on the current amplitude along the electrode and the resultant electric field intensity surrounding the electrode. The electrical and physical parameters of the grounding electrode system are found as factors that affect the electric field intensity. In this study the electromagnetic field approach and the soil breakdown theory are taken into account to investigate the effect of the mentioned factors on soil ionization and grounding resistance. Changing the parameters of the grounding electrode system affect the electric field distribution around the electrode. Based on the conditions the grounding electrode resistance was reduced between 12% to 75% by considering the soil ionization effect.

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The Calculation of Corrective Coefficient for Grounding Electrode Resistance according to Variation of Soil Resistivity by Field Measurement

Journal of Advanced Engineering and Technology ◽

10.35272/jaet.2017.10.2.213 ◽

2017 ◽

Vol 10 (2) ◽

pp. 213-218

Author(s):

Young-Chul Cho ◽

park jung min ◽

Kyoung-Seok Yoon

Keyword(s):

Field Measurement ◽

Soil Resistivity ◽

Electrode Resistance ◽

Grounding Electrode

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Integration of Energy Balance of Soil Ionization in CIGRE Grounding Electrode Resistance Model

IEEE Transactions on Electromagnetic Compatibility ◽

10.1109/temc.2017.2731807 ◽

2018 ◽

Vol 60 (2) ◽

pp. 402-413 ◽

Cited By ~ 9

Author(s):

Mehrdad Mokhtari ◽

Gevork B. Gharehpetian

Keyword(s):

Energy Balance ◽

Electrode Resistance ◽

Resistance Model ◽

Grounding Electrode ◽

Soil Ionization

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The effect of soil ionization on transient grounding electrode resistance in non-homogeneous soil conditions

International Transactions on Electrical Energy Systems ◽

10.1002/etep.2157 ◽

2015 ◽

Vol 26 (7) ◽

pp. 1462-1475 ◽

Cited By ~ 4

Author(s):

Mehrdad Mokhtari ◽

Zulkurnain Abdul-Malek ◽

Zainal Salam

Keyword(s):

Soil Conditions ◽

Electrode Resistance ◽

Homogeneous Soil ◽

Grounding Electrode ◽

Soil Ionization

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Method for Reducing Impulse Grounding Impedance of Grounding Device by Using Grounding Electrode with Non-uniform Radius

2020 IEEE International Conference on High Voltage Engineering and Application (ICHVE) ◽

10.1109/ichve49031.2020.9279521 ◽

2020 ◽

Author(s):

Zhuoran Liu ◽

Sen Wang ◽

Bo Zhang ◽

Yanchuan Cao ◽

Donghui Luo ◽

...

Keyword(s):

Grounding Electrode

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Common-Mode Voltage Reduction in Capacitive Sensing of Biosignal Using Capacitive Grounding and DRL Electrode

Sensors ◽

10.3390/s21072568 ◽

2021 ◽

Vol 21 (7) ◽

pp. 2568

Author(s):

Tadeas Bednar ◽

Branko Babusiak ◽

Michal Labuda ◽

Milan Smetana ◽

Stefan Borik

Keyword(s):

Noise Removal ◽

Power Line ◽

Measured Signal ◽

Common Mode ◽

Line Frequency ◽

Electrode Area ◽

Common Mode Voltage ◽

Grounding Electrode ◽

Power Line Noise ◽

Line Noise

A capacitive measurement of the biosignals is a very comfortable and unobtrusive way suitable for long-term and wearable monitoring of health conditions. This type of sensing is very susceptible to noise from the surroundings. One of the main noise sources is power-line noise, which acts as a common-mode voltage at the input terminals of the acquisition unit. The origin and methods of noise reduction are described on electric models. Two methods of noise removal are modeled and experimentally verified in the paper. The first method uses a passive capacitive grounding electrode, and the second uses an active capacitive Driven Right Leg (DRL) electrode. The effect of grounding electrode size on noise suppression is experimentally investigated. The increasing electrode area reduces power-line noise: the power of power-line frequency within the measured signal is 70.96 dB, 59.13 dB, and 43.44 dB for a grounding electrode area of 1650 cm2, 3300 cm2, and 4950 cm2, respectively. The capacitive DRL electrode shows better efficiency in common-mode noise rejection than the grounding electrode. When using an electrode area of 1650 cm2, the DRL achieved 46.3 dB better attenuation than the grounding electrode at power-line frequency. In contrast to the grounding electrode, the DRL electrode reduces a capacitive measurement system’s financial costs due to the smaller electrode area made of the costly conductive textile.

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