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      Frequency Response Characteristics of a Grounding Grid

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      https://www.riss.kr/link?id=A104439958

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      다국어 초록 (Multilingual Abstract)

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      The dissipation current distribution, potential rises and frequency-dependent impedances of the grounding grid were investigated. The computational simulations are made using the simplified EMTP-based model. Based on experimental and simulation results, the dissipation current at a frequency above ~100kHz intensively converged near the current injection point of the grounding grid, and decreased far from the current injection point. When the test current was injected at the center of the grounding grid, the high frequency grounding impedances were lower than those measured at the corner or side of the grounding grid. The trend of simulation results for the grounding impedance and dissipation current distribution calculated using a non-uniform distributed parameter circuit model are similar to the data measured at the test site.
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      The dissipation current distribution, potential rises and frequency-dependent impedances of the grounding grid were investigated. The computational simulations are made using the simplified EMTP-based model. Based on experimental and simulation result...

      The dissipation current distribution, potential rises and frequency-dependent impedances of the grounding grid were investigated. The computational simulations are made using the simplified EMTP-based model. Based on experimental and simulation results, the dissipation current at a frequency above ~100kHz intensively converged near the current injection point of the grounding grid, and decreased far from the current injection point. When the test current was injected at the center of the grounding grid, the high frequency grounding impedances were lower than those measured at the corner or side of the grounding grid. The trend of simulation results for the grounding impedance and dissipation current distribution calculated using a non-uniform distributed parameter circuit model are similar to the data measured at the test site.

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      참고문헌 (Reference)

      1 O. Ukar, "Wind farm grounding system design for transients" 36 : 2004-2010, 2011

      2 이복희, "Simulations of Frequency-dependent Impedance of Ground Rods Con-sidering Multi-layered Soil Structures" 대한전기학회 4 (4): 531-537, 2009

      3 S. Visacro, "Response of Grounding Electrodes to Impulsive Currents : An Experimental Evaluation" 51 (51): 161-164, 2009

      4 V. Cooray, "Physical model of surge-current characteristics of buried vertical rods in the presence of soil ionization" 60 : 193-202, 2004

      5 N. Mohamad Nor, "Investigations of earthing systems under steady-state and transients with FEM and experimental work" 44 : 758-763, 2013

      6 Y. Liu, "Investigating the validity of existing definitions and empirical equations of effective length/area of grounding wire/grid for transient studies" 65 : 329-335, 2007

      7 "IEEE Std. 81.2-1991, IEEE Guide for Measurement of Impedance and Safety Characteristics of Large, Extended or Interconnected Grounding Systems"

      8 "IEC 62305-1, Protection against lightning – Part 1: General principles"

      9 A. Rousseau, "High frequency earthing impedance measurements at Camp Blanding, Florida" 85 : 50-58, 2012

      10 S. Visacro, "HEM; A model for simulation of lightning-related engineering problems" 20 (20): 1206-1208, 2005

      1 O. Ukar, "Wind farm grounding system design for transients" 36 : 2004-2010, 2011

      2 이복희, "Simulations of Frequency-dependent Impedance of Ground Rods Con-sidering Multi-layered Soil Structures" 대한전기학회 4 (4): 531-537, 2009

      3 S. Visacro, "Response of Grounding Electrodes to Impulsive Currents : An Experimental Evaluation" 51 (51): 161-164, 2009

      4 V. Cooray, "Physical model of surge-current characteristics of buried vertical rods in the presence of soil ionization" 60 : 193-202, 2004

      5 N. Mohamad Nor, "Investigations of earthing systems under steady-state and transients with FEM and experimental work" 44 : 758-763, 2013

      6 Y. Liu, "Investigating the validity of existing definitions and empirical equations of effective length/area of grounding wire/grid for transient studies" 65 : 329-335, 2007

      7 "IEEE Std. 81.2-1991, IEEE Guide for Measurement of Impedance and Safety Characteristics of Large, Extended or Interconnected Grounding Systems"

      8 "IEC 62305-1, Protection against lightning – Part 1: General principles"

      9 A. Rousseau, "High frequency earthing impedance measurements at Camp Blanding, Florida" 85 : 50-58, 2012

      10 S. Visacro, "HEM; A model for simulation of lightning-related engineering problems" 20 (20): 1206-1208, 2005

      11 M. Heimbach, "Grounding system analysis in transients program applying electromagnetic field approach" 12 (12): 186-193, 1997

      12 M. A. F. Mattos, "Grounding Grids Transient Simulation" 20 (20): 1370-1378, 2005

      13 A. F. Otero, "Frequency-dependent grounding system calculation by means of a conventional nodal analysis techniques" 14 (14): 873-878, 1999

      14 Jong-Hyuk Choi, "Frequency-dependent grounding impedance of the counterpoise based on the dispersed currents" 대한전기학회 7 (7): 589-595, 2012

      15 A. D. Papalexopoulos, "Frequency-dependent characteristics of grounding systems" PWRD-2 (PWRD-2): 1073-1081, 1987

      16 L. Grcev, "Frequency-dependent and transient characteristics of substation grounding system" 12 (12): 172-178, 1997

      17 최종혁, "Frequency Response Characteristics of a Grounding Grid" 한국조명.전기설비학회 30 (30): 66-73, 2016

      18 S. Visacro, "Frequency Dependence of Soil Parameters: Experimental Results, Predicting Formula and Influence on the Lightning Response of Grounding Electrodes" 27 (27): 927-935, 2012

      19 J. Wang, "Extension of dynamic model of impulse behavior of concentrated grounds at high currents" 20 (20): 2160-2165, 2005

      20 S. Visacro, "Experimental impulse response of grounding grids" 94 : 92-98, 2013

      21 J. He, "Effective Length of Counterpoise Wire under Lightning Current" 20 (20): 1585-11591, 2005

      22 B. Zhang, "Diagnosis of breaks in substation's grounding grid by using the electromagnetic method" 38 (38): 473-476, 2002

      23 D. Poljak, "Comparison of wire antenna and modified transmission line approach to the assessment of frequency response of horizontal grounding electrodes" 32 : 676-681, 2008

      24 G. Celli, "Behaviour of grounding systems : A Quasi-static EMTP model and its validation" 85 : 24-29, 2012

      25 K. Sheshyekani, "Analysis of Transmission Lines With Arrester Termination, Considering the Frequency-Dependence of Grounding Systems" 51 (51): 986-994, 2009

      26 C. H. Choi, "An analysis on the Frequency-dependent grounding impedance based on the ground current dissipation of counterpoises in the two-layered soils" 70 (70): 184-191, 2012

      27 C. H. Choi, "An analysis of conventional grounding impedance based on the impulsive current distribution of a horizontal electrode" 85 : 30-37, 2012

      28 L. Grcev, "An Electromagnetic Model for Transients in Grounding Systems" 5 (5): 1771-1781, 1990

      29 S. Visacro, "A Comprehensive Approach to the Grounding Response to Lightning Currents" 22 (22): 381-386, 2007

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