Search results for " Ground Fault"

showing 9 items of 9 documents

Currents Distribution During a Fault in an MV Network: Methods and Measurements

2016

When a single line to ground fault happens on the MV side of a HV/MV system, only a small portion of the fault current is injected into the ground by the ground-grid of the faulty substation. In fact the fault current is distributed between grounding electrodes and MV cables sheaths. In systems with isolated neutral or with resonant earthing this may be sufficient to provide safety from electric shock. Experimental measurements were performed on a real MV distribution network: a real single line to ground fault was made and fault currents were measured in the faulty substation and in four neighboring substations. In this paper the problem of fault current distribution is introduced, the tes…

EngineeringDistribution (number theory)020209 energyGlobal earthing system02 engineering and technologyglobal earthing systemsFault (power engineering)Industrial and Manufacturing EngineeringFault current limiter0202 electrical engineering electronic engineering information engineeringmedicineCurrent distributionElectrical and Electronic EngineeringElectrical conductorsingle line to ground faultglobal earthing systems (GESs)Current distribution electrical safety global earthing systems (GESs) grounding power distribution faults power system faults single line to ground fault (SLGF)business.industryGroundElectric shockElectrical engineeringpower system faultsgroundingmedicine.diseaseGridSingle linecurrent distribution; electrical safety; global earthing systems; grounding; power distribution faults; power system faults; single line to ground fault; control and systems engineering; industrial and manufacturing engineering; electrical and electronic engineeringSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaSettore ING-IND/31 - ElettrotecnicaPower system faultControl and Systems Engineeringsingle line to ground fault (SLGF)power distribution faultselectrical safetybusinessCurrent distribution; electrical safety; global earthing systems (GESs); grounding; power distribution faults; power system faults; single line to ground fault (SLGF); Control and Systems Engineering; Industrial and Manufacturing Engineering; Electrical and Electronic EngineeringPower distribution fault
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A Simple Method for Evaluating Ground-Fault Current Transfer at the Transition Station of a Combined Overhead-Cable Line

2008

When a substation is fed by a combined overhead-cable transmission line, a significant part of the ground fault current flows through cable sheaths and is discharged into the soil at the transition station where cables are connected to the overhead line. Such a phenomenon, known as ldquofault application transfer,rdquo may result in high ground potentials at the transition station which may cause shocks and equipment damage. The scope of this paper is to present new analytic formulas which can be used for the direct calculation of the fault current transferred at the transition station and its ground potential rise as well as the substation earth current. The proposed formulas allow evaluat…

EngineeringGroundbusiness.industryElectric shockAerial cableElectrical engineeringEnergy Engineering and Power TechnologyFault application transfer ground fault current distribution grounding safety conditions.medicine.diseaseFault (power engineering)Line (electrical engineering)law.inventionlawTransmission lineOverhead cablemedicineElectrical and Electronic EngineeringbusinessOverhead line
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Effects of double ground faults in Wind Farms collector cables

2015

Medium Voltage collector cables of Wind Farms have metal shields connected to the grounding systems of the towers and of the connection station. Thanks to this bonding, when a ground fault occurs, the fault current splits itself among all the grounding systems of the wind farm, this causing a reduction of the ground potential rise at the fault location. Nevertheless, in presence of double ground faults, very high ground potential rises occur at the two fault locations and safety against electric shock is not always assured. In order to study this issue, the paper presents a model for simulating in a simple way the effects of double ground faults occurring in Medium Voltage collectors of ext…

Engineeringbusiness.industryElectric shockGroundwind plantElectrical engineeringShieldsEnergy Engineering and Power TechnologyHigh voltageHardware_PERFORMANCEANDRELIABILITYgrounding systemmedicine.diseaseFault (power engineering)MV cableSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiamedicineDouble ground faultElectrical and Electronic EngineeringbusinessMarine engineeringVoltage
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The Global Grounding System: Definitions and guidelines

2015

The present paper presents the preliminary results of the ongoing Italian METERGLOB project on the contribution given by the exposed conductive parts to a Global Grounding System. One of the expected results of METERGLOB is to carry out guidelines for the identification of a Global Grounding System. These guidelines must be defined on the basis of the definitions and methods present in the current international standards on grounding and safety. In the paper some definitions and elements to be taken into account for the identification of a Global Grounding System are given.

Engineeringbusiness.industryGroundMechanical engineeringEnergy Engineering and Power TechnologyDefinitionsDefinitionGuidelinesGuidelineEarthing systemGlobal Grounding System; Ground Fault; Guidelines; DefinitionsGlobal Grounding SystemSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaIdentification (information)Definitions; Global Grounding System; Ground Fault; Guidelines; Electrical and Electronic Engineering; Energy Engineering and Power TechnologySettore ING-IND/31 - ElettrotecnicaRisk analysis (engineering)Ground FaultElectrical and Electronic Engineeringbusiness
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Current and Voltage Behaviour During a Fault in a HV/MV System: Methods and Measurements

2015

When a single line to ground fault happens on the MV side of a HV/MV system, only a small portion of the fault current is injected into the ground by the ground-grid of the faulty substation. In fact the fault current is distributed between grounding electrodes and MV cables sheaths. In systems with isolated neutral or with resonant earthing this may be sufficient to provide safety from electric shock. Experimental measurements were performed on a real MV distribution network: a real single line to ground fault was made and fault currents were measured in the faulty substation and in four neighbouring substations. In this paper the problem of fault current distribution is introduced, the te…

Engineeringelectrical and electronic engineeringGlobal earthing systemCurrent distribution; Electrical safety; Global earthing systems; grounding; Power distribution faults; Single line to ground faultHardware_PERFORMANCEANDRELIABILITYFault (power engineering)Fault current limiterElectronic engineeringmedicineGlobal earthing systemscurrent distribution; electrical safety; global earthing systems; grounding; power distribution faults; single line to ground fault; electrical and electronic engineering; energy engineering and power technologyenergy engineering and power technologyCurrent distributionPower distribution faultsElectrical safetySingle line to ground faultElectric shockGroundbusiness.industryElectrical engineeringgroundingSingle linemedicine.diseaseEarthing systemSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaSettore ING-IND/31 - ElettrotecnicaCurrent (fluid)businessPower distribution faultVoltage
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Ground Fault Current Distribution in Substations Supplied by Nonuniform Multi-Section Lines

2007

he paper presents a general method for computing the distribution of substation ground fault current. The feeding line can be entirely homogeneous along its whole length or consisting of two or more different sections, i.e. part overhead and part underground cable. Based on the two-port theory, the proposed method allows to take into account all the relevant conductively and inductively coupled parameters which take part to the distribution of the fault current and can be easily implemented in a computer program. Numerical examples demonstrate the high efficiency of the proposed method.

Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaGrounding ground fault current fault application transfer.
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Practical tables for the design of the grounding systems in distribution networks in presence of metallic interconnection

2009

The present paper deals with the dependence of the ground current, due to a single-line-to-ground fault in a secondary substation, on the electrical and geometrical parameters of a Medium Voltage distribution network in which a metallic interconnection between the grounding systems is realized. Examining different situations, some easy-to-use tables are provided for a practical approach to the design of the ground electrodes of the secondary substations in these networks. The relevance of the work is due to the lack in the international standards of specific indications on how to consider the presence of the interconnection elements in distribution networks.

Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaInterconnection Ground Fault Grounding Systems
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On the de-energization of over-head low-voltage lines under high-impedance fault conditions

2018

Downed distribution conductors in overhead distribution systems, may not be a concern for equipment, but greatly challenge the safety of persons, as well as the integrity of properties. Upstream overcurrent protective devices may not be able to detect the magnitudes of fault currents resulting from these high-impedance faults. Even though protective devices capable to detect such faults have been available on the market, not all the utilities have equipped their stations with these products, likely due to the costs. In this paper, the authors formalize the problem, and propose a possible cost-effective solution for the low-voltage over-head lines with neutral wire. Such solution includes a …

business.industryComputer scienceHigh-Impedance Ground faultShort-circuit currentsElectrical engineeringFault protectionGround and neutralFault (power engineering)Line (electrical engineering)OvercurrentSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaHigh impedanceMetal hookOver-head linesUpstream (networking)businessLow voltageShort circuit2018 IEEE/IAS 54th Industrial and Commercial Power Systems Technical Conference (I&CPS)
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A Cost-Effective Solution for Clearing High-Impedance Ground Faults in Overhead Low-Voltage Lines

2019

Downed distribution conductors in overhead distribution systems may not be a concern for equipment but greatly challenge the safety of persons, as well as the integrity of properties. Standard overcurrent protective devices may not be able to detect the magnitudes of currents resulting from high-impedance ground faults. Sophisticated relays able to detect high-impedance ground faults have been available to electric utilities. However, their implementation is rather uncommon, especially in developing countries, most likely due to their costs. In this paper, the authors formalize the problem, and propose a possible cost-effective solution for low-voltage overhead lines with neutral wire. This…

metal hookbusiness.industryComputer science020209 energy020208 electrical & electronic engineeringElectrical engineeringFault protectionGround and neutral02 engineering and technologyoverhead lineIndustrial and Manufacturing EngineeringLine (electrical engineering)short-circuit currentsOvercurrentSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaHigh impedanceControl and Systems Engineeringhigh-impedance ground fault0202 electrical engineering electronic engineering information engineeringOverhead (computing)Electrical and Electronic EngineeringbusinessLow voltageShort circuitVoltageIEEE Transactions on Industry Applications
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