Search results for "Power engineering"

showing 10 items of 126 documents

Analysis of ground fault current distribution along nonuniform multi-section lines

2008

In case of a substation supplied by a combined overhead-cable line, most of the ground fault current flows through the cable sheaths and discharges into the soil surrounding the point of discontinuity, where cables are connected to the overhead line. In the paper a new method is presented for computing the ground fault current distribution in case of feeding line consisting of two or more different sections, i.e. part overhead and part underground cable. Besides the calculation of the earth current at the fault location, the leakage current at the transit/transition stations as well as at the overhead line towers can be evaluated, in order to ensure proper safety conditions. Based on the tw…

EngineeringComputer programCurrent distributionbusiness.industryEarth currentElectrical engineeringEnergy Engineering and Power TechnologyFault (power engineering)Discontinuity (geotechnical engineering)Ground fault application transferElectrical and Electronic EngineeringbusinessGround fault currentComputer Science::Operating SystemsGroundingOverhead lineElectric Power Systems Research
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Experimental validation of a general model for three phase inverters operating in healthy and faulty modes

2012

The paper presents the experimental verification of a general mathematical model of Voltage Source Inverters (VSI) able to simulate fault conditions and which is also useful for the simulation of fault-tolerant systems for different applications. In general, in the past, the problem of faulty inverters modeling has been addressed specifically by considering faults on the different phases as separate cases. Furthermore, traditional models include only the faulty mode and not the healthy mode, so resulting then not able to predict transient phenomena. The model hereafter presented overcomes this drawback. It was formulated by introducing the concept of “healthy leg binary variables”. Such var…

EngineeringCorrectnessCircuit faults Fault tolerance Fault tolerant systems Integrated circuit modeling Inverters Mathematical model Vectorsbusiness.industryFault toleranceControl engineeringHardware_PERFORMANCEANDRELIABILITYSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciFault (power engineering)Fault indicatorStuck-at faultComputer Science::Hardware ArchitectureThree-phaseTransient (oscillation)Voltage sourcebusinessComputer Science::Operating SystemsComputer Science::Distributed Parallel and Cluster ComputingInternational Symposium on Power Electronics Power Electronics, Electrical Drives, Automation and Motion
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Applications of the Fault Decoupling Device to Improve the Operation of LV Distribution Networks

2008

The aim of this paper is to present the operating principle of a new resonant device, called the fault decoupling device (FDD), able to improve power quality in electrical distribution systems. In low-voltage networks, this device can be employed in order to mitigate voltage dips due to faults or large induction motor startup. Moreover, in the presence of distributed-generation (DG) units, the FDD allows one to obtain various benefits such as a reduction of the fault current in each node of the network and an increase in the voltage at the DG unit node. In order to show the performances of the FDD, analytical studies and computer simulations were carried out which took into account various …

EngineeringDistributed generation (DG) fault decoupling device power generation power quality (PQ) voltage dips.business.industryEnergy Engineering and Power TechnologyFault (power engineering)AC motorlaw.inventionlawPower electronicsElectrical networkElectronic engineeringVoltage regulationElectrical and Electronic EngineeringPower-system protectionbusinessLow voltageDecoupling (electronics)
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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 method for the evaluation of fault current distribution in complex high voltage networks

2015

Abstract The paper presents a method for the study of large interconnected earthing systems in High Voltage networks. The mathematical model proposed for calculating the distribution of the Single-line-to-Earth fault current is useful for a methodical and accurate analysis of complex systems having meshed configuration and more sources, and has practical application for the Transmission System Operator. Two case studies are provided. The first one considers a fault occurring inside and outside a station in a real 220 kV transmission network. In the second example, the proposed methodology is compared with the classical “Double-sided elimination” method.

EngineeringDistribution (number theory)business.industryGroundComplex systemEnergy Engineering and Power TechnologyHigh voltageControl engineeringFault (power engineering)Earthing systemElectric power systemSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaElectric power systemTransmission networkElectronic engineeringEarthingSafetyElectrical and Electronic EngineeringbusinessElectric Power Systems Research
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Simple Circuit Models for Studying Global Earthing Systems

2007

The paper proposes three simple circuit models for the simulation of the behaviour of a global earthing system during different fault events. The models allow one the evaluation of the maximum earth potential rise at every possible fault location and for every possible fault event. The three considered fault events are: single-line-to-earth fault inside a MV/LV substation, double-earth-fault in a MV line, single-line-to-earth fault inside a HV/MV station. After having illustrated the hypotheses at the basis of the study, the circuit models for the three fault events are presented and a numerical example shows how to use them in order to check the "global safety" of the interconnected earthi…

EngineeringEarth potential riseGroundbusiness.industryHardware_PERFORMANCEANDRELIABILITYEarthing systemFault (power engineering)Line (electrical engineering)Fault indicatorReliability engineeringStuck-at faultSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaGrounding Earth Circuit faults Substations Electrodes Integrated circuit interconnections Voltage Safety Paramagnetic resonance Fault locationFault modelbusiness
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Experimental investigation on PLC signal crossing of power transformers

2014

In this work the use of PLC in MV-LV networks is investigated, by means of experimental tests in the case of a two-ways MV/LV communication between two secondary substations. The two substations are connected by a MV overhead power line. Moreover each substation has a by-pass connection at MV bus-bars and a MV/LV power transformer. A ST7580 transceiver is used to inject the communication signal. The transceiver is embedded in a new interface device developed by the authors. In the paper the communication issues are introduced and some experimental tests are presented and discussed. Such tests have been carried out in the presence of voltage net, i.e. 24 kV, with the aim to verify the possib…

EngineeringElectric power distributionbusiness.industrycommunication systems power system communication power transformers communication equipment testing narrow band power line communication attenuation smart gridsOverhead power lineElectrical engineeringcommunication systemsnarrow band power line communicationSignalCurrent transformerpower transformerspower system communicationElectric power transmissionsmart gridsElectronic engineeringPower engineeringTransceiverbusinessSettore ING-INF/07 - Misure Elettriche E Elettronicheattenuationcommunication equipment testingVoltage
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Analysis of voltage dips propagation in MV distribution networks by using ATP-EMTP code

2003

In this paper, voltage dips simulation in electric power MV distribution networks by using an improved ATP circuit-breaker model are reported. An equivalent circuit of a MV distribution system is employed. The circuit-breaker is simulated by using a tool written in MODELS language and by arranging a time-variable differential arc-conductance based on the combination of Mayr's and Cassie's equations. The simulations carried out have shown how the amplitude of the voltage dips depends on the type and location of the fault and their duration is strictly related to the circuit-breaker parameters.

EngineeringEmtpbusiness.industryElectrical engineeringHardware_PERFORMANCEANDRELIABILITYTopologyFault (power engineering)Computer Science::Hardware ArchitecturePower system simulationAmplitudeEquivalent circuitElectric powerbusinessCircuit breakerVoltage1999 International Symposium on Electromagnetic Compatibility (IEEE Cat. No.99EX147)
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Rotor-bar breakage mechanism and prognosis in an induction motor

2015

© 1982-2012 IEEE. This paper proposes a condition-based maintenance and prognostics and health management (CBM/PHM) procedure for a rotor bar in an induction motor. The methodology is based on the results of a fatigue test intended to reproduce in the most natural way a bar breakage in order to carry out a comparison between transient and stationary diagnosis methods for incipient fault detection. Newly developed techniques in stator-current transient analysis have allowed tracking the developing fault during the last part of the test, identifying the failure mechanism, and establishing a physical model of the process. This nonlinear failure model is integrated in a particle filtering algor…

EngineeringFailure analysisBar (music)particle filtersremaining life assessmentFault (power engineering)Fault detection and isolationlaw.inventionlawspectrograminduction motorsElectrical and Electronic EngineeringSpectrogramFatigueFault diagnosisbusiness.industryRotor (electric)prognostics and health management (PHM)Prognostics and health management (PHM)Structural engineeringfault diagnosisfrequency-domain analysisrotorsInduction motorsControl and Systems EngineeringRotorsPrognosticsRemaining life assessmentINGENIERIA ELECTRICAfatigueTransient (oscillation)Particle filtersbusinessParticle filterInduction motor
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Vibration analysis for bearing fault detection and classification using an intelligent filter

2014

Abstract This paper proposes an intelligent method based on artificial neural networks (ANNs) to detect bearing defects of induction motors. In this method, the vibration signal passes through removing non-bearing fault component (RNFC) filter, designed by neural networks, in order to remove its non-bearing fault components, and then enters the second neural network that uses pattern recognition techniques for fault classification. Four different categories include; healthy, inner race defect, outer race defect, and double holes in outer race are investigated. Compared to the regular fault detection methods that use frequency-domain features, the proposed method is based on analyzing time-d…

EngineeringFault (power engineering)SignalFault detection and isolationlaw.inventionVibration signallawElectronic engineeringElectrical and Electronic EngineeringFault classificationBearing (mechanical)Artificial neural networkbusiness.industryMechanical EngineeringComputer Science Applications1707 Computer Vision and Pattern RecognitionPattern recognitionFilter (signal processing)Neural networkComputer Science ApplicationsFault indicatorStuck-at faultControl and Systems EngineeringBearingArtificial intelligenceBearing; Fault classification; Fault detection; Neural network; Vibration signal; Mechanical Engineering; Electrical and Electronic Engineering; Computer Science Applications1707 Computer Vision and Pattern RecognitionbusinessFault detectionhuman activitiesMechatronics
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