Conferences related to Neutral Grounding

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2020 IEEE IAS Petroleum and Chemical Industry Committee (PCIC)

The PCIC provides an international forum for the exchange of electrical applications technology related to the petroleum and chemical industry. The PCIC annual conference is rotated across North American locations of industry strength to attract national and international participation. User, manufacturer, consultant, and contractor participation is encouraged to strengthen the conference technical base. Success of the PCIC is built upon high quality papers, individual recognition, valued standards activities, mentoring, tutorials, networking and conference sites that appeal to all.


2020 IEEE Industry Applications Society Annual Meeting

The Annual Meeting is a gathering of experts who work and conduct research in the industrial applications of electrical systems.


2020 IEEE International Conference on Industrial Technology (ICIT)

ICIT focuses on industrial and manufacturing applications of electronics, controls, communications, instrumentation, and computational intelligence.


2020 IEEE Power & Energy Society General Meeting (PESGM)

The Annual IEEE PES General Meeting will bring together over 2900 attendees for technical sessions, administrative sessions, super sessions, poster sessions, student programs, awards ceremonies, committee meetings, tutorials and more


2020 IEEE/PES Transmission and Distribution Conference and Exposition (T&D)

Bi-Annual IEEE PES T&D conference. Largest T&D conference in North America.


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Periodicals related to Neutral Grounding

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Dielectrics and Electrical Insulation, IEEE Transactions on

Electrical insulation common to the design and construction of components and equipment for use in electric and electronic circuits and distribution systems at all frequencies.


Electrical Insulation Magazine, IEEE

The magazine covers theory, analysis, design (computer-aided design), and practical implementation of circuits, and the application of circuit theoretic techniques to systems and to signal processing. Content is written for the spectrum of activities from basic scientific theory to industrial applications.


Electromagnetic Compatibility, IEEE Transactions on

EMC standards; measurement technology; undesired sources; cable/grounding; filters/shielding; equipment EMC; systems EMC; antennas and propagation; spectrum utilization; electromagnetic pulses; lightning; radiation hazards; and Walsh functions


Energy Conversion, IEEE Transaction on

Research, development, design, application, construction, installation, and operation of electric power generating facilities (along with their conventional, nuclear, or renewable sources) for the safe, reliable, and economic generation of electrical energy for general industrial, commercial, public, and domestic consumption, and electromechanical energy conversion for the use of electrical energy


Geoscience and Remote Sensing, IEEE Transactions on

Theory, concepts, and techniques of science and engineering as applied to sensing the earth, oceans, atmosphere, and space; and the processing, interpretation, and dissemination of this information.


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Most published Xplore authors for Neutral Grounding

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Xplore Articles related to Neutral Grounding

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IEEE Draft Guide for the Application of Neutral Grounding in Electrical Utility Systems, Part III--Generator Auxiliary Systems

IEEE PC62.92.3/D4, August, 2012, 2012

Basic factors and general considerations in selecting the class and means of neutral grounding for electrical generating plant auxiliary power systems are given in this guide. Apparatus to be used to achieve the desired grounding are suggested, and methods to specify the grounding devices are given. Sensitivity and selectivity of equipment ground-fault protection as affected by selection of the neutral ...


IEEE Guide for the Application of Neutral Grounding in Electrical Utility Systems, Part V-Transmission Systems and Subtransmission Systems - Redline

IEEE Std C62.92.5-2009 (Revision of IEEE Std C62.92.5-1992) - Redline, 2009

Basic factors and general considerations in selecting the class and means of neutral grounding for a particular ac transmission or subtransmission system are covered. An apparatus to be used to achieve the desired grounding is suggested, and methods for specifying the grounding devices are given. Transformer tertiary systems, equipment-neutral grounding, and the effects of series compensation on grounding are discussed.


IEEE Draft Guide for the Application of Neutral Grounding in Electrical Utility Systems, Part IV - Distribution

IEEE PC62.92.4/D6.1, July 2014, 2014

The neutral grounding of single and three-phase ac electric utility primary distribution systems with nominal voltages in the range of 2.4 kV34.5 kV is addressed. Classes of distribution systems grounding are defined. Basic considerations in distribution system grounding concerning economics, control of temporary over voltages, control of ground-fault currents, and ground relaying are addressed. Also considered is the use of ...


IEEE Draft Standard Requirements, Terminology, and Test Procedures for Neutral Grounding Devices

IEEE PC57.32/D16, June 2015, 2015

This standard applies to devices used f 1 or the purpose of controlling the ground current or the potentials to ground of an alternating current system. These devices are: groundingtransformers, ground-fault neutralizers, resistors, reactors, or combinations of these.


IEEE Approved Draft Standard Requirements, Terminology, and Test Procedures for Neutral Grounding Devices

IEEE PC57.32/D16.3, September 2015, 2015

This standard applies to devices used for the purpose of controlling the ground current or the potentials to ground of an alternating current system. These devices are: groundingtransformers, ground-fault neutralizers, resistors, reactors, or combinations of these.


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Educational Resources on Neutral Grounding

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IEEE-USA E-Books

  • IEEE Draft Guide for the Application of Neutral Grounding in Electrical Utility Systems, Part III--Generator Auxiliary Systems

    Basic factors and general considerations in selecting the class and means of neutral grounding for electrical generating plant auxiliary power systems are given in this guide. Apparatus to be used to achieve the desired grounding are suggested, and methods to specify the grounding devices are given. Sensitivity and selectivity of equipment ground-fault protection as affected by selection of the neutral grounding device are discussed, with examples.

  • IEEE Guide for the Application of Neutral Grounding in Electrical Utility Systems, Part V-Transmission Systems and Subtransmission Systems - Redline

    Basic factors and general considerations in selecting the class and means of neutral grounding for a particular ac transmission or subtransmission system are covered. An apparatus to be used to achieve the desired grounding is suggested, and methods for specifying the grounding devices are given. Transformer tertiary systems, equipment-neutral grounding, and the effects of series compensation on grounding are discussed.

  • IEEE Draft Guide for the Application of Neutral Grounding in Electrical Utility Systems, Part IV - Distribution

    The neutral grounding of single and three-phase ac electric utility primary distribution systems with nominal voltages in the range of 2.4 kV34.5 kV is addressed. Classes of distribution systems grounding are defined. Basic considerations in distribution system grounding concerning economics, control of temporary over voltages, control of ground-fault currents, and ground relaying are addressed. Also considered is the use of grounding transformers, grounding of high voltage neutral of wye-delta distribution transformers, and interconnection of primary and secondary neutrals of distribution transformers.

  • IEEE Draft Standard Requirements, Terminology, and Test Procedures for Neutral Grounding Devices

    This standard applies to devices used f 1 or the purpose of controlling the ground current or the potentials to ground of an alternating current system. These devices are: groundingtransformers, ground-fault neutralizers, resistors, reactors, or combinations of these.

  • IEEE Approved Draft Standard Requirements, Terminology, and Test Procedures for Neutral Grounding Devices

    This standard applies to devices used for the purpose of controlling the ground current or the potentials to ground of an alternating current system. These devices are: groundingtransformers, ground-fault neutralizers, resistors, reactors, or combinations of these.

  • IEEE Draft Standard Requirements, Terminology, and Test Procedures for Neutral Grounding Devices

    This standard applies to devices used for the purpose of controlling the ground current or the potentials to ground of an alternating current system. These devices are: groundingtransformers, ground-fault neutralizers, resistors, reactors, or combinations of these.

  • IEEE Draft Guide for the Application of Neutral Grounding in Electrical Utility Systems, Part V-Transmission Systems and Subtransmission Systems

    Basic factors and general considerations in selecting the class and 38 means of neutral grounding for a particular ac transmission or subtransmission system are covered. An apparatus to be used to achieve the desired grounding is suggested, and methods for specifying the grounding devices are given. Transformer tertiary systems, equipment-neutral grounding, and the effects of series compensation on grounding are discussed.

  • Pulse-Resistive Neutral Grounding of Three-Phase Power Network and its Physical Model

    A method of pulse high-resistance neutral grounding has been developed for power distribution networks. The grounding of the neutral grounding resistor occurs with intermittent ground faults when the neutral-to-ground voltage derivative (duN/dt) is high enough. The vast majority parameters of power networks are such that the voltage derivative at permanent earth fault (duN~/dt) is much less than at restriking one (i.e. duN/dtmax>>duN~/dt). It allows effectively controlling resistive grounding mode of the network neutral and eliminating direct resistive grounding disadvantages caused by the increased fault current of the industrial frequency. The pulse resistive grounding efficiency is theoretically proved. A low-voltage physical model of power network with different methods of neutral grounding including pulse- resistive one is designed and manufactured.

  • Why neutral-grounding resistors need continuous monitoring

    A resistance-grounded power system has a critical element that is often ignored-the neutral-grounding resistor. A resistance-grounded power system should have itpsilas neutral-grounding resistor continuously monitored. During a single-phase-to-ground fault, current flows from the transformer or generator winding through the faulted-phase conductor to the fault and to ground, returning to the source winding through the ground-return path and the neutral-grounding resistor. When a neutral-grounding resistor fails, the failure mode is usually open circuit leaving the ground-return path open. Current-sensing ground-fault protection, which is the type most commonly employed in a resistance-grounded system, will not operate with an open resistor, and the advantages of resistance grounding are unknowingly lost. Inadvertent operation with an ungrounded system and inoperative ground-fault protection can be avoided by using a continuous neutral-grounding-resistor monitor. This paper reviews the benefits of resistance grounding, compares continuous resistor monitoring with planned-maintenance testing and inspection, and defines the characteristics required of a neutral-grounding- resistor-monitor. Three case studies are presented that show the need for continuous monitoring of the neutral-grounding resistor.

  • IEEE Guide for the Application of Neutral Grounding in Electrical Utility Systems--Part I: Introduction

    The application of neutral grounding to three-phase electrical utility systems is described in this guide. It is Part 1 of the IEEE C62.92 series of guides for neutral grounding. This guide presents basic considerations of the selection of neutral grounding parameters that will provide for the control of overvoltage and ground-fault current on all parts of three-phase electrical utility systems rated greater than 1000 V.



Standards related to Neutral Grounding

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Guide for the Application of Neutral Grounding in Electrical Utility Systems, Part V - Transmission Systems and Subtransmission Systems

The scope of this document is to give the basic factors and general considerations in selecting the class and means of neutral grounding for a particular ac transmission or subtransmission system, and the suggested method and apparatus to be used to achieve the desired grounding. Definitions of grounding terms used in this part of the guide may be found in ...


IEEE Guide for Control of Small Hydroelectric Power Plants


IEEE Guide for the Application of Neutral Grounding in Electrical Utility Systems, Part 1 - Introduction

Present basic considerations for the selection of neutral grounding parameters that will provide for the control of ground-fault current and over-voltage on all portions of three-phase electric utility systems.


IEEE Guide for the Application of Neutral Grounding in Electrical Utility Systems, Part III - Generator Auxiliary Systems


IEEE Guide for the Application of Neutral Grounding in Electrical Utility Systems, Part IV-Distribution

This section of the guide is concerned with the neutral grounding of single- and three-phase alternating current (ac) electric utility primary distribution systems with nominal voltages in the range of 2.4 kV to 34.5 kV. For the purpose of this guide, the term distribution" includes the substation providing power to distribution feeders


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Jobs related to Neutral Grounding

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