Coordination of Generator Protection with Generator Excitation Control and Generator Capability; Working Group J-5 of the Rotating Machinery Subcommittee, Power System Relay Committee

Mozina, Charles J.; Reichard, Michael; Bukhala, Z.; Conrad, S.; Crawley, T.; Gardell, J.; Hamilton, Robert C.; Hasenwinkle, I.; Herbst, D.; Henriksen, L.; Johnson, Gary L.; Kerrigan, P.; Khan, Saad Ahmad; Kobet, Gary; Kumar, P.; Patel, S.; Nelson, Bob; Sevcik, D.R.; Thompson, Michael J.; Uchiyama, J.; Usman, Saeeda; Waudby, P.; Yalla, M.

doi:10.1109/pes.2007.386034

Cited by 18 publications

(8 citation statements)

References 3 publications

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“…The relay reach in this case starts from the DER terminal and extends beyond the longest distribution line with one or two setting(s) zones [1], and its tripping time should be coordinated with that of distribution network relays. Introducing an additional reactance X add at the DER terminal as part of FDERS implementation will change the impedance as seen by the distance relay.…”

Section: Distance Protectionmentioning

confidence: 99%

“…A key design objective for protection engineers is to always ensure good coordination between the protection strategies of distributed energy resources (DERs), their controls and load capabilities in order to achieve reliable operation of the modern power distribution [1]. This requires a detailed and thorough design to make certain that the DER relays are correctly matched with the excitation systems.…”

Section: Introductionmentioning

confidence: 99%

“…This requires a detailed and thorough design to make certain that the DER relays are correctly matched with the excitation systems. In addition, the relays' settings must consider the full load capabilities and steady-state stability limits [1]. Besides, the protection schemes are required to be coordinated with the network interconnections of neighboring DERs [2].…”

Section: Introductionmentioning

confidence: 99%

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Investigation of Protection Schemes for Flexible Distribution of Energy and Storage Resources in an Industrial Microgrid

Haj-ahmed

Illindala

2015

IEEE Trans. on Ind. Applicat.

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It is well known that the control strategies of distributed energy resources (DER) have a major influence on protection schemes of both DER and distribution system. In view of that, coordination between the DER controls, DER relays, and distribution system relays is necessary to have a secure and reliable power delivery. Flexible Distribution of EneRgy and Storage resources (FDERS) was a recently proposed framework that is extremely valuable for industrial power systems containing large and fluctuating loads − − − − as it offers several benefits including enhanced controllability, improved system robustness, optimal energy resource deployment and increased lifetime. It has been earlier demonstrated that FDERS can significantly extend the mean battery replacement time in industrial power systems. As the FDERS makes use of adaptive DER controls, its application is found to also impact the distribution system protection schemes. In this paper, the protection of an industrial microgrid with FDERS is investigated. Several innovative relaying schemes are proposed to mitigate any adverse impact caused during the implementation of FDERS in a microgrid.

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Section: Distance Protectionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Investigation of Protection Schemes for Flexible Distribution of Energy and Storage Resources in an Industrial Microgrid

Haj-ahmed

Illindala

2015

IEEE Trans. on Ind. Applicat.

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“…Faults close to generator buses activating OELs that bypass AVRs potentially trigger transient instability [16]. Highly sophisticated OEL designs enable these devices to self-modify their limits and internal settings depending on conditions related to factors such as rotor hydrogen cooling pressure and temperature [11], [17]. Therefore, the inclusion of OEL dynamics in detail for stability assessment remains an important research challenge.…”

Section: Introductionmentioning

confidence: 99%

Impact of Overexcitation Limiters on the Power System Stability Margin Under Stressed Conditions

Anagnostou

Pal

2016

IEEE Trans. Power Syst.

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“…The work by Vladimir Terzija et al [10][11][12][13] states that PMU(Phasor Measurement Units) are one of the main building blocks of the Synchronized Measurement Technology, which is technologically the enabler of the Wide Area Monitoring, Protection and Control (WAMPAC) system. In the work by Mozina [14] a single document was framed for practical guidance for generator protection and generator AVR control. The paper by Zang Shui [15] represents the development of PSCAD/EMTDC based generator, exciter and governor modeling .…”

Section: Introductionmentioning

confidence: 99%

Application of phasor measurement unit in adaptive protection for loss of excitation in a generator

Senapati

Bhattacharya

Das³

2014

2014 6th IEEE Power India International Conference (PIICON)

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In the era of Smart Grid, Synchronized Phasor Measurement Units (PMU)s have become a mature technology, as the data provided by them have proved to be reliable. In this work a PMU has been envisaged to be installed in a generating station, supervising the operating conditions of three generating plants and their protection against frequently occurring faults. In this proposed scheme the PMU will examine its applicability as an Intelligent Electronic Device (IED) in a generator protection and coordination during Loss of Excitation(LOE).In this scheme, the PMU will sense alternator terminal voltage, terminal current and power factor and implement an adaptive relaying algorithm if anyone of the generators develop a field failure. The work primarily focuses on the development of a protection and coordination algorithm functional from an embedded system (FPGA Based) which will detect the LOE condition in the faulted machine and optimally load the generator under fault, without infringing on its Generator CapabilityCurve ( GCC), Steady State Stability Limit curve(SSSL). Therefore a conservative tripping as per the classical LOE relay is avoided, tripping takes place when the generator crosses the SSSL or the GCC(as the case maybe, examined in detail).

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Coordination of Generator Protection with Generator Excitation Control and Generator Capability; Working Group J-5 of the Rotating Machinery Subcommittee, Power System Relay Committee

Cited by 18 publications

References 3 publications

Investigation of Protection Schemes for Flexible Distribution of Energy and Storage Resources in an Industrial Microgrid

Investigation of Protection Schemes for Flexible Distribution of Energy and Storage Resources in an Industrial Microgrid

Impact of Overexcitation Limiters on the Power System Stability Margin Under Stressed Conditions

Application of phasor measurement unit in adaptive protection for loss of excitation in a generator

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