Fast power-flow solution by the method of reduction and restoration

Krishnaparandhama, T.; Elangovan, S.; Kuppurajulu, A.; Sankaranarayanan, V.

doi:10.1049/ip-c.1980.0014

Cited by 3 publications

(3 citation statements)

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“…A fast load flow method proposed in [2,14] is adopted in this study. In this method, the load busbars are eliminated, retaining only generator busbars for the iterative process.…”

Section: Methods Of Power System Reduction and Restorationmentioning

confidence: 99%

An enhanced RCGA for a rapid and reliable load flow solution of electrical power systems

Kubba

Mokhlis

2012

International Journal of Electrical Power & Energy Systems

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“…A fast load flow method proposed in [2,14] is adopted in this study. In this method, the load busbars are eliminated, retaining only generator busbars for the iterative process.…”

Section: Methods Of Power System Reduction and Restorationmentioning

confidence: 99%

An enhanced RCGA for a rapid and reliable load flow solution of electrical power systems

Kubba

Mokhlis

2012

International Journal of Electrical Power & Energy Systems

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“…The classical model is used to study the transient stability of a power system for a period of time during which the dynamic behavior of the system is dependent largely on the stored energy in the rotating inertias. It's the simplest model and requires a minimum amount of data [6][7][8][9][10] .…”

Section: The Transient Stability Programmentioning

confidence: 99%

Computer Aided Transient Stability Analysis

Al-rawi¹,

Anwar²,

Abdul-Majeed³

2007

J. of Computer Science

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A program for handling and improving the transient stability of the Iraqi Super Grid electrical network was developed. The idea was demonstrated by applying it to the outages of the main generating units. The methodology was built upon a state of increasing power transfer through the healthy portion of network during disturbances. There were three parts concerned; the first part was the developing of the load flow program using fast decoupled method and the transient stability program using Modified Eulers method in the step by step solution, the second part was the engagement between the two programs, the third part was the application of the new program on the Iraqi supper grid network (400 kV)

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“…The second-order Newton-Raphson method, where the second-order derivatives were included in the computation process, was applied [5], and it was reported that this method gave tens of times faster results [6]. Another approach initially decreases the system size by focusing only on the voltage buses, and then applying the Newton-Raphson method [7]. The branch outage simulation results of this method were compared to the second-order Newton-Raphson method, and it was found that the former gave better results [5].…”

Section: Introductionmentioning

confidence: 99%

Heuristic methods for postoutage voltage magnitude calculations

Ceylan¹,

Özdemir²,

Dağ³

2016

Turk J Elec Eng & Comp Sci

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Power systems play a significant role in every aspect of our daily lives. Hence, their continuation without any interruption (or with the least duration of interruption due to faults or scheduled maintenances) is one of the key aims of electrical energy providers. As a result, electrical energy providers need to check in great detail the integrity of their power systems by performing regular contingency studies of the equipment involved. Among others, line and transformer outage simulations constitute an integral part of an electrical management system. Both accuracy and calculation speed depend on the branch outage model and/or the solution algorithms applied. In this paper, the local constrained optimization problem of the single-branch outage problem is solved by intelligent methods: particle swarm optimization, differential evolution, and harmony search. Simulations of IEEE 14-, 30-, 118-, and 300-bus systems are computed both by intelligent methods and by AC load flow. The results of the intelligent method-based simulations and AC load flow-based simulations are compared in terms of accuracy and computation speed.

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Fast power-flow solution by the method of reduction and restoration

Cited by 3 publications

References 0 publications

An enhanced RCGA for a rapid and reliable load flow solution of electrical power systems

An enhanced RCGA for a rapid and reliable load flow solution of electrical power systems

Computer Aided Transient Stability Analysis

Heuristic methods for postoutage voltage magnitude calculations

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