System wide model validation of the Brazilian Interconnected Power System

Decker, Ildemar C.; Silva, Aguinaldo S. e; Silva, Rui Jovita G. da; Agostini, M. N.; Martins, N.; Prioste, Fernando B.

doi:10.1109/pes.2010.5590023

Cited by 27 publications

(11 citation statements)

References 7 publications

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“…Besides some considerations such as selecting an independent time reference, speed, and angle, employing Park's transformation is in essence along with (1) [2]. This method keeps the physical meaning of parameters [10], although it is excessively complex.…”

Section: Model Validation's Process and Methodologymentioning

confidence: 99%

“…These data are recorded by measurement equipments; thereafter, they are injected to the model and its response is measured in order to tune the model parameters. This process, although misses the physical meaning of parameters, is simple and straightforward in practical applications [10]. In this method, some considerations must be kept in mind such as [1], [8].…”

Section: Model Validation's Process and Methodologymentioning

confidence: 99%

See 1 more Smart Citation

Generating Unit Model Validation and Calibration Through Synchrophasor Measurements

Hajnoroozi¹,

Aminifar

Ayoubzadeh³

2015

IEEE Trans. Smart Grid

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This paper presents a rule-based approach using synchrophasor measurements for generating unit model validation and calibration. The proposed method utilizes frequency and three-phase voltage signals recorded by phasor measurement unit at the point of common coupling of unit transformers to the high voltage grid. In the simulation setup, by taking the hybrid data simulation technique in use, the signals are being injected to the subsystem of generating units through a voltage source, which models the truncated external grid. The measured and simulated active power oscillations are then compared to each other and the effects of generating unit parameters on the oscillation mismatches are extracted. The maximum amplitude and damping ratio of oscillations are two main aspects of the observed mismatches. To recognize the most effective parameters on these aspects, a sensitivity analysis technique is applied. Next, identified parameters are adjusted to calibrate the generating unit dynamic model. Finally, quantitative and qualitative perspectives of the proposed method are investigated through different sorts of actual disturbances. The obtained results demonstrate that the final calibrated model outperforms the existing one, and it can be used for power system planning and operation studies. Time domain simulations are performed by DIgSILENT power factory software.Index Terms-Model validation and calibration (MVC), phasor measurement unit (PMU), playback process, sensitivity analysis.

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Section: Model Validation's Process and Methodologymentioning

confidence: 99%

Section: Model Validation's Process and Methodologymentioning

confidence: 99%

Generating Unit Model Validation and Calibration Through Synchrophasor Measurements

Hajnoroozi¹,

Aminifar

Ayoubzadeh³

2015

IEEE Trans. Smart Grid

View full text Add to dashboard Cite

show abstract

“…Efforts have been made using synchronized phasor measurement to validate dynamic models so that the simulation results can accurately reflect performance of the actual system [20][21] [23]. To ensure the model accuracy, the 2030 EI dynamic model is validated against synchronized phasor measurements by the frequency monitoring network FNET/Grideye, which is essentially a single-phase Phasor Measurement Unit (PMU) network at the distribution level [22] [23].…”

Section: Methodsmentioning

confidence: 99%

Developing generic dynamic models for the 2030 Eastern Interconnection grid

Kou

Culliss

Markham

et al. 2014

2014 IEEE PES T&D Conference and Exposition

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“…This event was used to validate the system models used by the National System Operator and utilities. The validation was based on qualitative and quantitative criteria [9]:…”

Section: Hvpms Recordings Inmentioning

confidence: 99%

Experience and applications of phasor measurements to the Brazilian interconnected power system

Decker

Silva

Agostini

et al. 2010

Int Trans Elec Energy Syst

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SUMMARYIn this paper, applications of phasor measurements to the Brazilian interconnected power system (BIPS) are presented. Two prototypes, the low voltage phasor measurement system (LVPMS), with phasor measurement units (PMUs) installed in nine universities throughout Brazil and the high voltage phasor measurement system (HVPMS), with PMUs installed in four substations in a transmission utility in Southern Brazil, are the first installations in the country. These experimental prototypes have been a rich source of experience on the use of syncronized phasor measurements. Line parameter estimation, detection of oscillation modes, disturbance analysis, and system wide model validation have been the main applications. The LVPMS measurements are acquired at outlet voltage while the HVPMS measurements are acquired at 525 kV substations. The monitoring and analysis of several events in the BIPS have shown that both systems can provide relevant and comparable information on the BIPS dynamics.

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System wide model validation of the Brazilian Interconnected Power System

Cited by 27 publications

References 7 publications

Generating Unit Model Validation and Calibration Through Synchrophasor Measurements

Generating Unit Model Validation and Calibration Through Synchrophasor Measurements

Developing generic dynamic models for the 2030 Eastern Interconnection grid

Experience and applications of phasor measurements to the Brazilian interconnected power system

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