Two methods for stochastic assessment of voltage sags are compared. The method of fault positions and a Monte Carlo simulation approach are utilized to stochastically describe the expected sag performance at some sites of a large transmission system. Fault scenarios are created and pseudo measurements are obtained in order to compare stochastic assessment with simulated measurements. It is shown that the method of fault positions cannot be used to predict the performance of a particular year, unless correcting and tuning factors are used to adjust the assessment. Whereas the method of fault positions gives long-term mean values, the Monte Carlo approach provides the complete frequency distribution function of selected sag indices (SARFI-X)
This paper addresses the effect of different uncertainties on the stochastic assessment of voltage d...
The proliferation of more sensitive loads has obliged distribution companies to pay greater attentio...
Digital simulation is a powerful mean to predict the voltage dip performance of a power network. Vol...
Two methods for stochastic assessment of voltage sags are compared. The method of fault positions an...
This paper compares fault position and Monte Carlo methods as the most common methods in stochastic ...
In this paper, voltage sags produced by balanced and unbalanced short circuits are analyzed by means...
In this article, we propose an extended fault positions method combined with the Monte Carlo method ...
This dissertation deals with the statistical characterization of the performance of power systems in...
This paper presents a methodology specially developed for the estimation of voltage sag characterist...
In this article, we propose an extended fault positions method combined with the Monte Carlo method ...
Faults in the power system are major cause of voltage sag. Voltage sag in the power system due to fa...
Abstract: Voltage sags are caused by faults which cause equipment trips. Different equipment have vo...
This paper presents a new stochastic approach to the comprehensive assessment of the impact of volta...
This paper describes a case study where voltage sags indices are estimated using Monte Carlo approac...
Abstract: Power system faults can cause voltage sags that, if they are less than voltage sensitivity...
This paper addresses the effect of different uncertainties on the stochastic assessment of voltage d...
The proliferation of more sensitive loads has obliged distribution companies to pay greater attentio...
Digital simulation is a powerful mean to predict the voltage dip performance of a power network. Vol...
Two methods for stochastic assessment of voltage sags are compared. The method of fault positions an...
This paper compares fault position and Monte Carlo methods as the most common methods in stochastic ...
In this paper, voltage sags produced by balanced and unbalanced short circuits are analyzed by means...
In this article, we propose an extended fault positions method combined with the Monte Carlo method ...
This dissertation deals with the statistical characterization of the performance of power systems in...
This paper presents a methodology specially developed for the estimation of voltage sag characterist...
In this article, we propose an extended fault positions method combined with the Monte Carlo method ...
Faults in the power system are major cause of voltage sag. Voltage sag in the power system due to fa...
Abstract: Voltage sags are caused by faults which cause equipment trips. Different equipment have vo...
This paper presents a new stochastic approach to the comprehensive assessment of the impact of volta...
This paper describes a case study where voltage sags indices are estimated using Monte Carlo approac...
Abstract: Power system faults can cause voltage sags that, if they are less than voltage sensitivity...
This paper addresses the effect of different uncertainties on the stochastic assessment of voltage d...
The proliferation of more sensitive loads has obliged distribution companies to pay greater attentio...
Digital simulation is a powerful mean to predict the voltage dip performance of a power network. Vol...