Results
In this thesis novel indices and test-functions for momentary and voltage sag events were designed to provide quantitative information regarding the service delivered. Furthermore, the impact of distributed generation on the developed integrated assessment is also evaluated under the scope of the developed indices.
The numerical results with and without DG are shown in the following table, emphasizing the performance index estimates as well as the inferior (Inf.) and superior (Sup.) limits of the confidence intervals.
The simulation model is based upon building time sequential synthetic operating cycles. As a result, the probability distributions of the performance indices can be obtained using an explicit representation of the state evaluations within the computational modeling.
The proposed methodology provides several other results, without and with DG , in all 3 phases. Such as, the current through one of the fuses, the estimated probability distribution of voltage sags at a node, the estimated probability distribution of momentary interruptions and events, time over current and time over voltage in a node as well as voltage during short-circuit.
Some results are presented below, but for more details and a full analysis one should consult Chapter 4 - Results and Discussions.
In this thesis novel indices and test-functions for momentary and voltage sag events were designed to provide quantitative information regarding the service delivered. Furthermore, the impact of distributed generation on the developed integrated assessment is also evaluated under the scope of the developed indices.
The numerical results with and without DG are shown in the following table, emphasizing the performance index estimates as well as the inferior (Inf.) and superior (Sup.) limits of the confidence intervals.
