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Título
Substation Grounding Grid Diagnosis Applying Optimization Techniques Based on Measurements and Field Tests
Publicado em
IEEE Transactions on Industry Applications
ResumO
Considering urban substations ground grid diagnosis, some real-physical constraints result in measurement process challenges: (i) limited length between electrodes used to measure the equivalent impedance of the grounding system; (ii) to determine the current that flows from ground grid conductors to the earth and (iii) to determine the grid resistance. In this scenario, an adequate diagnosis of the safety offered by the ground grid under test when a ground fault occurs is not a trivial task. This paper describes a methodology that allows a reliable diagnosis regarding the safety provided by a substation ground grid. The methodology is applied to the parameters obtained in performed field tests. The method has two steps. First, the Fall-of-Potential Method with reduced distances between electrodes is used to determine the equivalent impedance of the grounding system. After the ground current is obtained. In both stages, optimization techniques are applied to the specific equations that govern the phenomenon under study. Comparative case studies considering real-life data illustrate the effectiveness of the method.
Título
Substation Grounding Grid Diagnosis Applying Optimization Techniques Based on Measurements and Field Tests
Publicado em
2019 IEEE International Conference on Environment and Electrical Engineering and 2019 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe)
Resumo
In measurements on substations grounding grid located in urban areas and considering the overhead ground wires of transmission lines connected to the conductors of the grid, some constraints results in issues in the measurement process. In this scenario, an adequate diagnosis of the safety offered to human beings by the grounding grid under test when a short-circuit involving the earth occurs is not a trivial task. In this context, the paper presents a methodology that allows a trust diagnosis regarding to the safety provided by a grounding grid to the people nearby or inside of a substation. The method has two steps. First, the Fall-of-Potential Method with reduced distances between electrodes is used to determine the equivalent impedance of the grounding system. After that, the ground current is obtained. In both stages, optimization techniques are applied to the specific equations that govern the phenomenon under study. Measurements were performed on real ground grid, as well as, comparisons with state-of-the-art demonstrate that the methodology provides adequate results.
Título
Harmonic distortion assessment using state estimation algorithm
Publicado em
2016 17th International Conference on Harmonics and Quality of Power (ICHQP)
Resumo
The power distribution sector is facing high operational costs due to penalties related to poor power quality delivered to sensitive customers. In order to improve the power quality a broader assessment is needed. This paper proposes a harmonic distortion assessment method based in the state estimation technique. This method is intended to assess harmonic distortion where there are not measurement devices available or to correct measurement errors.