Your search keyword '"Lange, Andrzej"' showing total 4 results

1. Electrodynamic Forces in Main Three-Phase Busbar System of Low-Voltage Switchgear—FEA Simulation.

Author

Łapczyński, Sebastian, Szulborski, Michał, Kolimas, Łukasz, Sul, Przemysław, Owsiński, Maciej, Berowski, Przemysław, Żelaziński, Tomasz, and Lange, Andrzej

Subjects

SHORT-circuit currents, FINITE element method, ELECTRICAL energy, PHENOMENOLOGICAL theory (Physics), ELECTRIC circuits

Abstract

This paper concerns the effects of electrodynamic forces that act on current paths that are part of high-grade industrial distribution switchgear. This work is composed of experimental and simulation sections. In the experimental section, the short-circuit tests are presented and the occurrence of electrodynamic forces are shown in a visible way. The formation of electrodynamic forces in the current circuits of electrical energy distribution systems is related to the flow of high currents, but mostly it is related to short-circuit currents. In order to highlight these phenomena, the detailed specification of the parameters during tests is displayed. In the simulation section, the physical phenomenon of electrodynamic forces is being captured by employing a detailed real-scale model of switchgear and current paths. Therefore, the authors proposed employment of the FEM (finite element method) in order to obtain values of electrodynamic forces acting on the current paths by executing the detailed 3D coupled simulation. The analysis of the results and aftermath effects of their interactions provided interesting conclusions that concerned the operation of such power distribution layouts in critical short-circuit conditions. [ABSTRACT FROM AUTHOR]

Published

2024

2. Impact of the Short-Circuit Current Value on the Operation of Overhead Connections in High-Voltage Power Stations.

Author

Kozarek, Łukasz, Cichecki, Hubert, Bogacki, Mateusz, Tyryk, Mykhailo, Szulborski, Michał, Łapczyński, Sebastian, Kolimas, Łukasz, Rasolomampionona, Desire, Lange, Andrzej, Berowski, Przemysław, Sul, Przemysław, and Owsiński, Maciej

Subjects

SHORT-circuit currents, SHORT circuits, COMPUTER software, COMPUTER simulation, THERMAL analysis

Abstract

This paper focuses on determining the effects of short-circuit current values on the operation of high-voltage substations. The analyses performed focused on the dynamic and thermal effects on the short-circuit current for different input data configurations. The analyses of the dynamic effects of short-circuit current were performed in two ways. First, calculations were executed using the procedures contained in "IEC 60865-1:2012 Short-circuit currents, calculations of the effects of short-circuit currents. Part 1: Definitions and calculation methods". Analytic calculations were accomplished for different values of the initial three-phase short-circuit current, the type of short circuit, the static tension force of the conductors, the stiffness of the structure and the methods of attaching the lashing chains. Secondly, the same analysis was performed using PRIMTECH 3D software. The connections were modeled in computer software, for which the calculations were implemented according to normative recommendations. After obtaining the results, an analysis was performed using the model based on the input data. Performing the analysis in two ways made it possible to compare the results with each other and develop conclusions. An analysis of the thermal effects of the short-circuit current was also provided. The results of the calculations showed that the choice of conductor cross sections according to the value of the initial short-circuit current was correct. Particular attention has been paid to rigid conductors and flexible conductors, which are directly affected by the short circuit and have an impact on the selection of the complete equipment for the high-voltage switchgear. [ABSTRACT FROM AUTHOR]

Published

2023

3. Long- and Short-Term Comparative Analysis of Renewable Energy Sources.

Author

Buła, Dawid, Grabowski, Dariusz, Lange, Andrzej, Maciążek, Marcin, and Pasko, Marian

Subjects

RENEWABLE energy sources, COMPARATIVE studies, ELECTRIC power system reliability

Abstract

Network working conditions are influenced noticeably by the connection of renewable energy sources to distribution networks. This becomes more and more important due to the increase in renewable energy source penetration over the last few years. This in turn can lead to a mass effect. As a result, the classical open network model with simple unidirectional direction of energy flow has been replaced with an active model that includes many local energy sources. This paper deals with the analysis of long- and short-term changes in power and energy generated by three types of renewable energy sources with similar rated power and which operate in the same region (i.e., located no more than tens of kilometers away). The obtained results can be a starting point for a broader evaluation of the influence of renewable energy sources on power quality in power systems, which can be both positive (supply reliability) and negative (voltage fluctuations and higher harmonics in current and voltage waveforms). It is important not only to correctly place but also to assure the diversity of such sources as it has been confirmed by the source variability coefficient. The long-term analysis allows us also to estimate the annual repeatability of energy production and, furthermore, the profitability of investment in renewable sources in a given region. [ABSTRACT FROM AUTHOR]

Published

2020

4. Selection of C-Type Filters for Reactive Power Compensation and Filtration of Higher Harmonics Injected into the Transmission System by Arc Furnaces.

Author

Lange, Andrzej Grzegorz and Redlarski, Grzegorz

Subjects

*ARC furnaces, *REACTIVE power, *ELECTRIC power filters, *REACTIVE power control, *STEEL mills, *WAGES, *FILTERS & filtration

Abstract

This article presents a method for selecting the elements of a C-type filter working with a conventional LC-type filter for compensating reactive power and filtering out higher harmonics generated by arc furnaces and ladle furnaces. The study was conducted in a steel mill supplied by a 110 kV transmission system, where higher harmonic currents and nonlinear loads were measured. A series of computer simulations were performed under various operating conditions, and an algorithm for selecting the parameters of a third-order C-type filter (for suppressing the second harmonic) and two second-order LC-type filters (for suppressing the third harmonic) was proposed. The filtering system was tested in an arc furnace with the highest rated power, and harmonics in the current spectrum were evaluated. The results of the measurements were used to analyze the effectiveness of the compensation system comprising two passive C-type and LC-type filters at different system configurations. C-type filters significantly influenced current harmonics. The influence of the changes in the number of arc furnace transformers on the true Root Mean Square (RMS) of the currents injected into the 110 kV transmission system and on the voltages of the 110 kV busbars was discussed. [ABSTRACT FROM AUTHOR]

Published

2020