![]() ![]() Different techniques have been presented in the literature to obtain the optimal design of DTF parameters using various optimization algorithms. Tuned filters (DTFs) have received increasing attention in practice to mitigate the effects of power system harmonics. The increasing use of nonlinear loads in power systems generates harmonics, which adversely affects these systems’ power quality performance. The studies are focused on the design of the single-tuned filter in the laboratory, and some simulation results are presented as well. Most of the quoted factors are mentioned in the literature, but the novelty of this paper is that, based on the case study example of the single-tuned filter investigated in the laboratory, the influence of those factors on the filter work efficiency are demonstrated, and some solutions and recommendations are proposed. In this paper, the factors having an influence on the PHFs work efficiency and performance, such as the grid short-circuit power, primary grid voltage spectrum (voltage measured at the PCC before the filter connection), load reactive power and current characteristic harmonics, manufacturer filter parameters tolerance and filter-detuning phenomena are investigated. Before their installation in the electrical system, many investigations should be performed in order to ensure their good design as well as work efficiency after connection. Such filters are very often used in industries for the purpose of harmonics mitigation and reactive power compensation. This paper presents the electrical system factors having an influence on the work efficiency and performance of the LC passive harmonic filters (PHFs). Single-tuned filter in the laboratory, and some simulation results are presented as well. The studies are focused on the design of the Some solutions and recommendations are proposed. In the laboratory, the influence of those factors on the filter work efficiency are demonstrated, and Novelty of this paper is that, based on the case study example of the single-tuned filter investigated Most of the quoted factors are mentioned in the literature, but the Voltage spectrum (voltage measured at the PCC before the filter connection), load reactive powerĪnd current characteristic harmonics, manufacturer filter parameters tolerance and filter-detuning On the PHFs work efficiency and performance, such as the grid short-circuit power, primary grid In this paper, the factors having an influence Good design as well as work efficiency after connection. Installation in the electrical system, many investigations should be performed in order to ensure their Industries for the purpose of harmonics mitigation and reactive power compensation. This paper presents the electrical system factors having an influence on the work efficiencyĪnd performance of the LC passive harmonic filters (PHFs).
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