Using True RMS Current Measurements to Estimate Harmonic Impacts of Multiple Nonlinear Loads in Electric Distribution Grids

Flávia P Monteiro,Maria E Tostes,Suzane A Monteiro,Ubiratan H Bezerra

doi:10.3390/en12214132

Flávia P Monteiro, Maria E Tostes + Show 2 more

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https://doi.org/10.3390/en12214132

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Currently, for analyzing harmonic impacts on voltage at a point of interest, due to multiple nonlinear loads, the literature recommends carrying out simultaneous and synchronized measurement campaigns in all suspicious points with the use of high cost energy quality analyzers that are usually not available at the customers’ facilities and very often also not at the electric utilities. To overcome this drawback this paper proposes a method of assessing the harmonic impact due to multiple nonlinear loads on the total voltage harmonic distortion using only the load current true RMS values which are already available in all customers’ installations. The proposed methodology is based on Regression Tree technique using the Permutation Importance indicator which is validated in two case studies using two different electrical systems. The first case study is to ratify the use of Permutation Importance to measure the impact factor of each nonlinear load in a controlled scenario, the IEEE-13 bus test system, using ATP simulation (Alternative Transient Program). The second is to apply the methodology to a real system, an Advanced Measurement Infrastructure System (AMI) implanted on a campus of a Brazilian University, using low cost meters with only true RMS current measurements. The results achieved demonstrated the feasibility of applying the proposed methodology in real electric systems without the need for additional investments in high-cost energy quality analyzers.

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With the advance of technology, a problem has become quite frequent in distribution systems: harmonic distortion
Vector Y is composed of voltage total harmonic distortion values measured at the common coupling point X, THDux simultaneously measured with nonlinear loads currents presented in matrix X
Manito et al (2018) in [10] used an Artificial Neural Network to estimate the impacts of fifth harmonic currents generated by the nonlinear loads on the fifth harmonic voltage at a point of interest, in a scenario simulated in alternative transient program (ATP) Draw software (Alternative Transient Program [35])

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Introduction

With the advance of technology, a problem has become quite frequent in distribution systems: harmonic distortion. This is due to the increasing use of nonlinear loads, mainly in the form of power electronics or consumers’ electronics equipment. 1920s, when the main effects were on rotating machines [1] It is noticed a great influence of harmonic distortion in the voltage and current’s waveforms, being responsible for harmful effects at various levels in distribution networks. The electric network itself is a source of harmonic distortions in voltage and current due to its operation characteristics but loads are the main responsible for this type of phenomenon [3,4]

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