Abstract
Knowledge of lightning impulse (LI) voltage distribution over transformer windings during the design stage of the transformer is very important. Specific design differences in inductive voltage transformers make the transient analysis approach different to the approach to the power transformers. In this paper, a methodology for acquiring lightning impulse voltage distribution over high-voltage (HV) winding of inductive voltage transformers is presented and evaluated. Resistance, inductance, and capacitance matrices are calculated using the integral and boundary element methods (BEM) approach. Additionally, in order to improve the capacitance matrix solver, adaptive cross approximation (ACA) is applied. These parameters are then used to solve the equivalent circuit model in time domain. In order to evaluate the methodology, an experimental and numerical investigation of the layer discretisation, iron core influence, and accuracy of the proposed methodology is performed. The comparison of numerical results with measurements confirms the validity of the methodology.
Highlights
Voltage transformers are built for decades-long operation in the electric power system
This paper presents and evaluates a methodology for acquiring lightning impulse (LI) voltage distribution over an HV winding of inductive voltage transformers
This investigation emphasizes the importance of the good discretisation of layers in order to obtain good simulation accuracy, since oversimplification of the transformer model regarding the number of elements will lead to discrepancies between the simulation and measured LI voltage distributions
Summary
Voltage transformers are built for decades-long operation in the electric power system. During their operation, they are subjected to high-voltage and high-frequency stresses. They are subjected to high-voltage and high-frequency stresses Due to this, they have to pass standardized tests and satisfy specific requirements before being put into operation in the power system. A transient analysis of distribution and power transformers can be found in various papers [1,2,3,4,5,6,7,8,9,10], while there are a lack of papers on instrument transformers [11,12] Due to their specific design, it is of great value to investigate transient analysis of voltage transformers
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