Purpose – The purpose of this study is to develop a topological model of a three-phase, three-limb transformer for low-frequency transients. The processes in the core limbs and yokes are reproduced individually by means of a dynamic hysteresis model (DHM). A method of accounting for the transformer tank with vertical magnetic shunts at the tank walls is proposed and tested on a 120 MVA power transformer.
Design/methodology/approach – The model proposed has been implemented independently in a dedicated Fortran program and in the graphical pre-processor ATPDraw to the ATP version of the electromagnetic transient program.
Findings – It was found that the loss prediction in a wide range of terminal voltages can only be achieved using a DHM with variable excess field component. The zero sequence properties of the transformer can be accurately reproduced by a duality-derived model with Cauer circuits representing tank wall sections (belts).
Research limitations/implications – In its present form, the model proposed is suitable for lowfrequency studies. Its usage in the case when transformer capacitances are involved should be studied additionally.
Practical/implications – The presented model can be used either as an independent tool or serve as a reference for subsequent simplifications.
Social/implications – The model proposed is aimed at meeting the needs of electrical engineering and ecology-minded customers.
Originality/value – Till date, there were no experimental data on zero-sequence behavior of three-phase, three-limb transformer with vertical magnetic shunts, so no verified transient model existed. The model proposed is probably the first that matched this behavior and reproduced measured no-load losses for a wide voltage range.
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