Abstract
During the past decade, a number of high temperature superconducting (HTS) transformer prototypes have been designed, and the majority of them are full-core transformers and air-core transformers. However, in this study, we proposed a new type of HTS transformer, where the iron core is different in that the limbs and connecting yokes are absent. To investigate the performance of this type of HTS transformer, we design and fabricate a single-phase HTS partial core transformer prototype using the secondary generation (2G) HTS GdBCO wires. The iron core is at room temperature, and the windings are immersed in liquid Nitrogen. The structures of primary and secondary windings are three layers connected in series and nine double pancakes connected in parallel, respectively. Fundamental characteristics are obtained by standard short-circuit, no-load and load tests in liquid Nitrogen temperature of 77 K. In addition, an equivalent circuit of the HTS transformer is proposed to analyze the characteristic of the transformer. The calculated values based on the equivalent circuit are consistent with that of experiment. The detailed results about the design of the HTS partial-core transformer, the experiment, and the equivalent circuit are presented and discussed in this study.
Highlights
With the development of production technology of high temperature superconducting (HTS) tapes, HTS techniques have been applied to build electric power devices
We proposed a new type of HTS transformer, where the iron core is different in that the limbs and connecting yokes are absent
The characteristics of the HTS transformer can be obtained by the simulation, such as open circuit test, load test and short circuit test, which would be compared to the experimental results in the following part
Summary
With the development of production technology of high temperature superconducting (HTS) tapes, HTS techniques have been applied to build electric power devices. As an important part of these devices, HTS transformer is expected to be one of the most promising application. It has several advantages, such as lower weight, smaller volume, higher efficiency and no fire risk. There are three types of HTS transformers using different structures, fullcore, air-core and partial-core transformers are included. HTS air-core transformer has several disadvantages due to its air magnetic circuit, and a large amount of wires are needed to generate the proper magnetization current, which is not economical and has negative influence on its AC loss. We proposed a new type of HTS transformer, where the iron core is different in that the limbs and connecting yokes are absent. An equivalent circuit of the HTS transformer is proposed to analyze the characteristic of the transformer
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