Wafa Ali Soomro scite author profile

Wafa Ali Soomro

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5Publications

13Citation Statements Received

30Citation Statements Given

How they've been cited

How they cite others

Affiliations

University of Technology Sydney

Publications

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Advancements and Impediments in Applications of High-Temperature Superconducting Material

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et al. 2020

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High-temperature superconductor (HTS) has proved to offer devices with higher efficiency due to its higher current density and higher power density. It has widespread applications in electrical power sector such as motors, transformers, faultcurrent limiters, energy storage devices and offshore wind turbines. All of these applications are still in progression. Still the mass commercialization of these applications has not been observed. This paper outlines a brief review of the development of HTS applications, their current status of development and the challenges.

Numerical Investigation of AC Loss in HTS Bulks Subjected to Rotating Magnetic Fields

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et al. 2021

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Experimental Setup for Measurement of AC Loss in HTS under Rotating Magnetic Field

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et al. 2022

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High-temperature superconducting materials have shown great potential for the design of large-scale industry applications. However, they are complicated under AC conditions, resulting in penalties such as power loss or AC loss. This loss has to be considered in order to design reliable and efficient superconducting devices. Furthermore, when superconductors are used in rotating machines, they may be exposed to rotating magnetic fields, which is critical for the design of such machines. Existing AC loss measuring techniques are limited to measuring under one-dimensional AC magnetic fields or transport currents. Therefore, it is essential to develop and investigate robust experimental techniques to investigate the loss mechanism in HTS machines. In this paper, a new and novel experimental technique has been presented to measure AC loss in rotating magnetic field conditions. The loss under rotating magnetic fields is measured and compared by numerical modeling methods, and the results show a strong correlation with the numerical modeling and show the effectiveness of the experimental setup.

A Simplified Model of the Field Dependence for HTS Conductor on Round Core (CORC) Cables

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et al. 2021

IEEE Trans. Appl. Supercond.

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Numerical Investigation of High-Temperature Superconducting-Coated-Conductors Subjected to Rotating Magnetic Fields

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et al. 2022

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Over time, high-temperature superconductor (HTS)-coated conductors (CCs) have proven to be promising candidates for future high-efficiency and high-power density electrical machines. However, their commercialization is handicapped due to the AC dissipative loss that occurs upon exposure to external magnetic fields. In rotating electromagnetic devices, the external magnetic field is a combination of alternating and rotating magnetic fields. Most of the research is devoted to the effect of exposure of the superconductors to alternating magnetic fields only. This article presents an investigation to observe the behavior of HTSCCs under rotating magnetic fields, particularly the AC loss, using a finite-element-based homogeneous H-formulation technique. Our investigation shows that the AC loss could be considerably high when HTSCCs are exposed to rotating magnetic fields and, ultimately, could affect the cooling efficiency of future high-efficiency and high-power density electrical machines.

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