Magnetic Nanomaterials for Energy-Efficient Power and Distribution Transformers: Advances, Mechanisms, and Future Prospects

Authors

  • Hirkanya Bhole Tulsiramji Gaikwad Patil College of Enigneering and Technology, Nagpur Author
  • Chetana K. Gawalapanchi Author
  • Sunil Dahire Dada Ramchand Bakhru Sindhu Mahavidyalaya Author
  • Nadir A. M. Husain Author

Keywords:

Advanced magnetic materials, Energy-efficient transformers, Core loss reduction, Enhanced magnetic permeability, Thermal performance improvement

Abstract

The growing global need for energy-efficient electrical power systems has driven significant research into transformer core materials that minimize energy losses. Although conventional silicon steel cores are widely used and reliable, they face limitations in reducing hysteresis and eddy current losses, especially during no-load or light-load conditions. Recent developments in magnetic nanomaterials—such as nanocrystalline soft magnetic alloys, amorphous alloys, and magnetic nanofluids—offer promising alternatives for improving transformer performance. These materials exhibit excellent magnetic characteristics, including high saturation flux density, low coercivity, high permeability, and lower core losses. This review provides an in-depth analysis of their magnetic behavior, synthesis techniques, relationships between structure and properties, and practical applications in power and distribution transformers. The factors contributing to their enhanced performance, such as suppression of eddy currents, improved magnetic flux conduction, and better thermal management, are explored. Additionally, challenges related to fabrication, cost, mechanical robustness, and long-term reliability are discussed, along with potential approaches and future research directions to facilitate their broader adoption in energy-efficient transformer technologies.

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Published

25.12.2025

How to Cite

Magnetic Nanomaterials for Energy-Efficient Power and Distribution Transformers: Advances, Mechanisms, and Future Prospects. (2025). International Journal of Multidisciplinary Global Research, 2(4a (Special Issue), 95-105. https://ijmgr.igrf.co.in/index.php/ijmgr/article/view/215

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