INFLUENCES OF NANOPARTICLES ON DIELECTRIC FLUID TRANSFORMERS: A REVIEW

Authors

  • Shylaja G K Lecturer, Dept. of Electrical & Electronics Engineering. Govt. Polytechnic Joida-581186
  • Anusha Naik Lecturer, Dept. of ECE, Govt. Residential Women’s Polytechnic, Shimoga- 577205.
  • Rehan Ahmed Shaikh PG Student, Dept. of Mechanical Engineering. Brunel University London.
  • Mubarakbanu N Sawar Lecturer, Dept. of Civil Engineering. BCN Polytechnic Laxmeshwar - 582116

DOI:

https://doi.org/10.36676/dira.v12.i2.11

Keywords:

Nanoparticles, Dielectric, Transformers, Insulating Martials, fluids, Esters

Abstract

Applications of nanoscience & nanotechnology have produced advanced materials & demonstrated impressive development in a number of industrial domains. Many technological advancements & research & development initiatives involving nanotechnology concepts are underway these days in an effort to ace the performance & dependability of traditional materials. The electrical sector has been benefited from these nanotechnology initiatives by seeking applications for its various apparatuses, such as electrical transformers, which are regarded as one of essential parts of the electrical grid. This paper presents an extensive assessment of the literature on the uses of nanotechnology principles for transformers, with a focus on studies pertaining to dielectric fluids, monitoring systems, solid or outdoor insulators & many other components. The most recent research on the use of nanomaterials in transformer applications has been examined and documented. Furthermore, prospects for further investigation

References

L. Lundgaard, W. hansen, D. Linhjell, T.J. painter, & etl. Aging of oil-impregnated paper in power transformers, IEEE Trans. Power Deliv. 19 (2004), 230–239.

J.H. Harlow,” Electric Power Transformer Engineering”, in CRC Press, year -2004.

John J. winders, “Power Transformers Principles & Applications”, 1st ed., Marcel Dekker Inc., New York.2002.

AIRI/Nano-tech IT, Roadmaps at 2015. On “Nano technology applications in the Sectors of: materials, health & medical systems, energy, Nano road map Synthesis” Report (2006).

Mehmet karatas &Yunus bicen, Nanoparticles for next-generation transformer insulating fluids: “ review Renewable & Sustainable Energy Reviews” Volume 167, October 2022, 112645.

J. Li, R. Liao, L. Yang, & etl, “Investigation of natural ester based liquid dielectrics & nano-fluids”, Int. Confr. High Volt. Eng. Appl. (2012),, 16–21.

D.-E. mansour, E.G. atiya, R.M. Khattab, & A.M. Azmy, “Effect of titania nano particles on the dielectric properties of transformer oil-based nano fluids”, in IEEE Conf. Electric. Insulator dielectric Phenom. (2012),295:298.

S.C. Pugazhendhi, & etl,: “Experimental evaluation on dielectric & thermal Characteristics of nano filler added transformer oil”, IEEE Conf. on High Volt. Engg. Applications. (2012), 207:210.

Y. Zhou, Y. zhong, M. Chen, S. zhang, Y. Du, Y. Lv, C. Li, & T. Liu, “Effect of nano particles on electrical characteristics of transformer oil-based nano fluids impregnated pressboard”,@ IEEE Int. Symptoms on Electric. Insulator. (2012), 650:653.

R. Liao, C. Lv, L. Yang, Y. zhang, W. Wu, C. Tang, ‘The insulation properties of Oil-impregnated insulation paper reinforced with nano-TiO2’, J. Nano mater.Hindawi (2013).

.H. Jin, T. andritsch, I.A. T sekmes, R. kochetov, P.H.F. Morshuis, J.J. Smit, Properties of mineral oil based silica nano fluids”, IEEE Trans. Di-electric. Electric. Insulator. 21 (2014), 1100–1108.

M. Rafiq, D. khan, M. Ali, “Dielectric properties of transformer oil based silica Nano fluids”, Power Gen. Syst. Renew. Energy Technol. (2015), 1–3.

D.H. Fontes, G. Ribatski, E.P. bandarra, & etl, “Experimental evaluation of thermal conuctivity, viscosity & breakdown voltage AC of nano fluids of carbon nano tubes & diamond in transformer oil”, Diamond Relat. Mater. 58 (2015), 115–121.

G. Shukla, H. aiyer, “Thermal conductivity enhancement of transformer oil by using functionalized nanodiamonds”, IEEE Trans. Dielectric. Electric. Insulator. 22 (2015), 2185–:2190.

Mariappan Yamuna, Rengaraj Madavan “A comprehensive review on nanotechnology for enhancement in performance of transformer liquid insulation,” Materials Today: Proceedings on 11 April 2021. https://doi.org/10.1016/j.matpr.2021.04.128

J. Taha-Tijerina, G. Gao, M. Rohde ,T.N. Narayanan, D. Tsentalovich, M. Pasquali, & P. Ajayan, Electrically insulating thermal nano-oils using 2D fillers, ACS Nano 6 (2012), 1214–1220.

J. Taha-Tijerina, T.N. Narayanan, J.E. Contreras, J. Rodriguez, P.M. Ajayan, “Enhanced dielectric performance of nano boron nitride impregnated cellulosic insulations”, ASME Proc. Micro- Nano-Syst. Eng. Package 10 (2015), V010T13A031, 6 pages.

J. Taha-Tijerina,, C.S. Tiwary, K. Lozano, T.N. Narayanan M. Chipara, P.M. Ajayan, “Nanodiamond-based thermal fluids”, ACS Application, Mater Interfaces 6 (2014), 4778:4785.

F. Sanchez, K. Sobolev, “Nanotechnology in concrete—a review”, Constr. Build. Mater. 24 (2010), 2060–2071.

T.A. prevost, T.V. O Ommen, “Cellulose insulation in oil-filled power Transformers”: part I-history & development, IEEE Electric. Insulator. Mag. 22 (2006), 28–35.

A.M. Emsley, M. Ali, X. Xiao, R.J. Heywood “Degradation of cellulosic insulation in power transformers”. Part 2: formation of furan products in insulating oil, IEEE Proc.—Sci. Meas. Technol. 147 (2000), 110–114.

T.V. Oommen, T.A. Prevost, “Cellulose insulation in oil-filled power Transformers”: part II-maintaining insulation integrity and life, IEEE Electric. Insulator. Mag. 22 (2006), 5–14.

R. chandrashekar, S. chaudhari, P. bajpai, R. Mehta, “Developments in Insulating Paper for Power Transformers”, http://www.academia.edu/6851508/ Developments in Insulating Paper for power transformers.

R. Liao, F. zhang, L. yang, T. Liu, C. Tang, Y. Yuan, Preparation & electrical Properties of insulation paper composed of SiO2 hollow spheres, Energies 5 (2012), 2943:2951.

Y. yuan, R. liao, A novel nano modified cellulose insulation paper for power Transformer, J. Nanomater. Hindawi in (2014), 1–6.

B.X. Du, J. Li, X.Y. Tao, X.L. Li, “Effects of BN nanoparticles on thermal Conductivity & breakdown strength of vegetable oil”, IEEE 11th Int. Conf. on the Prop. & Appl. of Dielectric. Mater. (2015), 476–479.

M. Nazari, H. Hosseini, M.H. rasoulifard, “Dielectric breakdown strength of Magnetic nanofluid based on insulation oil” after impulse test, J. Magn. Magn. Mater. 399 (2016),1:4.

J. Lietal, R. liao, L. yang, “Investigation of natural ester based liquid dielectrics & nano fluids, Int. Conf. High Volt. Eng. Appl. (2012), 16:21.

Wei Yao, Peng sun, Wei wang, Muhamad ali, Mehmood & Zhengyong Huang, ‘‘Effect of h-BN & Fe3O4 nano particles on streamer propagation & dissipation in vegetable oil based nano fluids”, AIP Adv. 9 (2019).

R. Madavan, Sujatha Balaraman, Investigation on “effects of different types of nanoparticles on critical parameters of nano-liquid insulation systems”, J. Mol. Liq. 230 (2017), 437:444.

Downloads

Published

2024-06-20
CITATION
DOI: 10.36676/dira.v12.i2.11
Published: 2024-06-20

How to Cite

Shylaja G K, Anusha Naik, Rehan Ahmed Shaikh, & Mubarakbanu N Sawar. (2024). INFLUENCES OF NANOPARTICLES ON DIELECTRIC FLUID TRANSFORMERS: A REVIEW. Darpan International Research Analysis, 12(2), 131–142. https://doi.org/10.36676/dira.v12.i2.11

Issue

Vol. 12 No. 2 (2024): Apr - Jun 2024

Section

Articles

License

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.