Hydrogen, Fuel Cell & Energy Storage (Dec 2023)

Optimum calcination temperature for the synthesis of nanostructured alumina for energy storage heat management applications

  • Ehsan Poorshakoor,
  • Mahdi Darab

DOI
https://doi.org/10.22104/hfe.2024.6649.1282
Journal volume & issue
Vol. 11, no. 1
pp. 8 – 18

Abstract

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Heat management for rechargeable energy systems such as lithium-ion batteries are of great performance and safety value. Optimization of solid additives to liquid cooling systems are a field of research for the advanced materials selection and characterization. While alumina showed proper traits to be used as additive in the LIB liquid cooling systems, nano-structuring of the particles entails promises for further improvement of the structural and heat dissipating capabilities of the ceramic oxide. Here a neat and efficient synthesis route is reported to obtain nanostructured alumina with a crystallite size around 100 nm. The effect of calcination temperature, ranging from 400 C to 800 C was studied on the microstructure of the synthesized Al2O3 nanopowder. It was established that the calcination temperature of 600 C may be considered as the optimum temperature for obtaining a porous nano-sized alumina with uniformly distributed particle size. This can be a proper candidate for heat management systems using a liquid combination such as water/Al2O3 for energy storage systems e.g. LIBs.

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