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Experimental investigation of tailoring functionalized carbon-based nano additives infused phase change material for enhanced thermal energy storage

The advancement of phase change materials (PCMs) as potential thermal energy storage (TES) materials for building envelopes holds promise for efficient energy utilization. However, the PCMs have a major drawback during energy storage, which is lower thermal conductivity, leading to inadequate heat t...

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Bibliographic Details
Main Authors:	Rajamony R.K., Sofiah A.G.N., Kalidasan B., Samykano M., Pandey A.K., Suraparaju S.K., Paw J.K.S., Paranthaman V., Fouad Y., Noor M.M., Kalam M.A.
Other Authors:	57218845246
Format:	Article
Published:	Institution of Chemical Engineers 2025
Subjects:	Additives Chemical stability Cooling systems Electronic cooling Energy utilization Heat storage Multiwalled carbon nanotubes (MWCN) Nanocomposites Nanoparticles Phase change materials Storage (materials) Thermal conductivity Thermodynamic stability Building envelopes Carbon-based Energy storage materials Experimental investigations Functionalized Functionalized multi-walled carbon nanotubes Heat transfer performance Low thermal conductivity Nano additives Thermal energy storage Thermal energy
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