Synergistic Enhancement of LiNO<sub>3</sub>-NaNO<sub>3</sub>-KNO<sub>3</sub>-NaNO<sub>2</sub> Thermophysical Properties Through Dual Nano-Additives: SiO<sub>2</sub> and MgO

Synergistic Enhancement of LiNO<sub>3</sub>-NaNO<sub>3</sub>-KNO<sub>3</sub>-NaNO<sub>2</sub> Thermophysical Properties Through Dual Nano-Additives: SiO<sub>2</sub> and MgO

LiNO<sub>3</sub>-NaNO<sub>3</sub>-KNO<sub>3</sub>-NaNO<sub>2</sub> has a relatively low phase-change temperature, making it suitable for low-temperature heat utilization systems. This study focuses on the performance optimization of the quaternary molt...

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Bibliographic Details
Main Authors: Chuang Zhu, Wenxuan He, Manting Gu, Dan Zhang, Baiyuan Tian
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Nanomaterials
Subjects:
nanocomposites
quaternary salt
nitrate
specific heat capacity
thermal diffusion coefficient
Online Access:https://www.mdpi.com/2079-4991/15/14/1094
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Summary:LiNO<sub>3</sub>-NaNO<sub>3</sub>-KNO<sub>3</sub>-NaNO<sub>2</sub> has a relatively low phase-change temperature, making it suitable for low-temperature heat utilization systems. This study focuses on the performance optimization of the quaternary molten salt to advance its applicability. A series of nanocomposites consisting of nano-SiO<sub>2</sub>/MgO and the quaternary salt are prepared. Core thermophysical properties, including phase transition behaviors and thermal transport parameters, are quantified. The incorporation of nano-SiO<sub>2</sub>/MgO induces moderate adjustments to the melting point and latent heat yet demonstrates an obvious enhancement in specific heat capacity. Optimal doping at 0.7 wt.% SiO<sub>2</sub> and 0.3 wt.% MgO yields a molten-state specific heat of 1.51 J/(g·K), representing a 6% increase over the undoped base salt (1.42 J/(g·K)). By combining the thermal diffusivity properties of the samples, this study found that the doping of nanoparticles typically induces new structures in molten salts that tend to enhance the specific heat capacity while simultaneously reducing thermal diffusivity.
ISSN:2079-4991

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