On August 15, 2022, Seppala, Ari; Turunen, Konsta; Yazdani, Maryam Roza published an article.Electric Literature of 585-88-6 The title of the article was Thermal conductivity of sugar alcohols. And the article contained the following:
During the past decade sugar alcs. have been extensively studied for thermal storage purposes. One of the recent focuses of research has been in improving their heat charge and discharge rate by enhancing the thermal conductivity with different types of additives. However, the current literature shows a vast discrepancy in measured values of sugar alcs. This work presents an exptl. study on thermal conductivity of seven sugar alcs. The aim is to find out the reason for the discrepancy of literature values for erythritol, mannitol and xylitol, and to present new reference data for galacticol, myo-inositol, maltitol and sorbitol. We study the impact of material preparation method, raw material grade and sensor contact on the crystalline structure and the conductivity The crystalline structure was inspected with optical and SEM and X-ray diffraction, and melting properties with differential scanning calorimetry. We found that different polymorphs, grain structure and crystallite sizes can be obtained by different preparation methods. This caused the conductivity of mannitol, galacticol and myo-inositol to vary by tens of percentages. Crystallization temperatures of xylitol and erythritol were found to affect their grain size but had only a minor effect on the conductivity Overall, the conductivities of solid phase sugar alcs. were found to be within the upper range of the previous literature; based on the methods of this work, we did not find any evidence for the low and intermediate values for erythritol, xylitol and mannitol. Due to the high amorphous content of maltitol and sorbitol their conductivity was substantially lower than that of the other sugar alcs. Thermal conductivity of liquid phases was found to accurately follow a linear relationship with the molar mass for sugar alcs. with carbon number between 4 and 6. The experimental process involved the reaction of SweetPearlR P300 DC Maltitol(cas: 585-88-6).Electric Literature of 585-88-6
The Article related to sugar alc thermal conductivity crystallization, Electrochemical, Radiational, and Thermal Energy Technology: Safety Aspects Of Energy Utilization and other aspects.Electric Literature of 585-88-6
Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts