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Enhancing the thermal cyclic reliability of salt-based shape-stabilized phase change materials by in-situ SiO2–C interconnectivity in rice husk carbon (2024)
Journal Article
Li, Z., Wang, Y., Wang, H., Zhang, S., Shang, Z., Tian, L., & Yan, Y. (2024). Enhancing the thermal cyclic reliability of salt-based shape-stabilized phase change materials by in-situ SiO2–C interconnectivity in rice husk carbon. Journal of Cleaner Production, 466, Article 142864. https://doi.org/10.1016/j.jclepro.2024.142864

Utilizing salt-based shape-stabilized phase change materials (ss-PCMs) for high-temperature thermal energy storage stands as a pivotal avenue in realizing carbon neutrality. However, the performance of ss-PCMs significantly deteriorates after thermal... Read More about Enhancing the thermal cyclic reliability of salt-based shape-stabilized phase change materials by in-situ SiO2–C interconnectivity in rice husk carbon.

Analysis of the heat transfer and anti-corrosion performance of an aluminum nitride porous ceramic skeleton with controllable preparation (2024)
Journal Article
Wang, H., Li, Z., Shang, Z., Tian, L., Zhang, S., & Yan, Y. (2024). Analysis of the heat transfer and anti-corrosion performance of an aluminum nitride porous ceramic skeleton with controllable preparation. Applied Thermal Engineering, 244, Article 122687. https://doi.org/10.1016/j.applthermaleng.2024.122687

Porous skeletons play a positive role in improving the heat storage and release rate of molten salt phase change materials, making their development a research hot spot. However, the current simple structure of the porous skeletons limits their appli... Read More about Analysis of the heat transfer and anti-corrosion performance of an aluminum nitride porous ceramic skeleton with controllable preparation.

Charging and discharging in thermal energy storage unit with fin-stone hybrid structure for enhancing heat transfer of phase change materials (2024)
Journal Article
Zhang, S., Yan, Y., Cheng, Z., & Wang, F. (2024). Charging and discharging in thermal energy storage unit with fin-stone hybrid structure for enhancing heat transfer of phase change materials. International Journal of Heat and Mass Transfer, 224, Article 125325. https://doi.org/10.1016/j.ijheatmasstransfer.2024.125325

This work proposes a fin-stone hybrid structure integrating fins (popular thermal enhancers) and natural stones (widely used sensible heat storage media) to enhance the heat transfer of phase change materials for on-site thermal energy storage applic... Read More about Charging and discharging in thermal energy storage unit with fin-stone hybrid structure for enhancing heat transfer of phase change materials.