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太阳能储热系统中熔盐三元混合物的长期评估:对热物理性质和腐蚀的影响

Long-Term Evaluation of a Ternary Mixture of Molten Salts in Solar Thermal Storage Systems: Impact on Thermophysical Properties and Corrosion.

作者信息

Henríquez Mauro, Reinoso-Burrows Juan Carlos, Pastén Raúl, Soto Carlos, Duran Carlos, Olivares Douglas, Guerreiro Luis, Cardemil José Miguel, Galleguillos Madrid Felipe M, Fuentealba Edward

机构信息

Iberian Centre for Research in Energy Storage (CIIAE), 10003 Cáceres, Spain.

Centro de Desarrollo Energético Antofagasta, Universidad de Antofagasta, Angamos 601, Antofagasta 1270300, Chile.

出版信息

Materials (Basel). 2024 Aug 15;17(16):4053. doi: 10.3390/ma17164053.

DOI:10.3390/ma17164053
PMID:39203231
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11356318/
Abstract

Solar thermal plants typically undergo trough operational cycles spanning between 20 and 25 years, highlighting the critical need for accurate assessments of long-term component evolution. Among these components, the heat storage media (molten salt) is crucial in plant design, as it significantly influences both the thermophysical properties of the working fluid and the corrosion of the steel components in thermal storage systems. Our research focused on evaluating the long-term effects of operating a low-melting-point ternary mixture consisting of 30 wt% LiNO, 57 wt% KNO, and 13 wt% NaNO. The ternary mixture exhibited a melting point of 129 °C and thermal stability above 550 °C. Over 15,000 h, the heat capacity decreased from 1.794 to 1.409 J/g °C. Additionally, saline components such as CaCO and MgCO, as well as lithium oxides (LiO and LiO), were detected due to the separation of the ternary mixture. A 30,000 h exposure resulted in the formation of FeO and the presence of Cl, indicating prolonged interaction with the marine environment. This investigation highlights the necessity of analyzing properties under actual operating conditions to accurately predict the lifespan and select the appropriate materials for molten salt-based thermal storage systems.

摘要

太阳能热电厂通常经历20至25年的槽式运行周期,这凸显了对长期部件演变进行准确评估的迫切需求。在这些部件中,蓄热介质(熔盐)在电厂设计中至关重要,因为它对工作流体的热物理性质以及蓄热系统中钢部件的腐蚀都有显著影响。我们的研究重点是评估由30 wt% LiNO、57 wt% KNO和13 wt% NaNO组成的低熔点三元混合物运行的长期影响。该三元混合物的熔点为129°C,热稳定性高于550°C。在超过15000小时的时间里,热容量从1.794 J/g°C降至1.409 J/g°C。此外,由于三元混合物的分离,检测到了CaCO和MgCO等盐分成分以及锂氧化物(LiO和LiO)。30000小时的暴露导致形成了FeO并出现了Cl,表明与海洋环境的长期相互作用。这项研究强调了在实际运行条件下分析性能以准确预测寿命并为熔盐基蓄热系统选择合适材料的必要性。

需注意,原文中“30 wt% LiNO”表述有误,可能是“30 wt% LiNO₃” ;“57 wt% KNO”可能是“57 wt% KNO₃” ;“13 wt% NaNO”可能是“13 wt% NaNO₃” 。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bbec/11356318/af90cf243369/materials-17-04053-g010a.jpg
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