熔融氯化物技术途径，以满足美国能源部sunshot计划与Gen3 CSP

SOLARPACES 2018: International Conference on Concentrating Solar Power and Chemical Energy Systems Pub Date : 2019-07-26 DOI:10.1063/1.5117601

J. Vidal, Noah Klammer

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引用次数: 37

摘要

第三代(Gen3)聚光太阳能(CSP)技术需要一种热稳定且廉价的流体用于传热和热能储存。对于第三代CSP装置，由MgCl2 - KCl - NaCl组成的熔盐是一种新的候选盐，但对于现有熔盐系统的装置来说已经足够熟悉了。为了确定传热流体的最佳组成，我们混合了9种不同比例的盐，按照严格的规程进行干燥/纯化，并用差示扫描量热计和热重分析仪进行测试。结果表明，共晶成分为44.7 MgCl2 - 25.8 KCl - 29.4 NaCl (mol.%)时，最低熔融凝固温度为385℃±1℃。我们确定，由于吸湿性，不当的处理和制备盐混合物会严重影响其热性能。制备标准-特别是含水氯化镁的脱水-值得进一步发展。

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Molten chloride technology pathway to meet the U.S. DOE sunshot initiative with Gen3 CSP

Third-generation (Gen3) concentrating solar power (CSP) technologies require a thermally stable and inexpensive fluid to be used for heat transfer and thermal energy storage. For Gen3 CSP plants, a molten salt composed of MgCl2 – KCl – NaCl is a new candidate, but it is familiar enough to plants with existing molten-salt systems. To determine the best composition for the heat-transfer fluid, we mixed nine different ratios of the salts, dry/purified them following strict protocols, and tested them with a differential scanning calorimeter and a thermogravimetric analyzer. Our results showed that the lowest melting and solidification temperature of 385°C ± 1°C was determined for the eutectic composition 44.7 MgCl2 – 25.8 KCl – 29.4 NaCl (mol.%). We determined that improper handling and preparation of the salt mixture highly affects its thermal properties because of moisture absorption. Preparation standards—particularly the dehydration of hydrous MgCl2—merit further development.

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SOLARPACES 2018: International Conference on Concentrating Solar Power and Chemical Energy Systems

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