Copper-Silicon-Magnesium Alloys for Latent Heat Storage

P.J. GIBBS; E.A. WITHEY; E.N. COKER

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Copper-Silicon-Magnesium Alloys for Latent Heat Storage

机译：潜在储热的铜硅镁合金

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The systematic development of microstructure, solidification characteristics, and heat of solidification with composition in copper-silicon-magnesium alloys for thermal energy storage is presented. Differential scanning calorimetry was used to relate the thermal characteristics to microstructural development in the investigated alloys and clarifies the location of one of the terminal three-phase eutectics. Repeated thermal cycling highlights the thermal storage stability of the transformation through multiple melting events. Two near-terminal eutectic alloys display high enthalpies of solidification, relatively narrow melting ranges, and stable transformation hysteresis behaviors suited to thermal energy storage.

机译：介绍了用于储热的铜硅镁合金合金的组织，凝固特性和凝固热的系统发展。使用差示扫描量热法将热特性与所研究合金的显微组织发展联系起来，并阐明了末端三相共晶之一的位置。重复的热循环通过多次熔化事件突出了转变的储热稳定性。两种近端共晶合金显示出高的凝固焓，相对较窄的熔化范围以及适合于热能存储的稳定的转变滞后行为。

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《Metallurgical and Materials Transactions, E. Materials for Energy Systems》 |2016年第4期|共9页
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P.J. GIBBS; E.A. WITHEY; E.N. COKER;
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1. Copper-Silicon-Magnesium Alloys for Latent Heat Storage [J] . P.J. GIBBS, E.A. WITHEY, E.N. COKER Metallurgical and Materials Transactions, E. Materials for Energy Systems . 2016,第4期

机译：潜在储热的铜硅镁合金
2. Thermal charge/discharge performance of iron-germanium alloys as phase change materials for solar latent heat storage at high temperatures [J] . Gokon Nobuyuki, Jie Chew Shun, Nakano Yuya, Journal of Energy Storage . 2020,第Auga期

机译：铁锗合金的热充电/放电性能作为高温下太阳能潜热储存的相变材料
3. Investigation of magnesium-copper eutectic alloys with high thermal conductivity as a new PCM for latent heat thermal energy storage at intermediate-high temperature [J] . El Karim Yassine, Grosu Yaroslav, Faik Abdessamad, Journal of Energy Storage . 2019,第Deca期

机译：高导热系数镁铜共晶合金作为中高温潜热热能储存新PCM的研究
4. Investigation of Mg_(21)Cu_4 Eutectic Alloy as New PCM for Latent Heat Thermal Energy Storage [C] . Yassine El Karim, Yaroslav Grosu, Abdessamad Faik, International Conference on Concentrating Solar Power and Chemical Energy Systems . 2019

机译：Mg_（21）Cu_4共晶合金作为新型PCM，用于潜热热储能
5. Electrohydrodynamic heat transfer enhancement for a latent heat storage heat exchanger [D] . Dellorusso, Paul Robert 1998

机译：潜热换热器的电液动传热增强
6. Thermal energy storage – overview and specific insight into nitrate salts for sensible and latent heat storage [O] . Nicole Pfleger, Thomas Bauer, Claudia Martin, 2015

机译：热能存储–感性和潜热存储的硝酸盐概述和具体见解
7. Chemical compatibility of Cu-Ge alloy with container materials for latent heat storage system [O] . Nobuyuki Gokon, Chew Shun Jie, Selvan Bellan, 2020

机译：Cu-Ge合金与集装箱材料的化学相容性潜热储存系统
8. Heat Transfer in Thermal Storage Systems: Design Procedures for Latent Heat Storage: Final Report, 1 May 1977-30 April 1978. [R] . Shamsundar, N. 1978

机译：热储存系统中的传热：潜热储存的设计程序：最终报告，1977年5月1日至1978年4月30日。

Copper-Silicon-Magnesium Alloys for Latent Heat Storage

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