Phase change metal with high energy storage density, low condenser depression,high thermal conductivity,phase-change again with the long-term stable,easy to control,has a wide range of application in high-temperature thermal storage.
金属基相变储热材料具有储能密度大,过冷度小,导热率高,反复相变后性能稳定,过程易控制等特点,因而在高温储热方面具有广泛的用途。
参考来源 - 基于AlThe relationships between the energy storage density, cop, the rate of crystallization and the solution concentration difference, the temperature of cooling water are also discussed in the paper.
此外还分析了系统蓄能密度、cop及结晶率随溶液浓度差和冷却水温度的变化情况。
参考来源 - 以水/溴化锂为工质制冷/制热潜能储存系统研究Energy storage density of PZNT was greatly dependent on the three parameters of P-E loop. Better square character, lower remnant polarization and higher saturation polarization benefit higher energy density.
PZNT的储能密度强烈依赖于反铁电电滞回线的特征,矩形特征好、剩余极化低和饱和极化大的反铁电材料具有较大的储能密度。
参考来源 - Pb(Zr·2,447,543篇论文数据,部分数据来源于NoteExpress
The material's large surface area, flexibility, low density, and high conductivity also make it compelling for energy storage.
材料的巨大表面积、弹性、低密度以及高导电性使得它也可以用于储存能量。
In this scenario, pellets stand out because they are easy to handle natural products. They require little storage space and have high energy density.
在这种情况下颗粒脱颖而出,因为它们是很容易处理的天然产品。它们存储空间小并且具有高能量密度。
These negative qualities hinders its use because it results in high transport costs, difficulty in handling and storage, as well as low energy density.
这些负面性质阻碍其使用,导致高运输成本,处理和储存困难以及低能量密度。
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