THERMAL ENERGY STORAGE (TES): REQUIREMENTS AND CONSTRAINS FOR A MATERIAL-BASED DESIGN.

机译：热能存储（TES）：基于材料的设计要求和约束。

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Thermal energy storage (TES) is proposed as one promising solution to reduce the energy consumption and CO_2 emission in several sectors and to moderate the gap between energy supply and energy demand. Research groups are joining efforts to develop and complement the technology using different methods to achieve this milestone: sensible heat, latent heat or heat from chemical reactions. However, these systems sometimes are designed as black boxes with inputs and outputs and the storage materials must meet the requirements and constrains derived from the design. This approach restricts the material's selection to those materials that meet the proper combinations of requirements: thermophysical properties, durability or cost. An alternative is a material-based design of the system considering the intrinsic properties of the materials. This study is focused on overcoming the gaps and constrains defined by the storage materials used in TES technologies, and discuss how these properties may be improved.

机译：提出了热能存储（TES）作为减少若干部门中的能耗和CO_2排放的有希望的解决方案，并使能源供应和能源需求之间的差距。研究小组正在加入努力，使用不同方法实现技术，以实现这一里程碑：从化学反应中获得明智的热量，潜热或热量。但是，这些系统有时被设计为具有输入和输出的黑匣子，并且存储材料必须满足从设计中达到的要求和约束。这种方法将材料的选择限制为满足适当的要求组合的材料：热物理性质，耐用性或成本。替代方案是考虑材料内在特性的系统的基于材料的设计。本研究专注于克服TES技术中使用的储存材料所定义的间隙和约束，并讨论如何改善这些性质。

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来源
《Materials Science Technology Conference and Exhibition》|2015年|1455-2176 p. :|共8页
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作者
C. Barreneche; A. Solé; I. Martorell; M. Martinez; L. F. Cabeza; A. I. Fernández;
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原文格式 PDF
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中图分类 TB3-532;
关键词
Thermal Energy Storage (TES); Material Selection; Sensible Heat Thermal Energy Storage (SHTES); Latent Heat Thermal Energy Storage (LHTES); Thermochemical storage (TCS);

机译：热能储存（TES）;材料选择;明智的热热能储存（SHTES）;潜热热储能（LHTES）;热化学存储（TCS）;

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THERMAL ENERGY STORAGE (TES): REQUIREMENTS AND CONSTRAINS FOR A MATERIAL-BASED DESIGN.

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