储氢材料的仪器和表征

Edivagner S. Ribeiro, João M. Gil
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引用次数: 2

摘要

为了识别和跟踪使用具有吸收氢的能量存储能力的材料的挑战,许多小组解决了各种各样的问题,其中需要研究材料在吸收氢时的特性始终存在。需要适当的设备和技术:除了使用经典系统外,许多研究小组最近确定需要更详细地研究与氢含量循环时氢化物粉末体积宏观变化相关的特性。在本文中,我们介绍了我们小组开发的设备和技术:在经典的体积系统之后,我们通过构建一种新型的同轴电容系统来解决体积变化的问题。该系统在一次交流电测量中应用复杂的反褶积算法后,测量少量游离氢化物粉末的体积和孔隙率作为氢含量的函数。
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Instrumentation and characterization of materials for hydrogen storage

In order to identify and follow the challenges in the use of materials with the capacity to absorb hydrogen for energy storage, many groups address a diversity of issues, where the need to study the properties of the material upon absorbing hydrogen is always present. Appropriate equipment and techniques are needed: besides the use of classical systems, many research groups identified recently the need to study in more detail the properties related to the macroscopic changes of volume of the hydride powder as hydrogen content is cycled. In this article, we present the equipment and techniques developed by our group: after the classical volumetric systems, we addressed the problem of volumetric changes by building a novel coaxial capacitive system. This system measures the volume and porosity of a small amount of free hydride powder as a function of hydrogen content, after applying a complex deconvolution algorithm on the primary AC electric measurements.

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