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Characterizing Changes in a Salt Hydrate Bed Using Micro X-Ray Computed Tomography

A. Arya, Jorge Martinez-Garcia, Philipp Schuetz, Amir Houshang Mahmoudi, Gerrit Brem, Pim Donkers, Mina Shahi

2024Journal of Nondestructive Evaluation13 citationsDOIOpen Access PDF

Abstract

Abstract Thermochemical storage using salt hydrates presents a promising energy storage method. Ensuring the long-term effectiveness of the system is critical, demanding both chemical and mechanical stability of material for repetitive cycling. Challenges arise from agglomeration and volume variations during discharging and charging, impacting the cyclability of thermochemical materials (TCM). For practical usage, the material is often used in a packed bed containing millimetre-sized grains. A micro-level analysis of changes in a packed bed system, along with a deeper understanding involving quantifying bed characteristics, is crucial. In this study, micro X-ray computed tomography (XCT) is used to compare changes in the packed bed before and after cycling the material. Findings indicate a significant decrease in pore size distribution in the bed after 10 cycles and a decrease in porosity from 41.34 to 19.91% accompanied by an increase in grain size, reducing void space. A comparison of effective thermal conductivity between the uncycled and cycled reactor indicates an increase after cycling. Additionally, the effective thermal conductivity is lower in the axial direction compared to the radial. XCT data from uncycled and cycled experiments are further used to observe percolation paths inside the bed. Furthermore, at a system scale fluid flow profile comparison is presented for uncycled and cycled packed beds. It has been observed that the permeability decreased and the pressure drop increased from 0.31 to 4.88 Pa after cycling.

Topics & Concepts

Materials sciencePacked bedPorosityPressure dropPorous mediumPermeability (electromagnetism)Composite materialThermal conductivityGrain sizeMineralogyChemical engineeringMembraneMechanicsGeologyChemistryPhysicsEngineeringBiochemistryAdsorption and Cooling SystemsPhase Change Materials ResearchHeat and Mass Transfer in Porous Media
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