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Karabanova, Anastasiia
Technical University of Denmark
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article
Small-Angle Neutron Scattering Characterization of SrCl2-ENG Composites for Thermochemical Heat Storage
Abstract
This work presents an in situ nanoscale structural characterization of a SrCl<sub>2</sub>-expanded natural graphite (ENG) composite during ammonia absorption and desorption using small-angle neutron scattering (SANS) together with X-ray powder diffraction and sorption measurements. For the processing of the composite material SANS patterns, we developed and implemented two methods, which showed comparable results. The study allowed following the evolution of the SrCl2 particles and the nanopores inside the particles during five sorption cycles. The structural changes were compared to the absorption and desorption kinetic measurements, allowing us to make qualitative analysis of the impact of the structural changes on the material properties, such as thermal conductivity and permeability. It was shown that the structural evolution of the composite material did not affect the desorption rate but significantly influenced the absorption rate after the first cycle. We also observed a significant improvement of the absorption kinetics due to the formation of nanopores in the fully deammoniated sample. In addition, the ENG matrix was shown to hinder the agglomeration of the SrCl<sub>2</sub> particles during sorption processes, which is in contrast to literature findings reported for a nonsupported metal halide. The findings presented in this study can be of great interest in the research areas where SrCl<sub>2</sub>-ENG composites are widely studied, i.e., heat storage, heat pumps/refrigerators, deNO<i><sub>x</sub></i> removal, and solid-state ammonia storage.