4.7 Article

Experimental studies on poisoning of La0.9Ce0.1Ni5 based hydrogen purification system with CO2 as impurity

期刊

INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
卷 48, 期 96, 页码 37774-37783

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PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijhydene.2022.10.137

关键词

Metal hydride; Hydrogen separation; Hydrogen storage; Alloy poisoning; Alloy regeneration

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This study reports the bed poisoning characteristics of CO2 as a gaseous impurity in the La0.9Ce0.1Ni5 based Metal Hydride Hydrogen Purification System (MHHPS) and the regeneration of the poisoned bed. The experimental results show that the MHHPS is capable of delivering 99.99% pure hydrogen for CO2 impurities up to 20%, but for higher impurity levels (20-50%), the purity ranges from 97.3% to 99.8%. The absorption capacity of the MHHPS significantly decreases when CO2 is present as an impurity, ranging from 0.92 wt% to 0.67 wt% for impurities of 10-50%. However, through bed regeneration, the alloy can be regenerated and achieve a storage capacity of 1.27 wt% in 200 seconds within 2-3 regeneration cycles.
In the present study, bed poisoning characteristics of CO2 as gaseous impurity in the La0.9Ce0.1Ni5 based, Metal Hydride Hydrogen Purification System (MHHPS) and regeneration of poisoned bed are reported. The study was conducted by varying impurity content of CO2 gas in the H2-CO2 mixture, in the range of 10-50% by weight and the cyclic stability of alloy was tested with 10% CO2 in H2-CO2 mixture. The study was conducted on a lab scale reactor with 6 embedded cooling tube (ECT) filled with 1.2 kg of La0.9Ce0.1Ni5. According to the experimental outcomes, the MHHPS was capable of delivery 99.99% pure hydrogen for CO2 impurity up to 20%. However, for higher impurities level (20-50%), the purity level was in the range of 97.3-99.8%. With CO2 as impurity, significant drop in the absorption capacity of the MHHPS was observed, which was in the range of 0.92 wt% to 0.67 wt% for impurity of 10-50%. However, the bed regeneration was performed, wherein the bed was desorbed and evacuated at 95 degrees C and 10-2 mbar, followed by absorption of pure hydrogen at 20 bar and 25 degrees C. Within 2-3 regeneration cycle, the alloy got regenerated and achieved storage capacity of 1.27 wt% in 200 s. (c) 2022 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.

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