Patent ID: 8691590
Filing Date: 2014-04-08
Classification: C01B,G01N,Y02E,Y10T

Abstract:
1. A method for examining extrinsic hydrogenation degradation by using a hydrogen storage material analyzer, a hydrogen absorption-desorption cycling tester and a temperature-programmed desorption spectrometer equipped with a mass spectrometer and a specimen holder and a temperature-controlled furnace, the method comprising: testing a degradation of the hydrogen storage material in the specimen holder by using a lower purity hydrogen gas or by adding toxic molecules selected from the group consisting of CO, H conducting a cycling of hydrogen absorption and desorption of the hydrogen storage material such that hydrogen pressure for absorption and desorption stops gradually over time; obtaining a hydrogenation degradation property so as to show that significant degradation of the hydrogen storage material has occurred or that desorption is disabled due to an extrinsic obstruction; obtaining dehydrogenation temperature of the cycled hydrogen storage material from a spectrum produced by the temperature-programmed desorption spectrometer so as to verify whether a loss of hydrogen storage in the hydrogen storage material is caused by extrinsic poisoning on a surface of the hydrogen storage materials; measuring a temperature-programmed desorption and mass curve of hydrogen storage materials by the mass spectrometer so as to examine types and amounts of impurities desorbed from the degraded hydrogen storage material and to characterize an adsorption strength of the impurities with the cycled hydrogen storage materials so as to provide a basis for developing a high-performance hydrogen storage material against extrinsic hydrogenation degradation; and applying a temperature-programmed dehydrogenation treatment to the degraded hydrogen storage materials so as to obtain flat pressure and maximum absorption properties of the degraded hydrogen storage material in a PCI curve so as to show that the hydrogenation degradation of the hydrogen storage material is not derived from a change of microstructure.