MORETTO, P.; ZLOTEA, C.; DOLCI, F.; AMIEIRO, A.; BOBET, Jean-Louis; BORGSCHULTE, A.; CHANDRA, D.; ENOKI, H.; DE RANGO, Patricia; FRUCHART, Daniel; JEPSEN, J.; LATROCHE, Michel; LLAMAS JANSA, I.; MOSER, D.; SARTORI, S.; WANG, S. M.; ZAN, J. A.

doi:10.1016/j.ijhydene.2013.03.118

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MORETTO, P.
JRC Institute for Energy and Transport [IET]

ZLOTEA, C.
JRC Institute for Energy and Transport [IET]
Institut de Chimie et des Matériaux Paris-Est [ICMPE]

DOLCI, F.
JRC Institute for Energy and Transport [IET]

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International Journal of Hydrogen Energy. 2013, vol. 38, n° 16, p. 6704-6717

Elsevier

Résumé en anglais

A Round Robin Test exercise on magnesium hydride (MgH2) was performed by 14 laboratories with the aim to compare experimental isothermal data such PCI curves, kinetics curves and formation enthalpies together with a basic statistical evaluation of the results. The full hydrogen capacity was found to vary in the range 5.1-6.4 wt.% at 280 °C (553 K) and in the range 5.3-6.6 wt.% at 320 °C (593 K) (value for 1 MPa hydrogen pressure). The relative standard deviations of 6.9% and 7.2%, respectively, were measured for absorption. The absorption plateau pressure of magnesium hydride varies between 0.08 and 0.14 MPa with an average of 0.10 MPa and a relative standard deviation of 17.3% at 280 °C (553 K). At 320 °C (593 K) the absorption plateau pressure results fall in the range 0.26-0.45 MPa, with a relative standard deviation of 17.6%. Kinetics curves were affected by much higher data dispersion than the PCI data. The enthalpy of absorption was −75.7 KJ/moleH2, with a relative standard deviation of 4.4%. The results highlight the importance of well defined measuring and reporting protocols as a base for future standard procedures.< Réduire

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Round Robin Test

Magnesium hydride

Kinetics

Thermodynamics

Enthalpy

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A Round Robin Test exercise on hydrogen absorption/desorption properties of a magnesium hydride based material

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