Florent Lemont scite author profile

in Wiley InterScience (www.interscience.wiley.com).A novel two-step thermochemical water-splitting cycle based on SnO 2 /SnO is proposed from the detailed study of the whole tin oxide systems involving three redox pairs. The thermal reduction of tin(IV) oxide occurs in the temperature range 1400-16008C following a zero order kinetic law of Arrhenius with an activation energy of 394.8 kJ mol 21 and a pre-exponential factor of 8.32 3 10 8 g s 21 at atmospheric pressure. The operating conditions that prevent gaseous stannous oxide (SnO) from recombining with O 2 are defined. The effect of a quenching device (water-cooled finger) is negligible whereas operation at low total pressure or low O 2 and SnO partial pressures leads to nearly pure SnO product. The comparison of SnO and metallic tin hydrolysis in a fixed bed reactor reveals a higher reaction rate in the case of SnO. Hydrolysis of these reduced compounds shows nearly complete conversion producing hydrogen by a solid/gas reaction proceeding at moderate temperature, thus easy to implement in a common reactor technology.

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Hydrogen production from mixed cerium oxides via three-step water-splitting cycles

Charvin

Abanades

Bêche

et al. 2009

Solid State Ionics

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Numerical simulation of transitions between back discharge regimes

Jánský¹,

Bessières²,

Paillol³

et al. 2014

Eur. Phys. J. Appl. Phys.

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Promising optimization of the CeO2/CeCl3 cycle by reductive dissolution of cerium(IV) oxide

Lemont

2008

International Journal of Hydrogen Energy

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Florent Lemont

Novel two-step SnO2/SnO water-splitting cycle for solar thermochemical production of hydrogen

Experimental study of SnO₂/SnO/Sn thermochemical systems for solar production of hydrogen

Hydrogen production from mixed cerium oxides via three-step water-splitting cycles

Numerical simulation of transitions between back discharge regimes

Promising optimization of the CeO2/CeCl3 cycle by reductive dissolution of cerium(IV) oxide

Contact Info

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About

Florent Lemont

Novel two-step SnO2/SnO water-splitting cycle for solar thermochemical production of hydrogen

Experimental study of SnO2/SnO/Sn thermochemical systems for solar production of hydrogen

Hydrogen production from mixed cerium oxides via three-step water-splitting cycles

Numerical simulation of transitions between back discharge regimes

Promising optimization of the CeO2/CeCl3 cycle by reductive dissolution of cerium(IV) oxide

Contact Info

Product

Resources

About

Experimental study of SnO₂/SnO/Sn thermochemical systems for solar production of hydrogen