Published August 3, 2017 | Version v1
Journal article Open

Thermochemical cycles over redox structured reactors

Creators

  • 1. CENTRE FOR RESEARCH AND TECHNOLOGY HELLAS

Description

Structured bodies from redox materials are a key element for the implementation of thermochemical cycles on suitable reactors for the solar H2O splitting. In the current work different configurations of nickel ferrite were investigated with respect to their performance in H2O splitting: i) powder, ii) disk, iii) honeycomb flow-through monoliths. The structured bodies were prepared via pressing and extrusion techniques. The performance of the different structures was affected significantly by differences in the structural characteristics. Alternative approaches involving casting techniques for the structuring of nickel ferrite porous bodies were also investigated. This work constitutes a preliminary attempt towards tuning such characteristics to achieve enhanced and cycle-to-cycle stable production yields.

Notes

Highlights - Two-step redox thermochemical water splitting on structured bodies. - Shaping of nickel ferrite into structured monolithic bodies consisting entirely of the redox material. - Extrusion of nickel ferrite honeycomb monoliths. - Casting of nickel ferrite monoliths using 3D-printed molds. - Nickel ferrite honeycomb monolith durable for over 1000 h operation.

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IJHE2017_ThermochemicalCyclesOverRedoxStructuredReactors.pdf

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Additional details

Identifiers

DOI
10.1016/j.ijhydene.2017.06.109

Funding

HYDROSOL-PLANT – Thermochemical HYDROgen production in a SOLar monolithic reactor: construction and operation of a 750 kWth PLANT 325361
European Commission
ARMOS – Advanced multifunctional Reactors for green Mobility and Solar fuels 268049
European Commission