Identifying zeolite topologies for Storage and release of hydrogen

We present a molecular simulation study on the most suitable zeolite topologies for hydrogen adsorption and storage. We combine saturation capacities, pore size distributions, preferential adsorption sites and curves of heat of adsorption of hydrogen as function of temperature (we call them HoA-curv...

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Bibliographic Details
Authors: Martin Calvo, Ana, Gutiérrez Sevillano, Juan José, Matito Martos, Ismael, Vlugt, Thijs J. H., Calero, Sofía
Format: article
Publication Date:2018
Country:España
Institution:Universidad Pablo de Olavide (UPO)
Repository:RIO. Repositorio Institucional Olavide
Language:English
OAI Identifier:oai:rio.upo.es:10433/19976
Online Access:https://hdl.handle.net/10433/19976
Access Level:Open access
Keyword:Hydrogen
Molecular simulation
Adsorption
Zeolites
Description
Summary:We present a molecular simulation study on the most suitable zeolite topologies for hydrogen adsorption and storage. We combine saturation capacities, pore size distributions, preferential adsorption sites and curves of heat of adsorption of hydrogen as function of temperature (we call them HoA-curve) to identify the optimal zeolites for storage and release of hydrogen. Then we analyze the relation between the shape of the HoA-curve and the topology of the materials. We also evaluate the influence of incorporating Feynman-Hibbs effect on the adsorption behavior. We can stablish different shapes on the HoA-curve depending on the uniformity or not of the pores of the zeolites. Parabola-like curves are observed in structures with one or similarly sized pores, while deviations from the parabola are found at low temperature for structures combining large and small pores. The Feynman-Hibbs quantum correction reduces the adsorption capacity of the materials affecting not only the saturation capacity but also the shape of the isotherms. From our results the zeolites studied in this work can be considered potential candidates for the storage and release of hydrogen.