4. Potential for energy storage and conversion

Nanoporous solids cover a wide range of pore sizes. Systems based on mesoporous MTS with a radius greater than 5 nm exhibit strong hysteresis phenomena and are therefore ideal for use as shock absorbers. MTS and CPG grafted in the 1-3 nm radius range exhibit reversible behavior with hysteresis, and are suitable for a damping function. Microporous materials, on the other hand, generally exhibit very low hysteresis behavior, which is of interest, as we shall see, for the rapid storage/restitution of mechanical energy on the one hand, but also for the realization of new thermal machines of interest for energy recovery from a low-temperature heat source and, finally, potential electricity generation systems.

4.1 Mechanical energy storage

The most immediate use for...

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Potential for energy storage and conversion

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Physical mechanisms in lyophobic nanoporous media

Bibliography

(1) - Di RENZO (F.) et al - Textural control of micelle-templated mesoporous silicates : the effects of co-surfactants and alkalinity, - Microporous Mesoporous Mater. 28, p. 437-446 (1999).
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Pierre Odru. Energy storage. 2016. url: http://www.techniques-ingenieur.fr/actualite/conferences-en-ligne/stockage-de-lenergie/ .

Data Base of Zeolite Structures: http://www.iza-structure.org/databases/...

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Valentin Eroshenko. Hydrocapillary accumulator, F15B1/04 (1980).

Valentin Eroshenko. Heterogeneous structure for accumulating or dissipating energy, method of using such a structure and associated divices, WO9618040 (1996).

Galaitsis. Heterogeneous Lyophobic system for accumulation, retrieval and dissipation of energy, US2006/0246288 (2006).

Yu Qiao. Nanoporous...