Abstract: Thermochemical heat storage can greatly contribute to higher efficiency of numerous industrial processes and units, especially based on renewable energy sources and/or polygeneration systems. Pure magnesium and calcium hydroxides are convenient materials for storage of middle temperature heat (250–500 °C), however, both suffer from kinetic impediments. In this work, we studied the doping effect of various salts in order to affect the dehydration dynamics of these hydroxides. The screening among the selected classes of salts, namely, chlorides, nitrates, sulphates and acetates of alkaline metals, showed a valuable possibility to a) improve the dehydration dynamics, and b) manage the dehydration temperature. Variation of the dehydration temperature was shown to depend on the salt nature and content. A strong effect of nitrates and acetates on the dehydration rate of both hydroxides was revealed. LiNO3 and XOOCCH3 (X = Li, Na, K) diminished the dehydration temperature of Mg(OH)2 by 50–80 K. Alike, though weaker, effect was found for Ca(OH)2 doped with KNO3 (c.a. 40 K). The modification with salts is proven to be a promising way to get new advanced hydroxide-based materials for middle temperature heat storage with enhanced and controllable dehydration reactivity.

Cite: Shkatulov A. , Aristov Y.
Modification of Magnesium and Calcium Hydroxides with Salts: An Efficient Way to Advanced Materials for Storage of Middle-Temperature Heat
Energy. 2015. V.85. P.667-676. DOI: 10.1016/j.energy.2015.04.004 WOS Scopus РИНЦ AN OpenAlex

Dates:

Submitted:	Jan 3, 2015
Accepted:	Apr 5, 2015
Published online:	May 4, 2015
Published print:	Jun 1, 2015

Identifiers:

Web of science:	WOS:000355889800055
Scopus:	2-s2.0-84929511916
Elibrary:	24033185
Chemical Abstracts:	2015:779814
OpenAlex:	W316676528

Citing:

DB	Citing
Web of science	79
Scopus	84
Elibrary	77
OpenAlex	87

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