Impact of particle size in serpentine thermal treatment: Implications for serpentine dissolution in aqueous-phase using CO2 in flue gas conditions
Author:
Funder
FRQNT
Publisher
Elsevier BV
Reference56 articles.
1. Evaluation of reaction variables in the dissolution of serpentine for mineral carbonation;Alexander;Fuel,2007
2. An X-ray study of the crystal-structure of antigorite (With Plate V);Aruja;Mineral. Mag. J. Mineral. Soc.,1945
3. A review on carbon dioxide mineral carbonation through pH-swing process;Azdarpour;Chem. Eng. J.,2015
4. The dehydration of chrysotile in air and under hydrothermal conditions;Ball;Mineral. Mag.,1963
5. Effect of grinding on chrysotile, amosite and crocidolite and implications for thermal treatment;Bloise;Minerals-Basel,2018
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