Phase transitions in the MgCO2H2O system and the thermal decomposition of dypingite, Mg5(CO3)4(OH)25H2O: Implications for geosequestration of carbon dioxide

Chemical Geology

Volumn 340, Issue , 2013, Pages 59-67

  Ballirano, Paolo ^a   De Vito, Caterina ^a   Mignardi, Silvano ^a   Ferrini, Vincenzo ^a  

^a SAPIENZA UNIVERSITY OF ROME   (Italy)

Author keywords

Carbon dioxide sequestration; Carbonate synthesis; Dypingite; Hydromagnesite; Nesquehonite; Thermal stability

Indexed keywords

AMBIENT CONDITIONS; ANTHROPOGENIC CARBON DIOXIDE; CARBON DIOXIDE DISPOSAL; CARBON DIOXIDE SEQUESTRATION; DEEP KNOWLEDGE; DYPINGITE; EARTH'S SURFACE; ENVIRONMENTAL CHALLENGES; GEOLOGICAL RESERVOIRS; HIGH RESOLUTION; HYDROMAGNESITE; INTERMEDIATE PHASIS; MGO; MOLAR RATIO; NESQUEHONITE; PERICLASE; SOLID FORMS; STABLE STORAGE; STRUCTURAL STABILITIES; TEMPERATURE RANGE; THERMAL BEHAVIOURS; THERMODYNAMICALLY STABLE; VOLUME CHANGE;

DECOMPOSITION; MAGNESITE; PETROLEUM RESERVOIR ENGINEERING; STABILITY; THERMODYNAMIC STABILITY; X RAY POWDER DIFFRACTION;

CARBON DIOXIDE;

CARBON DIOXIDE; CARBON SEQUESTRATION; CARBONATE GROUP; DYPINGITE; HIGH TEMPERATURE; NESQUEHONITE; PHASE TRANSITION; THERMAL DECOMPOSITION; UNDERGROUND STORAGE;

EID: 84872734281     PISSN: 00092541     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.chemgeo.2012.12.005     Document Type: Article

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