Experimental device for chemical osmosis measurement on natural clay-rock samples maintained at in situ conditions: Implications for formation pressure interpretations

Journal of Colloid and Interface Science

Volumn 337, Issue 1, 2009, Pages 106-116

  Rousseau Gueutin, Pauline ^a,c,d   de Greef, Vincent ^b   Gonçalvès, Julio ^a   Violette, Sophie ^a   Chanchole, Serge ^b  

^a UNIVERSITÉ PIERRE ET MARIE CURIE   (France)

^b LABORATOIRE DE MÉCANIQUE DES SOLIDES   (France)

^c ANDRA   (France)

^d FLINDERS UNIVERSITY   (Australia)

Author keywords

Chemical osmosis; Clay rock; Coupled processes; Experiments; Modeling

Indexed keywords

ALTERNATIVE METHODS; CHEMICAL OSMOSIS; CLIMATE VARIATION; COMPACTED CLAYS; CONCENTRATION OF; COUPLED PROCESS; COUPLED PROCESSES; COUPLING COEFFICIENT; COUPLING PARAMETERS; CREEP BEHAVIORS; CYLINDRICAL SAMPLES; FORMATION PRESSURE; HYDRODYNAMIC BOUNDARY CONDITIONS; IN-SITU; MEASUREMENT CHAMBER; MODELING; NATURAL CLAYS; NUMERICAL MODELS; OSMOTIC EFFICIENCY; OVER-PRESSURES; ROCK SAMPLE; ROOM TEMPERATURE; TEMPERATURE EFFECTS;

EXPERIMENTS; FLOW OF WATER; FLUID DYNAMICS; LEAKAGE (FLUID); OSMOSIS; PARAMETER ESTIMATION; ROCKS;

CLAY MINERALS;

CALCIUM; CHLORIDE; MAGNESIUM; SODIUM; STRONTIUM; SULFATE;

ACCURACY; ARTICLE; CHEMICAL COMPOSITION; CLAY; COMPRESSION; CONCENTRATION (PARAMETERS); CONDUCTANCE; CONTROLLED STUDY; FLOW KINETICS; HYDRODYNAMICS; MATHEMATICAL ANALYSIS; MATHEMATICAL MODEL; OSMOSIS; OSMOTIC PRESSURE; PRESSURE MEASUREMENT; PRESSURE TRANSDUCER; PRIORITY JOURNAL; ROCK; ROOM TEMPERATURE; SEASONAL VARIATION;

EID: 67649432912     PISSN: 00219797     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jcis.2009.04.092     Document Type: Article

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