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Geochemical evolution of groundwater in the Culebra dolomite near the Waste Isolation Pilot Plant, southeastern New Mexico, USA

Journal Article · · Geochimica et Cosmochimica Acta; (United States)
 [1];  [2]
  1. Sandia National Labs., Albuquerque, NM (United States)
  2. Geological Survey, Albuquerque, NM (United States)
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The Culebra Dolomite Member of the Rustler Formation, a thin (10 m) fractured dolomite aquifer, lies approximately 450 m above the repository horizon of the Waste Isolation Pilot Plant (WIPP) in southeastern New Mexico, USA. Salinities of water in the Culebra range roughly from 10,000 to 200,000 mg/L within the WIPP site. A proposed model for the post-Pleistocene hydrochemical evolution of the Culebra tentatively identifies the major sources and sinks for many of the groundwater solutes. Reaction-path simulations with the PHRQPITZ code suggest that the Culebra dolomite is a partial chemical equilibrium system whose composition is controlled by an irreversible process (dissolution of evaporites) and equilibrium with gypsum and calcite. Net geochemical reactions along postulated modern flow paths, calculated with the NETPATH code, include dissolution of halite, carbonate and evaporite salts, and ion exchange. R-mode principal component analysis revealed correlations among the concentrations of Si, Mg, pH, Li, and B that are consistent with several clay-water reactions. The results of the geochemical calculations and mineralogical data are consistent with the following hydrochemical model: (1) solutes are added to the Culebra by dissolution of evaporite minerals; (2) the solubilities of gypsum and calcite increase as the salinity increases; these minerals dissolve as chemical equilibrium is maintained between them and the groundwater; (3) equilibrium is not maintained between the waters and dolomite; sufficient Mg is added to the waters by dissolution of accessory carnallite or polyhalite such that the degree of dolomite supersaturation increases with ionic strength; and (4) clays within the fractures and rock matrix exert some control on the distribution of Li, B, Mg, and Si via sorption, ion exchange, and dissolution.

OSTI ID:
7088592
Journal Information:
Geochimica et Cosmochimica Acta; (United States), Journal Name: Geochimica et Cosmochimica Acta; (United States) Vol. 58:10; ISSN GCACAK; ISSN 0016-7037
Country of Publication:
United States
Language:
English

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Technical Report · Thu Feb 28 23:00:00 EST 1991 · OSTI ID:5720187
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Related Subjects

052002* -- Nuclear Fuels-- Waste Disposal & Storage
12 MANAGEMENT OF RADIOACTIVE AND NON-RADIOACTIVE WASTES FROM NUCLEAR FACILITIES
ALKALI METALS
ALKALINE EARTH METALS
CHEMISTRY
COMPUTERIZED SIMULATION
ELEMENTS
EQUATIONS
FUNCTIONAL MODELS
GEOCHEMISTRY
GROUND WATER
HYDROGEN COMPOUNDS
LITHIUM
MAGNESIUM
METALS
NATIONAL ORGANIZATIONS
NUCLEAR FACILITIES
OXYGEN COMPOUNDS
PILOT PLANTS
PREDICTION EQUATIONS
RADIOACTIVE WASTE FACILITIES
SEMIMETALS
SILICON
SIMULATION
UNDERGROUND FACILITIES
US DOE
US ORGANIZATIONS
WATER
WIPP