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DRIFT-SCALE COUPLED PROCESSES (DST AND TH SEEPAGE) MODELS

Technical Report ·
DOI:https://doi.org/10.2172/883411· OSTI ID:883411
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The purpose of this report is to document drift-scale modeling work performed to evaluate the thermal-hydrological (TH) behavior in Yucca Mountain fractured rock close to waste emplacement drifts. The heat generated by the decay of radioactive waste results in rock temperatures elevated from ambient for thousands of years after emplacement. Depending on the thermal load, these temperatures are high enough to cause boiling conditions in the rock, giving rise to water redistribution and altered flow paths. The predictive simulations described in this report are intended to investigate fluid flow in the vicinity of an emplacement drift for a range of thermal loads. Understanding the TH coupled processes is important for the performance of the repository because the thermally driven water saturation changes affect the potential seepage of water into waste emplacement drifts. Seepage of water is important because if enough water gets into the emplacement drifts and comes into contact with any exposed radionuclides, it may then be possible for the radionuclides to be transported out of the drifts and to the groundwater below the drifts. For above-boiling rock temperatures, vaporization of percolating water in the fractured rock overlying the repository can provide an important barrier capability that greatly reduces (and possibly eliminates) the potential of water seeping into the emplacement drifts. In addition to this thermal process, water is inhibited from entering the drift opening by capillary forces, which occur under both ambient and thermal conditions (capillary barrier). The combined barrier capability of vaporization processes and capillary forces in the near-field rock during the thermal period of the repository is analyzed and discussed in this report.

Research Organization:
Yucca Mountain Project, Las Vegas, Nevada
Sponsoring Organization:
USDOE
DOE Contract Number:
AC28-01RW12101
OSTI ID:
883411
Report Number(s):
MDL-NBS-HS-000015 REV 02; DOC.20050114.0004 DC#43153
Country of Publication:
United States
Language:
English

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Related Subjects

12 MANAGEMENT OF RADIOACTIVE AND NON-RADIOACTIVE WASTES FROM NUCLEAR FACILITIES
BOILING
DECAY
EVAPORATION
FLUID FLOW
OPENINGS
PERFORMANCE
POSITIONING
RADIOACTIVE WASTES
RADIOISOTOPES
SIMULATION
WASTES
WATER
WATER SATURATION
YUCCA MOUNTAIN