Flow and transport in the drift shadow in a dual-continuum model

Abstract: The current concept for high-level radioactive waste disposal at Yucca Mountain is for the waste to be placed in underground tunnels (or drifts) in the middle of a thick unsaturated zone.Flow modeling and field testing have shown that not all flow encountering a drift will seep into the drift. The underlying reason for the diversion of unsaturated flow around a drift is that capillary forces in the fractures and matrix prevent water entry into the drift unless the capillary pressure in the rock decreases suffi… Show more

“…[22][23][24] The drift shadow is a region in the unsaturated zone beneath the tunnel drift that is partially sheltered from downwardpercolating water, because the capillary action is not strong enough to draw water into the rock immediately below the drift~Fig. 9!.…”

“…Transport in this region is controlled mainly by diffusive processes, rather than by advection. [22][23][24] The radiocuclides will diffuse through this region until they reach a location at which they can be transported by advection through the fracture network in the unsaturated zone to the alluvium, at which point they will travel by advection to some downgradient location. The shortest diffusion path to a region of advective transport will be to consider that the contaminated water is released from an outside edge of the waste canister and is subsequently diffusively transported laterally to the edge of the tunnel drift~or equivalently to the edge of the drift shadow region!, a distance somewhat .2 m. In the remainder of the analysis, we consider that the length of diffusive transport in the near field is 2 m. …”

“…Although there are a number of different rock types in the proposed YMR, the current repository design locates ;70% of the drifts in the tsw35 hydrogeologic unit. 23,25 The supporting documentation for the TSPA-LA provides distributions for the essential physical parameters necessary to make the near-field calculations.…”

“…37 As discussed previously this diffusive transport will occur because the water contaminated with the radionuclides initially interfaces with the drift shadow region, a region in which advective transport is negligible. [22][23][24] The tortuosity correction factor in this is conservatively set to 1. Retardation effects due to sorption of radionuclides with the host rock are considered based on the mean of the distributions provided in the supporting documentation for the TSPA-LA.…”

Performance Assessment for Geological Disposal of Graphite Waste Containing TRISO Particles

“…[22][23][24] The drift shadow is a region in the unsaturated zone beneath the tunnel drift that is partially sheltered from downwardpercolating water, because the capillary action is not strong enough to draw water into the rock immediately below the drift~Fig. 9!.…”

“…Transport in this region is controlled mainly by diffusive processes, rather than by advection. [22][23][24] The radiocuclides will diffuse through this region until they reach a location at which they can be transported by advection through the fracture network in the unsaturated zone to the alluvium, at which point they will travel by advection to some downgradient location. The shortest diffusion path to a region of advective transport will be to consider that the contaminated water is released from an outside edge of the waste canister and is subsequently diffusively transported laterally to the edge of the tunnel drift~or equivalently to the edge of the drift shadow region!, a distance somewhat .2 m. In the remainder of the analysis, we consider that the length of diffusive transport in the near field is 2 m. …”

“…Although there are a number of different rock types in the proposed YMR, the current repository design locates ;70% of the drifts in the tsw35 hydrogeologic unit. 23,25 The supporting documentation for the TSPA-LA provides distributions for the essential physical parameters necessary to make the near-field calculations.…”

“…37 As discussed previously this diffusive transport will occur because the water contaminated with the radionuclides initially interfaces with the drift shadow region, a region in which advective transport is negligible. [22][23][24] The tortuosity correction factor in this is conservatively set to 1. Retardation effects due to sorption of radionuclides with the host rock are considered based on the mean of the distributions provided in the supporting documentation for the TSPA-LA.…”

Performance Assessment for Geological Disposal of Graphite Waste Containing TRISO Particles

“…This modification is motivated by field observations showing that under unsaturated conditions, not all fractures in a connected fracture network actually carry water flow (Liu et al 1998 [DIRS 105729]). The AFM has been reviewed and published by Liu et al (1998 [DIRS 105729]), and several papers (e.g., Houseworth et al 2003 The model validation criteria mentioned above allow for evaluating the AFM by showing whether model results based on the AFM are consistent with different field observations simultaneously when the relevant results are sensitive to the AFM parameters. Because carbon-14 data and fracture coating data are signatures of past flow and transport processes in the UZ, these data provide important insight into the flow and transport processes under ambient conditions and are directly related to the intended use of the AFM.…”

Conceptual Model and Numerical Approaches for Unsaturated Zone Flow and Transport

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