scholarly journals The Advantages of a Salt/Bentonite Backfill for Waste Isolation Pilot Plant Disposal Rooms

1993 ◽  
Vol 333 ◽  
Author(s):  
B.M. Butcher
Keyword(s):  
Radioactive Waste ◽  
Pilot Plant ◽  
Selection Criteria ◽  
Final State ◽  
Government Regulations ◽  
Waste Isolation Pilot Plant ◽  
40 Cfr 191 ◽  
Backfill Materials ◽  
The Impact ◽  
Sorption Potential

ABSTRACTThis paper concludes that a 70 wt% salt/30 wt% bentonite mixture is preferable to pure crushed salt as backfill for disposal rooms in the Waste Isolation Pilot Plant. The performance of two backfill materials is examined with regard to various selection criteria related to compliance with the transuranic radioactive waste standard 40 CFR 191, Subpart B, such as the need for low liquid permeability after closure, chemical stability, strength, ease of emplacement, and sorption potential for brine and radionuclides. Both salt and salt/bentonite are expected to consolidate to a final state of permeability ≤ 10-18 m2, which is adequate for satisfying government regulations for nuclear repositories. The real advantage of the salt/bentonite backfill depends, therefore, on bentonite’s potential for sorbing brine and radionuclides. Estimates of the impact of these properties on backfill performance are presented.

scholarly journals Results From Simulated Contact-Handled Transuranic Waste Experiments at the Waste Isolation Pilot Plant

1993 ◽  
Vol 333 ◽  
Author(s):  
Martin A. Molecke ◽  
N. Rob Sorensen ◽  
James L. Krumhansl
Keyword(s):  
Pilot Plant ◽  
Long Term Conditions ◽  
Waste Isolation Pilot Plant ◽  
Technical Data ◽  
Waste Container ◽  
Operational Test ◽  
Backfill Materials ◽  
Waste Drums ◽  
Brine Pool

ABSTRACTWe conducted in situ experiments with simulated, i.e., nonradioactive, contact-handled trans-uranic (CH TRU) waste drums at the Waste Isolation Pilot Plant (WIPP) facility for a period of about four years. We performed these tests in two rooms in rock salt, at WIPP, with drums surrounded by crushed salt or 70 wt. % salt/30 wt. % bentonite clay backfills, or partially submerged in a NaCl brine pool. Air and brine temperatures were maintained at ~40°C. These full-scale (210-L drum) experiments provided in situ data on: backfill material moisture-sorption and physical properties in the presence of brine; waste container corrosion adequacy; and, migration of chemical tracers (nonradioactive actinide and fission product simulants) in the near-field vicinity, all as a function of time. Individual drums, backfill, and brine samples were removed periodically for laboratory evaluations. Waste container testing in the presence of brine and brine-moistened backfill materials served as a severe overtest of long-term conditions that could be anticipated in an actual salt waste repository. We also obtained relevant operational-test emplacement and retrieval experience. All test results are intended to support both the acceptance of actual TRU wastes at the WIPP and performance assessment data needs. We provide an overview and technical data summary focusing on the WIPP CH TRU environmental overtests involving ] 74 waste drums in the presence of backfill materials and the brine pool, with posttest laboratory materials analyses of backfill sorbed-moisture content, CH TRU drum corrosion, tracer migration, and associated test observations.

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