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Rheological Characterization of Cementitious Grouts used to Dispose of Intermediate-Level Radioactive Waste By Hydrofracturing at Oak Ridge National Laboratory

Published online by Cambridge University Press:  15 February 2011

E. W. Mcdaniel  and
J. G. Moore
E. W. Mcdaniel
Affiliation:
Chemical Technology Division, Oak Ridge National Laboratory, P. O. Box Y, Oak Ridge, Tennessee 37830, USA
J. G. Moore
Affiliation:
Chemical Technology Division, Oak Ridge National Laboratory, P. O. Box Y, Oak Ridge, Tennessee 37830, USA
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Abstract

The hydrofracturing process is a waste disposal process in use at the Oak Ridge National Laboratory for the permanent disposal of locally generated waste solutions. This process is now being modified for use in the disposal of sludge that results from the sodium hydroxide neutralization of acid waste solutions. In this process, the sludges will be slurried in a bentonite clay suspension and mixed with a solids blend of cement and other additives. The amount of dry solids required for each liter of waste slurry will be determined from a rheogram that relates the viscosity of the slurry with the grams per liter recommended for grouts with desirable flow properties.

A description of the process and the development of rheograms are included. Data are presented on the use of chemical additives to control the flow properties of grouts.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 6: Symposium D – Scientific Basis for Nuclear Waste Management IV , 1981 , 557
Copyright
Copyright © Materials Research Society 1982

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References

REFERENCES

1. DeLaguna, W. et al. ., Engineering Development of Hydraulic Fracturing as a Method for Permanent Disposal of Radioactive Wastes, ORNL–4259 (August 1968).Google Scholar
2. Struxness, E. G. et al. ., Safety Analysis of Waste Disposal by Hydraulic Fracturing at Oak Ridge, ORNL–4665 (September 1971).Google Scholar
3. Weeren, H. O., Shale Fracturing Injections at ORNL–1975 Series, ORNL/TM–5545 (August 1976).Google Scholar
4. Moore, J. G., Godbee, H. W., Kibbey, A. H., Joy, D. S., Development of Cementitious Grouts for the Incorporation of Radioactive Wastes, Part I: Leach Studies, ORNL–4962 (April 1975).Google Scholar
5. Smith, D. K., Cementing, Society of Petroleum Engineers of AIME, New York, 1976.Google Scholar
6. Weeren, H. O., Shale Fracturing Injections at ORNL–1972 Series, ORNL/TM–4467 (June 1974).Google Scholar
7. Halliburton Services, Inc., Technical Manual, Duncan, Oklahoma, 1972.Google Scholar
8. Principles of Drilling Fluid Control, 12th Ed., edited by a subcommittee of the API Southern District Study Committee on Drilling Fluids, published by Petroleum Extension Service, The University of Texas at Austin, in cooperation with the International Association of Drilling Contractors, Houston, Tex., 1978.Google Scholar