| Publication Date |
2014 |
| Personal Author |
Schonewill, P. P.; Bontha, J. R.; Gauglitz, P. A.; Karri, N. K.; Shimskey, R. W.; Fifield, L. S.; Denslow, K. M.; Tran, D. N.; Powell, M. R.; Sande, S. A.; Boeringa, G. K.; Heldebrant, D. J.; Meacham, J. E. |
| Page Count |
234 |
| Abstract |
Gas generation in Hanford's underground waste storage tanks may, under certain conditions, lead to gas accumulation within the layer of settled solids (sludge) at the tank bottom. The gas, which typically has hydrogen as the major component together with other flammable species, is formed principally by radiation-driven chemical reactions. Accumulation of these gases within the sludge in a waste tank is undesirable and limits the amount of tank volume for waste storage. Further, accumulation of large amounts of gas in the sludge may potentially result in an unacceptable release of the accumulated gas if the sludge-layer density is reduced to less than that of the overlying sludge or that of the supernatant liquid. Rapid release of large amounts of flammable gases could endanger personnel and equipment near the tank. For this reason, a thorough understanding of the circumstances that can lead to a potentially problematic gas accumulation in sludge layers is needed. To respond to this need, the Deep Sludge Gas Release Event Project (DSGREP) was commissioned to examine gas release behavior in sludges. |
| Keywords |
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| Source Agency |
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| NTIS Subject Category |
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| Corporate Authors |
Pacific Northwest National Lab., Richland, WA.; Department of Energy, Washington, DC. |
| Supplemental Notes |
Sponsored by Department of Energy, Washington, DC. |
| Document Type |
Technical Report |
| NTIS Issue Number |
201502 |
| Contract Number |
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