Tetraphenylborate solids provide a potentially large source of benzene in the slurries produced in the In-Tank Precipitation process. The stability of the solids is an important consideration in the safety analysis of the process and we desire an understanding of the factors that influence the rate of conversion of the solids to benzene
A series of twelve tests examined benzene generation rates with radioactive materials simulating the...
The Saltstone Facility provides the final treatment and disposal of low level liquid wastes streams....
This study assessed chemical treatment options for decomposing the tetraphenylborate in High Level W...
Tetraphenylborate solids are a potentially large source of benzene in the slurries produced in the I...
Use of sodium tetraphenylborate to precipitate cesium in the In-Tank Precipitation process results i...
The stability of excess amounts of sodium tetraphenylborate (NaTPB) in the In-Tank Precipitation (IT...
At the Savannah River Site, the in-tank precipitation (ITP) process uses sodium tetraphenylborate (N...
Nuclear Magnetic Resonance (NMR) measurements on In-Tank Precipitation (ITP) simulated potassium tet...
During the initial months of In-Tank Precipitation radioactive operation in 1995 the process experie...
In support for the Aggregation option1, researchers performed a series of tests using actual Tank 48...
The Savannah River Technology Center (SRTC) developed a program to investigate various operating par...
The rate of solid sodium tetraphenylborate (NaTPB) dissolution in In-Tank Precipitation salt solutio...
The Savannah River National Laboratory was tasked with determining the benzene release rates in salt...
At the Savannah River Site, the In-Tank Precipitation process uses sodium tetraphenylborate to decon...
Excess sodium tetraphenylborate decomposed during startup of the In-Tank Precipitation process in 19...
A series of twelve tests examined benzene generation rates with radioactive materials simulating the...
The Saltstone Facility provides the final treatment and disposal of low level liquid wastes streams....
This study assessed chemical treatment options for decomposing the tetraphenylborate in High Level W...
Tetraphenylborate solids are a potentially large source of benzene in the slurries produced in the I...
Use of sodium tetraphenylborate to precipitate cesium in the In-Tank Precipitation process results i...
The stability of excess amounts of sodium tetraphenylborate (NaTPB) in the In-Tank Precipitation (IT...
At the Savannah River Site, the in-tank precipitation (ITP) process uses sodium tetraphenylborate (N...
Nuclear Magnetic Resonance (NMR) measurements on In-Tank Precipitation (ITP) simulated potassium tet...
During the initial months of In-Tank Precipitation radioactive operation in 1995 the process experie...
In support for the Aggregation option1, researchers performed a series of tests using actual Tank 48...
The Savannah River Technology Center (SRTC) developed a program to investigate various operating par...
The rate of solid sodium tetraphenylborate (NaTPB) dissolution in In-Tank Precipitation salt solutio...
The Savannah River National Laboratory was tasked with determining the benzene release rates in salt...
At the Savannah River Site, the In-Tank Precipitation process uses sodium tetraphenylborate to decon...
Excess sodium tetraphenylborate decomposed during startup of the In-Tank Precipitation process in 19...
A series of twelve tests examined benzene generation rates with radioactive materials simulating the...
The Saltstone Facility provides the final treatment and disposal of low level liquid wastes streams....
This study assessed chemical treatment options for decomposing the tetraphenylborate in High Level W...
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