Recovery of Americium—Curium From High-Activity Waste

Jul 20, 1981 - Recovery of Americium—Curium From High-Activity Waste Concentrate by In-Canyon-Tank Precipitation as Oxalates. L. W. GRAY, G. A. ...
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14 Recovery of Americium-Curium From High­ -Activity Waste Concentrate by In-Canyon-Tank Precipitation as Oxalates L. W. GRAY, G. A. BURNEY, T. W. WILSON, and J. M. McKIBBEN

Downloaded by CORNELL UNIV on October 27, 2016 | http://pubs.acs.org Publication Date: July 20, 1981 | doi: 10.1021/bk-1981-0161.ch014

Ε. I. du Pont de Nemours & Company, Savannah River Laboratory, Aiken, SC 29808 The Savannah River Laboratory (SRL) and Savannah River Plant (SRP) have been separating actinides for more than 25 years. Work continues to upgrade processes and to initiate new processes. This report summarizes work on a precipitation process developed to separate kg amounts of Am and Cm from hundreds of kilograms of NaNO and Al(NO ) . The new process includes formic acid denitration of the Am-Cm bearing streams for acid adjustment; oxalate precipitation of the Am-Cm; and Mn -catalyzed HNO oxidation of oxalate in both the decanted supernate and the precipitated acti­ nides. The new process generates one-fourth as much radioactive waste as the solvent extraction process which it replaced and produces a cleaner feed solution for downstream processing to separate the Am and Cm before conversion to their respective oxides. 3

3

3

2+

3

Origin of Am-Cm Solutions 243

244

252

Large-scale purification of Am, Cm, and Cf by pres­ surized cation exchange has been planned at SRP for many years (1,2). Initial small-scale work involved isolation of a crude actinide-lanthanide fraction by batch extraction in the large (>10,000 L) SRP canyon tanks followed by solvent extraction and ion exchange in the SRL high level caves. Processing r a t e s i n the caves, however, were inadequate f o r l a r g e - s c a l e p u r i f i c a ­ t i o n of AmCm. 243

2l+1+

For l a r g e - s c a l e p u r i f i c a t i o n , the Purex P l a n t solvent e x t r a c ­ t i o n bank was used f i r s t t o separate Am-Cm from the Pu i n the t a r g e t element and then to separate Am-Cm from the A l i n the t a r g e t element. I n each of the four campaigns that have been processed, the Pu i n the t a r g e t element has been p u r i f i e d by the normal Purex flowsheet. I n each case, the Am-Cm f r a c t i o n was i n i t i a l l y r e j e c t e d to the waste (1AW) stream.

0097-6156/81/0161-0223$05.00/0 ©

1981 A m e r i c a n Chemical Society

Navratil and Schulz; Transplutonium Elements—Production and Recovery ACS Symposium Series; American Chemical Society: Washington, DC, 1981.

TRANSPLUTONIUM

Downloaded by CORNELL UNIV on October 27, 2016 | http://pubs.acs.org Publication Date: July 20, 1981 | doi: 10.1021/bk-1981-0161.ch014

224

E L E M E N T S

1AF 1.5M

AI(N0 ) 3

0.6M

3

HNO3

0.01 g / L

ΡυΠΠ)

1 AS

3 0 % Τ BP

6Μ Ν α Ν 0

3

ΙΑ AI(NO) Να(Ν0 ) 3

30%

Figure 1.

Waste Solvent

ΤΒΡ

op

3

3>

IB

IBP

1BX

Am Cm HN0

0.1M H N 0

3

1C

3

1CU

1CX

Pu 0.3M H N 0

0.01M HAN 0.05M HN0

3

A ctinide separations flowsheet

Navratil and Schulz; Transplutonium Elements—Production and Recovery ACS Symposium Series; American Chemical Society: Washington, DC, 1981.

3

14.

GRAY

Ιπ-Canyon-Tank

E T A L .

225

Then f o r the f i r s t three campaigns, the 1AW was evaporated and a c i d a d j u s t e d t o form feed f o r a second-pass through the s o l v e n t e x t r a c t i o n c y c l e to e x t r a c t the Am-Cm f r a c t i o n . T h i s flowsheet, shown i n F i g u r e 1, was used t o recover a t o t a l of ^6.1 kg Am and ^2.3 kg ^Cm. The o v e r a l l recovery of Am-Cm f o r these three campaigns was >99%. The p u r i f i e d product from these three campaigns was evaporated and combined i n a s i n g l e tank. U n f o r t u n a t e l y , the c o n t r i b u t i o n of both entrainment and s o l u b i l i t y of NaN03 from the scrub (IAS) stream was s u f f i c i e n t to y i e l d 8500 moles of NaN03 i n the p u r i f i e d Am-Cm s o l u t i o n . The high-pressure ion-exchange process i n the M u l t i - P u r p o s e P r o c e s s i n g F a c i l i t y (MPPF), however, demands that the monovalent c a t i o n contamination of the Am-Cm feed be reduced t o