Conversion of Coarse Gibbsite Remaining in Hanford Nuclear Waste Tank Heels to Solid Sodium Aluminate [NaAl(OH)4·1.5H2O]

Conversion of Coarse Gibbsite Remaining in Hanford Nuclear Waste Tank Heels to Solid Sodium Aluminate [NaAl(OH)4·1.5H2O]

The Hanford Site near Richland, WA, has 177 high-level nuclear waste tanks containing 56 million gallons of waste derived from nuclear fuel reprocessing. The site is removing waste from old single-shell tanks, but some gibbsite [γ-Al(OH)3] has been left behind by the current retrieval technology and...

Full description

Saved in:
Bibliographic Details
Published in:Industrial & engineering chemistry research Vol. 53; no. 36; pp. 13833 - 13842
Main Authors: Herting, Daniel L, Reynolds, Jacob G, Barton, W. Blaine
Format: Journal Article
Language:English
Published: American Chemical Society 10-09-2014
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The Hanford Site near Richland, WA, has 177 high-level nuclear waste tanks containing 56 million gallons of waste derived from nuclear fuel reprocessing. The site is removing waste from old single-shell tanks, but some gibbsite [γ-Al(OH)3] has been left behind by the current retrieval technology and would remain in the tanks when grouted on site, if not removed first. This study develops a new process to remove this gibbsite by converting it into water-soluble NaAl(OH)4·1.5H2O in highly concentrated NaOH(aq). Gibbsite was incubated in NaOH(aq) solutions of 8, 11, or 19.4 M concentration at 25 or 50 °C for up to 312 h. Inductively coupled plasma atomic emission spectroscopy and polarized light microscopy were used to monitor the reaction. Gibbsite rapidly converted into NaAl(OH)4·1.5H2O at all NaOH concentrations and temperatures for nonradioactive and real waste gibbsite samples. NaAl(OH)4·1.5H2O initially crystallized with a needle-shaped morphology, but subsequently transformed into a rectangular plate. These results demonstrate that gibbsite can be readily converted into NaAl(OH)4·1.5H2O in concentrated NaOH at ambient temperatures, suggesting that this is a promising technology for removing gibbsite from high-level waste tank heels.
ISSN:0888-5885
1520-5045
DOI:10.1021/ie5014212