Reassessment of caustic scrubbing for radioiodine capture during UNF processing

Abstract

The effective removal of iodine-129 from gaseous emissions during used nuclear fuel processing is critical for minimizing environmental contamination and ensuring environmental regulatory compliance. Recent research has focused on optimizing process air, scrubber conditions, and integrating complementary techniques, such as solid sorbents as a polishing step, to improve iodine capture efficiency. The efficiency of a caustic scrubber is influenced by several factors, such as pH, temperature, gas–liquid contact time, and the presence of oxidants, yet the existing literature tends not to consider how these factors might interact or change in importance with process scaling. This perspective advocates for reconsidering how to mitigate many of these factors, especially in view of the transition from laboratory bench to pilot scale and beyond. This paper reviews the principles, operational parameters, and advancements in caustic aqueous scrubbing for radioiodine mitigation, aims to direct the next scientific pursuit of this technology, and inform environmental decision-making.

Graphical abstract: Reassessment of caustic scrubbing for radioiodine capture during UNF processing

Article information

Article type
Perspective
Submitted
08 Jul 2025
Accepted
13 Aug 2025
First published
26 Aug 2025
This article is Open Access
Creative Commons BY license

React. Chem. Eng., 2025, Advance Article

Reassessment of caustic scrubbing for radioiodine capture during UNF processing

R. Ngelale, J. McFarlane, D. Orea and K. R. Johnson, React. Chem. Eng., 2025, Advance Article , DOI: 10.1039/D5RE00295H

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