Optimization and pathway study on destruction of the spent extraction solvent in supercritical water

Sustainable management of spent extraction solvents (SES) is paramount in the nuclear industry. This study delves into the optimization and oxidation pathways of treating these solvents using supercritical water oxidation (SCWO). Response surface methodology (RSM) has been employed to optimize key o...

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Bibliographic Details
Published in:RSC advances 2024-02, Vol.14 (8), p.5167-5175
Main Authors: Li, Ye, Qin, Qiang, Zhang, Zhizhi, Wang, Shuai
Format: Article
Language:English
Subjects:
Aldehydes
Ketones
Optimization
Organic carbon
Oxidizing agents
Polynomials
Process intensification
Response surface methodology
Solvents
Supercritical water oxidation
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Summary:Sustainable management of spent extraction solvents (SES) is paramount in the nuclear industry. This study delves into the optimization and oxidation pathways of treating these solvents using supercritical water oxidation (SCWO). Response surface methodology (RSM) has been employed to optimize key operating variables, that is, temperature, residence time and oxidant concentration, producing a highly accurate quadratic polynomial model. The results showed that the total organic carbon (TOC) removal could reach up to 99.25% under 549 °C, 67.7 s and with an oxidation coefficient of 274.3%. Product analysis of the effluent via GC-MS/FTIR/GC revealed the pivotal role of ketones and aldehydes as major intermediates. This study proposes potential chemical pathways for the destruction of these solvents, providing invaluable insights for process intensification. In conclusion, this study underscores the potential of SCWO as an efficient and sustainable solution for disposing of SES in the nuclear industry. Sustainable management of spent extraction solvents (SES) is paramount in the nuclear industry.
ISSN:2046-2069
2046-2069
DOI:10.1039/d3ra08656a