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@ARTICLE{SanchezGarcia:1018146,
author = {Sanchez-Garcia, Ivan and Heres, Xavier and Peterman, Dean.
R. and Galan, Hitos and Costenoble, Sylvain and Broussard,
Sylvain and Sinot, Johann and Grimes, Travis S. and
Anderson, Kash Reid and Jansone-Popova, Santa and Gullo,
Maria Chiara and Casnati, Alessandro and Wilden, Andreas and
Geist, Andreas},
title = {{I}nterinstitutional {S}tudy of the {N}ew {EURO}-{GANEX}
{P}rocess {R}esistance by {G}amma {I}rradiation {T}est
{L}oops},
journal = {Industrial $\&$ engineering chemistry research},
volume = {62},
number = {47},
issn = {0888-5885},
address = {Columbus, Ohio},
publisher = {American Chemical Society},
reportid = {FZJ-2023-04590},
pages = {20326–20339},
year = {2023},
abstract = {As part of the homogeneous actinide recycling strategy, the
EUROGANEXprocess is one of the most promising options to
achieve the goal of minoractinides recovery. Improvements
made to EURO-GANEX system have resulted in theemergence of
the so-called New EURO-GANEX process, where the composition
of thesolvent has been modified by replacing TODGA and
DMDOHEMA with cismTDDGAin the organic phase and SO3-Ph-BTP
with PyTri-Diol in the aqueousphase in order to resolve
important issues. The objective of this work is 2-fold:
evaluatethe gamma radiolytic resistance of the new
EURO-GANEX process by dynamicirradiation conditions
simulating the three main steps of the process and validate
thedesign of CIEMAT Náyade, CEA Marcel, and INL
irradiation loop devices since eachof them mimics different
aspects of the real process. The Náyade and INL loops
couldirradiate the organic and aqueous phases together,
whereas in the CEA loop, theirradiated solvent is recycled
continuously inside a platform with several stages
ofmixer-settlers containing aqueous flows simulating the
three main steps of the process. The extraction performances
and changes inthe composition of the solvent have been
analyzed during the irradiation experiment by different
techniques: gamma spectrometryand ICP-MS/OES for cations or
radioactive tracer extraction and HPLC-MS to identify and
quantify the degradation compounds.Despite some differences
between the three irradiation facilities, this
interinstitutional study shows that these three comparative
toolsprovide similar trends in the radiolytic stability of a
liquid−liquid extraction system. Favorable extraction
results for the differentsteps are obtained according to the
static irradiation studies found in literature. However, the
degradation of cis-mTDDGA isappreciable leading to
degradation compounds, some of which form precipitates and
produce important changes in viscosity,important aspects
that must be addressed prior to the successful industrial
application of the new EURO-GANEX process.},
cin = {IEK-6},
ddc = {660},
cid = {I:(DE-Juel1)IEK-6-20101013},
pnm = {1412 - Predisposal (POF4-141) / GENIORS - GEN IV Integrated
Oxide fuels recycling strategies (755171)},
pid = {G:(DE-HGF)POF4-1412 / G:(EU-Grant)755171},
typ = {PUB:(DE-HGF)16},
UT = {WOS:001111128200001},
doi = {10.1021/acs.iecr.3c02884},
url = {https://juser.fz-juelich.de/record/1018146},
}
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