Bernhard Kienzler scite author profile

Since its inauguration in 2005, the INE-Beamline for actinide research at the synchrotron source ANKA (KIT North Campus) provides dedicated instrumentation for x-ray spectroscopic characterization of actinide samples and other radioactive materials. R&D work at the beamline focuses on various aspects of nuclear waste disposal within INE's mission to provide the scientific basis for assessing long-term safety of a final nuclear waste repository. The INE-Beamline is accessible for the actinide and radiochemistry community through the ANKA proposal system and the European Union Integrated Infrastructure Initiative ACTINET-I3. Experiments with activities up to 1 × 10(+6) times the European exemption limit are feasible within a safe but flexible containment concept. Measurements with monochromatic radiation are performed at photon energies varying between ~2.1 keV (P K-edge) and ~25 keV (Pd K-edge), including the lanthanide L-edges and the actinide M- and L3-edges up to Cf. The close proximity of the INE-Beamline to INE controlled area labs offers infrastructure unique in Europe for the spectroscopic and microscopic characterization of actinide samples. The modular beamline design enables sufficient flexibility to adapt sample environments and detection systems to many scientific questions. The well-established bulk techniques x-ray absorption fine structure (XAFS) spectroscopy in transmission and fluorescence mode have been augmented by advanced methods using a microfocused beam, including (confocal) XAFS/x-ray fluorescence detection and a combination of (micro-)XAFS and (micro-)x-ray diffraction. Additional instrumentation for high energy-resolution x-ray emission spectroscopy has been successfully developed and tested.

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Radionuclide release from high burnup spent fuel during corrosion in salt brine in the presence of hydrogen overpressure

Loida

Metz

Kienzler

et al. 2005

Journal of Nuclear Materials

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Conceptual Modeling of the Humic Colloid-Borne Americium(III) Migration by a Kinetic Approach

Schuessler

Artinger

Kienzler

et al. 2000

Environ. Sci. Technol.

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The humic colloid-borne Am(III) migration is investigated by laboratory experiment. As the reactions controlling the Am(III) migration are found to be not in equilibrium, the experimental results are interpreted by a kinetic model, i.e., the Kinetically Controlled Availability Model (KICAM). Model parameters determined by fitting experimental data in one groundwater sand system are applied (i) to describe the Am(III) sorption and migration behavior in three other groundwater sand systems with lower humic colloid concentrations and (ii) to calculate the recovery of modified column experiments with different column lengths. Further refinement and applicability of the laboratory calibrated model to a real system is considered briefly.

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Long-term cement corrosion in chloride-rich solutions relevant to radioactive waste disposal in rock salt – Leaching experiments and thermodynamic simulations

Bube

Metz

Bohnert

et al. 2013

Physics and Chemistry of the Earth, Parts A/B/C

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