E. Krahn scite author profile

E. Krahn

5Publications

14Citation Statements Received

79Citation Statements Given

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Argonne National Laboratory

Publications

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Design of a Fission ⁹⁹Mo Recovery Process and Implications toward Mo Adsorption Mechanism on Titania and Alumina Sorbents

Stepinski

Youker

Krahn

et al. 2017

Ind. Eng. Chem. Res.

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Molybdenum-99 is the parent of the most widely used medical isotope technetium-99m. Proliferation concerns have prompted development of alternative Mo production methods utilizing low enriched uranium. Alumina and titania sorbents were evaluated for separation of Mo from concentrated uranyl nitrate solutions. System, mass transfer, and isotherm parameters were determined to enable design of Mo separation processes under a wide range of conditions. A model-based approach was utilized to design representative commercial-scale column processes. The designs and parameters were verified with bench-scale experiments. The results are essential for design of Mo separation processes from irradiated uranium solutions, selection of support material, and process optimization. Mo uptake studies show that adsorption decreases with increasing concentration of uranyl nitrate; however, examination of Mo adsorption as a function of nitrate ion concentration shows no dependency, indicating that uranium competes with Mo for adsorption sites. These results are consistent with reports indicating that Mo forms inner-sphere complexes with titania and alumina surface groups.

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Designs of Column Separation Processes for Recovery of Molybdenum from Dissolved High-Density LEU Target - Further Studies

Stepinski¹,

Krahn²,

Chung³

2012

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Mo-99 Stripping Results and Column Designs for Mini-Medical Isotope Production System (MIPS)

Youker¹,

Chung²,

Krahn³

et al. 2011

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Column Optimization Studies

Youker¹,

Chung²,

Krahn³

2012

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Design of Column Separation Processes for Recovery of Molybdenum from Dissolved High-Density LEU Target

Stepinski¹,

Krahn²,

Chung³

2011

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E. Krahn

Design of a Fission ⁹⁹Mo Recovery Process and Implications toward Mo Adsorption Mechanism on Titania and Alumina Sorbents

Designs of Column Separation Processes for Recovery of Molybdenum from Dissolved High-Density LEU Target - Further Studies

Mo-99 Stripping Results and Column Designs for Mini-Medical Isotope Production System (MIPS)

Column Optimization Studies

Design of Column Separation Processes for Recovery of Molybdenum from Dissolved High-Density LEU Target

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About

E. Krahn

Design of a Fission 99Mo Recovery Process and Implications toward Mo Adsorption Mechanism on Titania and Alumina Sorbents

Designs of Column Separation Processes for Recovery of Molybdenum from Dissolved High-Density LEU Target - Further Studies

Mo-99 Stripping Results and Column Designs for Mini-Medical Isotope Production System (MIPS)

Column Optimization Studies

Design of Column Separation Processes for Recovery of Molybdenum from Dissolved High-Density LEU Target

Contact Info

Product

Resources

About

Design of a Fission ⁹⁹Mo Recovery Process and Implications toward Mo Adsorption Mechanism on Titania and Alumina Sorbents