Your search keyword '"Foreman, Mark R. St. J."' showing total 4 results

1. Characterization and Leaching of Neodymium Magnet Waste and Solvent Extraction of the Rare-Earth Elements Using TODGA

Author

Gergoric, Marino, Ekberg, Christian, Foreman, Mark R. St J., Steenari, Britt-Marie, and Retegan, Teodora

Published

2017

2. A comparison on the use of DEHBA or TBP as extracting agent for tetra- and hexavalent actinides in the CHALMEX Process.

Author

Authen, Thea Lyseid, Tekikachew, Behabitu Ergette, Foreman, Mark R. St. J., Wilden, Andreas, and Ekberg, Christian

Subjects

FUEL cycle, ACTINIDE elements, OLEIC acid, SOLVENT extraction, WASTE recycling

Abstract

The Chalmers Grouped ActiNide EXtraction process is a solvent extraction process for the homogeneous recycling of spent nuclear fuel. The use of TBP for the extraction of tetra- and hexavalent actinides can be problematic for several reasons, including troublesome degradation products causing crud formation, decreased extraction yield and the possibility of explosive red oil reactions. Here, the substitution of TBP by a N,N-dialkyl monoamide, DEHBA, is investigated. The findings suggest that DEHBA can be a suitable extracting agent for use in the CHALMEX solvent, although identified drawbacks need to be further investigated. [ABSTRACT FROM AUTHOR]

Published

2022

3. Activity coefficients in deep eutectic solvents: implications for the solvent extraction of metals.

Author

Foreman, Mark R. St J., Holgersson, Stellan, McPhee, Conor, and Tyumentsev, Mikhail S.

Subjects

*SOLVENT extraction, *CHOLINE chloride

Abstract

An understanding of the effects of the water content on the solvent extraction of metals from the deep eutetic formed from choline chloride and lactic acid has been obtained. This change can be rationalised as being due to a change in the activity coefficient of chloride in the deep eutetic. [ABSTRACT FROM AUTHOR]

Published

2018

4. A TBP/BTBP-based GANEX Separation Process-Part 2: Ageing, Hydrolytic, and Radiolytic Stability.

Author

Aneheim, Emma, Ekberg, Christian, Fermvik, Anna, Foreman, Mark R. St. J., Grűner, Bohumir, Hajkova, Zuzana, and Kvicalova, Magda

Subjects

SOLVENT extraction, RADIOACTIVE wastes, HYDROLYSIS, RADIATION chemistry, ACTINIDE elements, NITRIC acid, PARTITION coefficient (Chemistry)

Abstract

The waste from nuclear power plants worldwide has to be isolated from man and his environment for about 100,000 years to equal the levels of natural uranium. If, however, the long-lived actinides could be separated from the spent fuel and transmuted, then the isolation time could be shortened to about 1,000 years. This does, however, require the selective separation of the actinides from the rest of the waste. Several processes exist for such a separation, of which one is the Group ActiNide Extraction (GANEX) process. A novel GANEX process has been developed at the Chalmers University of Technology utilizing the properties of already well known extractants by combining BTBP and TBP into one solvent. The stability provided by this GANEX solvent towards ageing, hydrolysis, and radiolysis has been investigated. The results show that the actinide distribution ratios are maintained after a long duration of contact with strong nitric acid. The solvent has also been found to be stable towards radiolysis up to 200 kGy in contact with 4 M nitric acid. [ABSTRACT FROM AUTHOR]

Published

2011