Your search keyword '"Neptunium"' showing total 3 results

1. Neptunium substitution in synthetic uranophane and soddyite.

Author

Klingensmith, Amanda L. and Burns, Peter C.

Subjects

*NEPTUNIUM, *RADIOACTIVE wastes, *CRYSTALS, *MINERALOGY

Abstract

Alteration of spent nuclear fuel in a geological repository under oxidizing conditions may result in uranyl compounds and incorporation of Np-237 into uranyl alteration phases could impact repository performance. Powders of synthetic soddyite, (UO2)2(SiO4)(H2O)2, and uranophane, Ca[(UO2)(SiO3 OH)]2(H2O)5, were synthesized under mild hydrothermal conditions in the presence of Np5+. Synthesis experiments were conducted at various temperatures and pH of the initial solutions. Powders of soddyite exhibit increasing Np concentration with the synthesis temperature at a pH of 4, consistent with substitution of Np5+ for U6+ in the structure. In contrast, the general decrease of the Np concentration in powders of uranophane with increasing synthesis temperature is inconsistent with incorporation of Np5+ into the structure of uranophane. These results further support the possibility that uranyl phases that form in a geological repository may impact Np mobility, but also demonstrate that additional studies of the impact of the crystal structure on incorporation are needed. [ABSTRACT FROM AUTHOR]

Published

2007

2. Neptunium and Plutonium Solubilities in a Yucca Mountain Groundwater.

Author

Efurd, D. Wes and Runde, Wolfgang

Subjects

*NEPTUNIUM, *PLUTONIUM, *GROUNDWATER, *SOLUBILITY

Abstract

Provides information on a study which examined the solubilities of neptunium and plutonium in J-13 groundwater from the proposed Yucca Mountain Nuclear Waste Repository site in Nevada. Information on the site; Experimental procedure; Results and discussion.

Published

1998

3. THE DOE SHOULD PREPARE REALISTIC YUCCA MOUNTAIN MODELS.

Subjects

RADIOACTIVE waste repositories, REVIEW committees, NEPTUNIUM, PLUTONIUM

Abstract

Reports on the demand of the Nuclear Waste Technical Review Board (NWTRB) to the U.S. Department of Energy for the creation of realistic Yucca Mountain radioactive waste repository models that account for the transport of neptunium-237 (Np-237) and plutonium (Pu-242) from Yucca's engineered barrier system to the biosphere in Nevada in 2006. Role of Np-237 and Pu-242 in peak dose; Remarks from NWTRB chairman John Garrick regarding their interest in a realistic dose assessment; Information on NWTRB.

Published

2006