Chemically durable iron phosphate glasses for vitrifying sodium bearing waste (SBW) using conventional and cold crucible induction melting (CCIM) techniques

Chemically durable iron phosphate glasses for vitrifying sodium bearing waste (SBW) using conventional and cold crucible induction melting (CCIM) techniques

A simulated sodium bearing waste (SBW) was successfully vitrified in iron phosphate glasses (IPG) at a maximum waste loading of 40 wt% using conventional and cold crucible induction melting (CCIM) techniques. No sulfate segregation or crystalline phases were detectable in the IPG when examined by SE...

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Bibliographic Details
Published in:Journal of nuclear materials Vol. 322; no. 2; pp. 152 - 164
Main Authors: Kim, C.W, Ray, C.S, Zhu, D, Day, D.E, Gombert, D, Aloy, A, Moguš-Milanković, A, Karabulut, M
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2003
Subjects:
W0100
80
P0400
W0200
60
P1300
A0600
28.41.Kw
Online Access:Get full text
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Summary:A simulated sodium bearing waste (SBW) was successfully vitrified in iron phosphate glasses (IPG) at a maximum waste loading of 40 wt% using conventional and cold crucible induction melting (CCIM) techniques. No sulfate segregation or crystalline phases were detectable in the IPG when examined by SEM and XRD. The IPG wasteforms containing 40 wt% SBW satisfy current DOE requirements for aqueous chemical durability as evaluated from their bulk dissolution rate ( D R), product consistency test, and vapor hydration test. The fluid IPG wasteforms can be melted at a relatively low temperature (1000 °C) and for short times (<6 h). These properties combined with a significantly higher waste loading, and the feasibility of CCIM melting offer considerable savings in time, energy, and cost for vitrifying the SBW stored at the Idaho National Engineering and Environmental Laboratory in iron phosphate glasses.
ISSN:0022-3115
1873-4820
DOI:10.1016/S0022-3115(03)00325-8