Silica-based waste form for immobilization of iodine from reprocessing plant off-gas streams

A high selectivity and sorption capacity for iodine and a feasible consolidation to a durable SiO2-based waste form makes silver-functionalized silica aerogel (Ag0-aerogel) an attractive choice for the removal and sequestration of iodine compounds from the off-gas of a nuclear fuel reprocessing plan...

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Published in	Journal of nuclear materials Vol. 476; pp. 255 - 261
Main Authors	Matyáš, Josef, Canfield, Nathan, Sulaiman, Sannoh, Zumhoff, Mac
Format	Journal Article
Language	English
Published	United States Elsevier B.V 01.08.2016 Elsevier
Subjects	Consolidation Durability Hot isostatic pressing Hot uniaxial pressing Immobilization Iodine Nanostructure Reprocessing Silica-based waste form Silicon dioxide Silver-functionalized silica aerogel Sorption Wastes Immobilization Silver-functionalized silica aerogel Silica-based waste form Hot isostatic pressing Iodine Hot uniaxial pressing
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Abstract	A high selectivity and sorption capacity for iodine and a feasible consolidation to a durable SiO2-based waste form makes silver-functionalized silica aerogel (Ag0-aerogel) an attractive choice for the removal and sequestration of iodine compounds from the off-gas of a nuclear fuel reprocessing plant. Hot uniaxial pressing of iodine-loaded Ag0-aerogel (20.2 mass% iodine) at 1200 °C for 30 min under 29 MPa pressure provided a partially sintered product with residual open porosity of 16.9% that retained ∼93% of sorbed iodine. Highly iodine-loaded Ag0-aerogel was successfully consolidated by hot isostatic pressing at 1200 °C with a 30-min hold and under 207 MPa. The fully densified waste form had a bulk density of 3.3 × 103 kg/m3 and contained ∼39 mass% iodine. The iodine was retained in the form of nano- and micro-particles of AgI that were uniformly distributed inside and along boundaries of fused silica grains. [Display omitted] •Silver-functionalized silica aerogel is an effective sorbent and a viable waste form for iodine.•Simultaneous application of fast heating rates and high pressures produced a fully dense product.•HIPing produced a fully consolidated waste form with a bulk density of 3.3 × 103 kg/m3 and containing ∼39 mass% of iodine.
AbstractList	A high selectivity and sorption capacity for iodine and a feasible consolidation to a durable SiO sub(2)-based waste form makes silver-functionalized silica aerogel (Ag super(0)-aerogel) an attractive choice for the removal and sequestration of iodine compounds from the off-gas of a nuclear fuel reprocessing plant. Hot uniaxial pressing of iodine-loaded Ag super(0)-aerogel (20.2 mass% iodine) at 1200 degree C for 30 min under 29 MPa pressure provided a partially sintered product with residual open porosity of 16.9% that retained similar to 93% of sorbed iodine. Highly iodine-loaded Ag super(0)-aerogel was successfully consolidated by hot isostatic pressing at 1200 degree C with a 30-min hold and under 207 MPa. The fully densified waste form had a bulk density of 3.3 10 super(3) kg/m super(3) and contained similar to 39 mass% iodine. The iodine was retained in the form of nano- and micro-particles of AgI that were uniformly distributed inside and along boundaries of fused silica grains. A high selectivity and sorption capacity for iodine and a feasible consolidation to a durable SiO2-based waste form makes silver-functionalized silica aerogel (Ag0-aerogel) an attractive choice for the removal and sequestration of iodine compounds from the off-gas of a nuclear fuel reprocessing plant. Hot uniaxial pressing of iodine-loaded Ag0-aerogel (20.2 mass% iodine) at 1200°C for 30 min under 29 MPa pressure provided a partially sintered product with residual open porosity of 16.9% that retained ~93% of sorbed iodine. Highly iodine-loaded Ag0-aerogel was successfully consolidated by hot isostatic pressing at 1200°C with a 30-min hold and under 207 MPa. The fully densified waste form had a bulk density of 3.3 g/cm3 and contained ~39 mass% iodine. The iodine was retained in the form of nano- and micro-particles of AgI that were uniformly distributed inside and along boundaries of fused silica grains. A high selectivity and sorption capacity for iodine and a feasible consolidation to a durable SiO2-based waste form makes silver-functionalized silica aerogel (Ag0-aerogel) an attractive choice for the removal and sequestration of iodine compounds from the off-gas of a nuclear fuel reprocessing plant. Hot uniaxial pressing of iodine-loaded Ag0-aerogel (20.2 mass% iodine) at 1200 °C for 30 min under 29 MPa pressure provided a partially sintered product with residual open porosity of 16.9% that retained ∼93% of sorbed iodine. Highly iodine-loaded Ag0-aerogel was successfully consolidated by hot isostatic pressing at 1200 °C with a 30-min hold and under 207 MPa. The fully densified waste form had a bulk density of 3.3 × 103 kg/m3 and contained ∼39 mass% iodine. The iodine was retained in the form of nano- and micro-particles of AgI that were uniformly distributed inside and along boundaries of fused silica grains. [Display omitted] •Silver-functionalized silica aerogel is an effective sorbent and a viable waste form for iodine.•Simultaneous application of fast heating rates and high pressures produced a fully dense product.•HIPing produced a fully consolidated waste form with a bulk density of 3.3 × 103 kg/m3 and containing ∼39 mass% of iodine.
Author	Canfield, Nathan Matyáš, Josef Sulaiman, Sannoh Zumhoff, Mac
Author_xml	– sequence: 1 givenname: Josef surname: Matyáš fullname: Matyáš, Josef email: Josef.Matyas@pnnl.gov organization: Radiological Materials & Technology Development, Pacific Northwest National Laboratory, P.O. Box 999, Richland, WA 99352, United States – sequence: 2 givenname: Nathan surname: Canfield fullname: Canfield, Nathan organization: Electrochemical Materials and Systems, Pacific Northwest National Laboratory, P.O. Box 999, Richland, WA 99352, United States – sequence: 3 givenname: Sannoh orcidid: 0000-0002-0895-2044 surname: Sulaiman fullname: Sulaiman, Sannoh organization: Radiological Materials & Technology Development, Pacific Northwest National Laboratory, P.O. Box 999, Richland, WA 99352, United States – sequence: 4 givenname: Mac surname: Zumhoff fullname: Zumhoff, Mac organization: Radiological Materials & Technology Development, Pacific Northwest National Laboratory, P.O. Box 999, Richland, WA 99352, United States
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Snippet	A high selectivity and sorption capacity for iodine and a feasible consolidation to a durable SiO2-based waste form makes silver-functionalized silica aerogel... A high selectivity and sorption capacity for iodine and a feasible consolidation to a durable SiO sub(2)-based waste form makes silver-functionalized silica...
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SubjectTerms	Consolidation Durability Hot isostatic pressing Hot uniaxial pressing Immobilization Iodine Nanostructure Reprocessing Silica-based waste form Silicon dioxide Silver-functionalized silica aerogel Sorption Wastes
Title	Silica-based waste form for immobilization of iodine from reprocessing plant off-gas streams
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