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Title: Open-cell glass crystalline porous material

Patent ·
OSTI ID:1174645
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An open-cell glass crystalline porous material made from hollow microspheres which are cenospheres obtained from fly ash, having an open-cell porosity of up to 90 vol. % is produced. The cenospheres are separated into fractions based on one or more of grain size, density, magnetic or non-magnetic, and perforated or non-perforated. Selected fractions are molded and agglomerated by sintering with a binder at a temperature below the softening temperature, or without a binder at a temperature about, or above, the softening temperature but below the temperature of liquidity. The porous material produced has an apparent density of 0.3-0.6 g/cm.sup.3, a compressive strength in the range of 1.2-3.5 MPa, and two types of openings: through-flow wall pores in the cenospheres of 0.1-30 micrometers, and interglobular voids between the cenospheres of 20-100 micrometers. The porous material of the invention has properties useful as porous matrices for immobilization of liquid radioactive waste, heat-resistant traps and filters, supports for catalysts, adsorbents and ion-exchangers.

Research Organization:
Idaho National Laboratory (INL), Idaho Falls, ID (United States)
Sponsoring Organization:
USDOE
DOE Contract Number:
AC07-99ID13727
Assignee:
The United States of America as represented by the United States Department of Energy (Washington, DC)
Patent Number(s):
6,667,261
Application Number:
10/144,984
OSTI ID:
1174645
Resource Relation:
Patent File Date: 2002 May 15
Country of Publication:
United States
Language:
English

References (6)

Novel microdesign of oxidation catalysts. Part 2. The influence of fluorination on the catalytic properties of glass crystal microspheres journal July 1998
The polymorphism of some rare earth oxides and their reaction with water journal May 1964
The possibilities of237Np and241Am disposal by transmutation in their irradiation with thermal neutrons in porous immobilizing agents journal March 1991
Development and Testing of a New Porous Crystalline Matrix (Gubka) for Stabilizing Actinide Solutions journal January 1999
Novel microdesign of oxidation catalysts. Part 1. Glass crystal microspheres as new catalysts for the oxidative conversion of methane journal July 1998
The study of composition of novel high temperature catalysts for oxidative conversion of methane journal July 1998

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36 MATERIALS SCIENCE