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ETDEWEB   /       /    Investigation of special resins for the extraction-chromatogaphic separation of Np and Pu from the process stream of a reprocessing plant for HTR fuel elements

Investigation of special resins for the extraction-chromatogaphic separation of Np and Pu from the process stream of a reprocessing plant for HTR fuel elements

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Abstract

The effectiveness of several special resins for extraction chromatographic separation of plutonium and neptunium from the process streams of a reprocessing plant was investigated. These special resins consisted of polystyrol and were loaded with Tri-n-octylamine (TOA) during the polymerization process. A commercial structural body of polytrifluormonochlorethylene (Voltalef), subsequently wetted with TOA, served as reference material. Despite its good separation characteristics, this separation body has considerable disadvantages. The individual particles of separation body are only approximately spherical, the homogeneity of the separation bed is consequently only moderate. This size (85% less than 0.062 mm) and the shape of the separation body particles cause high pressure loss in the solution which streams through. Filling the column with the Voltalef separation body is very complicated and often not reproducible. A relatively high elution rate of the stationary phase and low radiation resistance are other disadvantages of this separation body. Because of the unfavorable characteristics of the Voltalef separation body, the above mentioned polystyrol resins have been developed by the Bayer firm. The individual separation body particles of these resins have ideal spherical shape. The diameter of the spheres is 0.4 to 0.6 mm, causing only slight pressure losses in a chromatographic column. A  More>>
Authors:
Publication Date:
Mar 15, 1977
Product Type:
Technical Report
Report Number:
GERHTR-181; KFA-ICT-IB-412-77
Reference Number:
NTS-78-003551; ERA-03-021158; EDB-78-042558
Resource Relation:
Related Information: English translation of the German report KFA-ICT-IB--412-77. Work performed under United States -- German High Temperature Reactor Research Exchange Program
Subject:
11 NUCLEAR FUEL CYCLE AND FUEL MATERIALS; NEPTUNIUM; EXTRACTION CHROMATOGRAPHY; PLUTONIUM; SPENT FUELS; REPROCESSING; THOREX PROCESS; RESEARCH PROGRAMS; HTGR TYPE REACTORS; NITRIC ACID; POLYSTYRENE; TOA; ACTINIDES; AMINES; CHELATING AGENTS; CHROMATOGRAPHY; ELEMENTS; ENERGY SOURCES; FUELS; GAS COOLED REACTORS; GRAPHITE MODERATED REACTORS; HYDROGEN COMPOUNDS; INORGANIC ACIDS; METALS; NUCLEAR FUELS; ORGANIC COMPOUNDS; ORGANIC POLYMERS; PETROCHEMICALS; PETROLEUM PRODUCTS; PLASTICS; POLYMERS; POLYOLEFINS; POLYVINYLS; REACTOR MATERIALS; REACTORS; SEPARATION PROCESSES; TRANSURANIUM ELEMENTS; 050800* - Nuclear Fuels- Spent Fuels Reprocessing
OSTI ID:
8169504
Research Organizations:
Kernforschungsanlage Juelich G.m.b.H. (Germany). Inst. fuer Chemische Technologie
Country of Origin:
United States
Language:
English
Submitting Site:
TIC
Size:
36 p.
Announcement Date:
Mar 01, 1978

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Citation Formats

Ritter, G. Investigation of special resins for the extraction-chromatogaphic separation of Np and Pu from the process stream of a reprocessing plant for HTR fuel elements. United States: N. p., 1977. Web.
Ritter, G. Investigation of special resins for the extraction-chromatogaphic separation of Np and Pu from the process stream of a reprocessing plant for HTR fuel elements. United States.
Ritter, G. 1977. "Investigation of special resins for the extraction-chromatogaphic separation of Np and Pu from the process stream of a reprocessing plant for HTR fuel elements." United States.
@misc{etde_8169504,
title = {Investigation of special resins for the extraction-chromatogaphic separation of Np and Pu from the process stream of a reprocessing plant for HTR fuel elements}
 author = {Ritter, G}
 abstractNote = {The effectiveness of several special resins for extraction chromatographic separation of plutonium and neptunium from the process streams of a reprocessing plant was investigated. These special resins consisted of polystyrol and were loaded with Tri-n-octylamine (TOA) during the polymerization process. A commercial structural body of polytrifluormonochlorethylene (Voltalef), subsequently wetted with TOA, served as reference material. Despite its good separation characteristics, this separation body has considerable disadvantages. The individual particles of separation body are only approximately spherical, the homogeneity of the separation bed is consequently only moderate. This size (85% less than 0.062 mm) and the shape of the separation body particles cause high pressure loss in the solution which streams through. Filling the column with the Voltalef separation body is very complicated and often not reproducible. A relatively high elution rate of the stationary phase and low radiation resistance are other disadvantages of this separation body. Because of the unfavorable characteristics of the Voltalef separation body, the above mentioned polystyrol resins have been developed by the Bayer firm. The individual separation body particles of these resins have ideal spherical shape. The diameter of the spheres is 0.4 to 0.6 mm, causing only slight pressure losses in a chromatographic column. A homogeneous and compact column fill is much simpler to achieve with these resins than with Voltalef. Radiation resistance and elution rate of the polystyrol resins correspond to the expectations which must be met during hot operation. The separation characteristics of the investigated polystyrol resins are not optimum, however. The relatively large separation body particles considerably delay the establishment of equilibrium, for two reasons. The rate-determining step during loading is diffusion through an aqueous film, which surrounds the separation body particles.}
 place = {United States}
 year = {1977}
 month = {Mar}
 }