3 edition of Isotopic analysis of high-burnup PWR spent fuel samples from the Takahama-3 reactor found in the catalog.
Isotopic analysis of high-burnup PWR spent fuel samples from the Takahama-3 reactor
by Division of Systems Analysis and Regulatory Effectiveness, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission in Washington, DC
Written in English
|Other titles||Isotopic analysis of high burnup PWR spent fuel samples from the Takahama-3 reactor.|
|Statement||prepared by C.E. Sanders, I.C. Gauld.|
|Contributions||Gauld, I. C., U.S. Nuclear Regulatory Commission. Division of Systems Analysis and Regulatory Effectiveness.|
|The Physical Object|
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Isotopic Analysis of High-Burnup PWR Spent Fuel Samples From the Takahama-3 Reactor (NUREG/CR) On this page: Publication Information; Abstract; Download complete document. NUREG/CR (PDF - MB) Publication Information. Manuscript Completed: May Date Published: January Prepared by: C.
Sanders, L C. Gauld. Oak Ridge. Get this from a library. Isotopic analysis of high-burnup pwr spent fuel samples from the takahama-3 reactor nureg/cr ornl/tm/ u.s.
nuclear regula. [U.S. Nuclear Regulatory Commission.;]. Isotopic analysis of high-burnup PWR spent fuel samples from the Takahama-3 reactor [microform] / prepared by C.E.
Sanders, I.C. Gauld Division of Systems Analysis and Regulatory Effectiveness, Office of Nuclear Regulatory Research, U.S.
Nuclear Regulatory Commission Washington, DC Get this from a library. Isotopic analysis of high-burnup PWR spent fuel samples from the Takahama-3 reactor.
[C E Sanders; I C Gauld; U.S. Nuclear Regulatory Commission. Division of Systems Analysis and Regulatory Effectiveness.]. The experiment used seven PWR spent fuel samples with a burnup of – GW d/MtU, taken from a nuclear power plant in Korea ().The initial concentration of U was wt%, and the cooling times for the spent fuel samples ranged from to years.
A small piece of specimen (∼ 0. 5 g) was dissolved in (1+1) nitric acid under a reflux condenser in a chemical hot by: 1. Isotopic Analysis of High-burnup PWR Spent Fuel Samples from the Takahama-3 Reactor. NUREG/CR, ORNL/TM/, U.S. Nuclear Regulatory Commission. U.S. DOE, Conference: Comparative analysis of isotopic composition of spent fuel from Takahama-3 PWR PIE database using TRIPOLI-PEPIN code.
Effect of high burn-up and MOX fuel on reprocessing, vitrification and disposal of PWR and BWR spent fuels based on accurate burn-up calculation Full Record Other Related Research. The isotopic composition of spent nuclear fuels is vital data for studies on the nuclear fuel cycle and reactor physics.
The Japan Atomic Energy Agency (JAEA) has been active in obtaining such data for pressurized water reactor (PWR) and boiling water reactor Cited by: U.S. spent fuel policy Dept. of Energy, Office of the Assistant Secretary for Nuclear Energy ; for sale by the National Technical Information Service Washington: Springfield, Va Australian/Harvard Citation.
United States. Office of the Assistant Secretary for Nuclear Energy. The Resource Isotopic analysis of high-burnup PWR spent fuel samples from the Takahama-3 reactor, prepared by C.E.
Sanders, I.C. Gauld, (microform). NCSDR. Kilger, B. Gmal, Burnup calculations with KENOREST 03T01 and associated criticality studies for spent fuel samples from Takahama-3 reactor, September NCSDJ. Wagner, D. Mueller, Updated Evaluation of Burnup Credit for Accommodating PWR Spent Nuclear Fuel in High-Capacity Cask Designs, September Application of ICT to spent fuel rod.
Once the isotope correlation between the amounts of Cs and Pu in spent fuel is found, the ICT can be applied to determine the total Pu amount using the axial gamma-scan data for the keV peak.
The amount of Cs is a good indicator of others because it shows excellent linearity with BU for cooling time (CT) > 1 y, it is one of the major Author: Hee Seo, Seong-Kyu Ahn, Bo-Young Han, Chaehun Lee, Hee-Sung Shin, Bong Young Kim, Seung Kyu Lee, Byu. Energía Nuclear.
The duration of interim storage is now expected to be much longer than earlier projections (up to years and beyond). The storage facilities will have to be designed for these longer storage times and also for receiving spent fuel from advanced fuel cycle practices (i.e.
high burnup and MOX spent fuel). PWR and BWR spent fuel assembly gamma spectra measurements. NASA Astrophysics Data System (ADS) Vaccaro, S.; Tobin, S. J.; Favalli, A.; Grogan, B.; Jansson, P. Spent fuel data base: commercial light water reactors. [PWR; BWR. SciTech Connect. Hauf, M.J.; Kniazewycz, B.G.
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