DocumentCode :
3144662
Title :
Metrology for new generation nuclear power plants - MetroFission
Author :
Johansson, L. ; Filtz, Jean-Remy ; DeFelice, Pierino ; Sadli, Mohamed ; Plompen, Arjan ; Heyse, Jan ; Hay, Brian ; Dinsdale, Alan ; Pomme, S. ; Cassette, Philippe ; Keightley, John
Author_Institution :
NPL, Teddington, UK
fYear :
2013
fDate :
23-27 June 2013
Firstpage :
1
Lastpage :
8
Abstract :
This EMRP (European Metrology Research Programme) project, MetroFission, has been looking at solving metrological problems related to a new generation of nuclear power plants. The proposed Generation IV power plants are designed to run safely, make efficient use of natural resources, minimize the waste and maintain proliferation resistance. In order to reach these goals, the reactor operation involves higher temperatures, high-energy neutron fluence, different types of fuel where the minor actinides are included etc. In this multidisciplinary project, which has 12 partners in 10 countries, the work has focused on improved temperature measurements, investigation of thermal properties of advanced materials, determination of new and relevant nuclear data and development of measurement techniques for radionuclides suitable for Generation IV power plants. The improved temperature measurement for nuclear power plant applications includes the development of a new Fe-C fixed point. Robust, repeatable and versatile cells have been constructed and compared with success among the project participants and their melting temperatures have been determined. Furthermore, the methodology of self-validating thermocouples has proven efficient at several fixed point temperatures (Au, Cu, Co-C, Fe-C) using different designs. A practical acoustic thermometer has been tested at high temperature (1000°C) with success thanks to the use of innovative signal processing methods. Mo/Nb thermocouples have been obtained with different sheath materials and tested with the aim to achieve for the first time a reference function determined with the best possible uncertainties. Following reviews of designs and technology proposed for fourth generation nuclear plants effort within this project, with regards to thermal properties of advanced materials for nuclear design, has concentrated on provision of thermodynamic data to (ASTRID). Data has been critically assessed to represent the potential - nteraction between the Na coolant and the nuclear fuel taken to be based on (U,Pu)O2 but incorporating minor actinides such as Np and Am. Data for the fission products and containment materials have also been reviewed and new data assessed to represent the interaction between them and the Na coolant, in order to permit calculation of phase and chemical equilibria for severe accident scenarios. The aim is to publish the data developed during this project within a revised version of “Thermochemical data for reactor materials and fission products”, last published in 1990. Reference metrological facilities and methods have been developed or improved for the measurements of normal spectral emissivity and specific heat up to 1500°C, and thermal diffusivity up to 2000°C. The following actions were notably performed: Development of two complementary facilities based on different metrological approaches (calorimetric and optical methods) by PTB and LNE for the measurement of emissivity of solid materials at high temperature. ; Modification of the LNE diffusivimeter with the development and integration of a specific inductive furnace, and the adaptation of the associated IR detection systems. These facilities have now been used for the measurement of thermophysical properties of some materials (Ni, MgO and ZrO2), because they have thermal properties similar to those encountered in Generation IV reactors. Regarding neutron cross sections, the current nuclear databases concentrate on thermal energies, but new fast reactor designs will involve materials exposed to higher energy neutron fields. Advantage has been taken of National Measurement Institutes experience in neutron fluence measurements to improve high-energy cross-section measurements. A secondary fluence standard has been established and used to determine the cross sections of actual interest improving nuclear data standards in the form of reduced measurement uncer
Keywords :
calorimetry; coincidence techniques; fission products; fission reactor containment; fission reactor coolants; fission reactor cooling; fission reactor design; liquid metal fast breeder reactors; nuclear power stations; photomultipliers; radioisotopes; temperature measurement; thermal diffusivity; 238U; 63Ni; ASTRID; EMRP project; European Metrology Research Programme; Generation IV power plants; LNE diffusivimeter; MetroFission project; Na coolant; acoustic thermometer; actinide decay data; alpha particle emission probabilities; alpha spectrometry; alpha spectrum measurement; analogue electronic modules; associated IR detection system; beta spectrum; beta-decay isotopes; containment materials; cryogenic detectors; detection chamber; digital acquisition system; digital coincidence counting; energy neutron fields; exchange effect; fast reactor designs; fission fragments; fission products; high-energy cross-section measurement; inductive furnace; isotopic composition; low-energy beta emitters; metallic magnetic calorimeter; miniature TDCR system; neutron cross sections; new generation nuclear power plants; normal spectral emissivity; nuclear safety; photomultiplier tubes; primary liquid scintillation coincidence counting method; proliferation resistance; radionuclides; self-validating thermocouples; severe accident scenario; signal processing; signal processing method; temperature 1000 degC; temperature measurement; thermal diffusivity; thermal energies; thermal properties; thermophysical properties; triple-to-double coincidence ratio; Inductors; Materials; Neutrons; Power generation; Temperature; Temperature measurement; Thermodynamics; Digital Signal Processing; Generation IV reactor; Instrumentation; Liquid scintillation; Metrology; Neutron cross-section; Nuclear data; Temperature measurements; Thermal properties; Thermochemical data modelling;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Advancements in Nuclear Instrumentation Measurement Methods and their Applications (ANIMMA), 2013 3rd International Conference on
Conference_Location :
Marseille
Print_ISBN :
978-1-4799-1046-5
Type :
conf
DOI :
10.1109/ANIMMA.2013.6727929
Filename :
6727929
Link To Document :
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