Thermophysical properties of modified oxide nuclear fuel
In connection with the need for using modified oxide nuclear fuel in VVER, the thermophysical characteristics of alloyed pellets have been measured in the interval 723–1873 K. It is established that the introduction of microquantities of Fe 2 O 3 , FeO, SiO 2 , Al 2 O 3 , and Nb 2 O 5 made it possib...
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| Published in: | Atomic energy (New York, N.Y.) Vol. 110; no. 1; pp. 45 - 50 |
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| Abstract | In connection with the need for using modified oxide nuclear fuel in VVER, the thermophysical characteristics of alloyed pellets have been measured in the interval 723–1873 K. It is established that the introduction of microquantities of Fe
2
O
3
, FeO, SiO
2
, Al
2
O
3
, and Nb
2
O
5
made it possible to increase the uranium dioxide grain size to 25 μm and larger. The grain size of the pellets with additives of gadolinium oxide is about 10 μm. It is established that the introduction of alloying elements decreases the thermal diffusivity of uranium dioxide in the entire temperature range; in addition, gadolinium oxide has a greater effect than iron, aluminum, silicon, and niobium oxides. Dilatometric studies of uranium dioxide showed that between alloyed and pure samples the thermal expansion differs by no more than 10%. |
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| AbstractList | In connection with the need for using modified oxide nuclear fuel in VVER, the thermophysical characteristics of alloyed pellets have been measured in the interval 723-1873 K. It is established that the introduction of microquantities of Fe^sub 2^O3, FeO, SiO2, Al^sub 2^O3, and Nb^sub 2^O^sub 5^ made it possible to increase the uranium dioxide grain size to 25 μm and larger. The grain size of the pellets with additives of gadolinium oxide is about 10 μm. It is established that the introduction of alloying elements decreases the thermal diffusivity of uranium dioxide in the entire temperature range; in addition, gadolinium oxide has a greater effect than iron, aluminum, silicon, and niobium oxides. Dilatometric studies of uranium dioxide showed that between alloyed and pure samples the thermal expansion differs by no more than 10%.[PUBLICATION ABSTRACT] In connection with the need for using modified oxide nuclear fuel in VVER, the thermophysical characteristics of alloyed pellets have been measured in the interval 723-1873 K. It is established that the introduction of microquantities of [Fe.sub.2][O.sub.3], FeO, Si[O.sub.2], [Al.sub.2][O.sub.3], and [Nb.sub.2][O.sub.5] made it possible to increase the uranium dioxide grain size to 25 µm and larger. The grain size of the pellets with additives of gadolinium oxide is about 10 µm. It is established that the introduction of alloying elements decreases the thermal diffusivity of uranium dioxide in the entire temperature range; in addition, gadolinium oxide has a greater effect than iron, aluminum, silicon, and niobium oxides. Dilatometric studies of uranium dioxide showed that between alloyed and pure samples the thermal expansion differs by no more than 10%. In connection with the need for using modified oxide nuclear fuel in VVER, the thermophysical characteristics of alloyed pellets have been measured in the interval 723–1873 K. It is established that the introduction of microquantities of Fe 2 O 3 , FeO, SiO 2 , Al 2 O 3 , and Nb 2 O 5 made it possible to increase the uranium dioxide grain size to 25 μm and larger. The grain size of the pellets with additives of gadolinium oxide is about 10 μm. It is established that the introduction of alloying elements decreases the thermal diffusivity of uranium dioxide in the entire temperature range; in addition, gadolinium oxide has a greater effect than iron, aluminum, silicon, and niobium oxides. Dilatometric studies of uranium dioxide showed that between alloyed and pure samples the thermal expansion differs by no more than 10%. |
| Audience | Academic |
| Author | Khlunov, A. V. Tenishev, A. V. Mikheev, E. N. Pokrovskii, S. A. Baranov, V. G. Fedotov, A. V. |
| Author_xml | – sequence: 1 givenname: V. G. surname: Baranov fullname: Baranov, V. G. organization: National Nuclear Research University – Moscow Engineering-Physics Institute (NIYaU MIFI) – sequence: 2 givenname: S. A. surname: Pokrovskii fullname: Pokrovskii, S. A. organization: National Nuclear Research University – Moscow Engineering-Physics Institute (NIYaU MIFI) – sequence: 3 givenname: A. V. surname: Tenishev fullname: Tenishev, A. V. organization: National Nuclear Research University – Moscow Engineering-Physics Institute (NIYaU MIFI) – sequence: 4 givenname: A. V. surname: Khlunov fullname: Khlunov, A. V. organization: National Nuclear Research University – Moscow Engineering-Physics Institute (NIYaU MIFI) – sequence: 5 givenname: E. N. surname: Mikheev fullname: Mikheev, E. N. organization: Bochvar All-Russia Research Institute for Inorganic Materials (VNIINM) – sequence: 6 givenname: A. V. surname: Fedotov fullname: Fedotov, A. V. organization: Bochvar All-Russia Research Institute for Inorganic Materials (VNIINM) |
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| Cites_doi | 10.1063/1.369159 10.1016/0022-3115(89)90218-3 10.1007/s10512-010-9275-2 10.1103/PhysRev.119.507 10.1007/s10512-009-9095-4 10.1016/S0022-3115(01)00692-4 |
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| Keywords | Specific Heat Capacity Fuel Element Phonon Scattering Thermal Diffusivity Uranium Dioxide |
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| References | A. V. Kuleshov,V. V. Novikov, E. N. Mikheev, et al., High Burnup Nuclear Fuel Pellet and Method of Manufacturing It, RU Patent 2376665, MPK G21C3/62, Dec. 12, 2009, Byull. Izobret. Polez. Modeli, No. 35, 885–886 (2009). AlyushinVMBaranovVGKudryashovNAKhlunovAVNumerical modeling of the temperature distribution in a VVER fuel elementAt. Énerg.20101083145150 NovikovVVBibilashviliYuKMikheevENInvestigation of VVER fuel with alloying additionsAt. Énerg.20081054205210 BaranovVGDevyatkoYuNTenishevAVNew method of determining the temperature dependence of the thermal conductivity of dielectrics in a pulsed experimentPerspekt. Materialy200949198 HardingJMartinDA recommendation for the thermal conductivity of UO2J. Nucl. Mater.198916622322610.1016/0022-3115(89)90218-31989JNuM..166..223H AndrianovANBaranovVGGodinYuGEffect of nonstoichiometry and alloying on the thermal conductivity of uranium dioxidePerspekt. Materialy200364349 KlemensPThermal resistance due to point defects at high temperaturesPhys. Rev.196011950710.1103/PhysRev.119.5071960PhRv..119..507K CarbajoJYoderGPopovSGIvanovVKA review of the thermophysical properties of MOX and UO2 fuelsJ. Nucl. Mater.2001299318119810.1016/S0022-3115(01)00692-42001JNuM..299..181C RonchiCSheindlinMMusellaMHylandGThermal conductivity of uranium dioxide up to 2900 K from simultaneous measurements of heat capacity and thermal diffusivityJ. Appl. Phys.19998577678910.1063/1.3691591999JAP....85..776R C Ronchi (9389_CR6) 1999; 85 9389_CR1 VG Baranov (9389_CR5) 2009; 4 AN Andrianov (9389_CR9) 2003; 6 VV Novikov (9389_CR2) 2008; 105 VM Alyushin (9389_CR3) 2010; 108 P Klemens (9389_CR7) 1960; 119 J Carbajo (9389_CR4) 2001; 299 J Harding (9389_CR8) 1989; 166 |
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| SubjectTerms | Aluminum Analysis Dependence Expansion Gadolinium Gadolinium oxide Grain size Hadrons Heat conductivity Heavy Ions Niobium Nuclear Chemistry Nuclear Energy Nuclear fuels Nuclear industry Nuclear Physics Particle size Physics Physics and Astronomy Point defects Rare earth metals Studies Temperature Thermal diffusivity Thermal energy Thermal expansion Thermal properties Toy industry Uranium |
| Title | Thermophysical properties of modified oxide nuclear fuel |
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