ESTIMATIONS OF HEAT CAPACITIES FOR ACTINIDE DIOXIDE: UO2, NpO2, ThO2, AND PuO2 |
Eser, E.
(Department of Physics, Polatli Faculty of Arts and Sciences, Gazi University)
Koc, H. (Department of Electricity and Energy, Vocational School, Mus Alparslan University) Gokbulut, M. (Department of Physics, Faculty of Arts and Sciences, Gaziosmanpasa University) Gursoy, G. (Department of Medical Services and Technical, Vocational School of Health Services, Ahi Evran University) |
1 | K. Kurosaki, M. Imamura, I. Sato, T. Namekawa, M. Uno and S. Yamanaka, Journal of Alloys and Compounds,vol. 387, pp. 9-14 (2005). DOI |
2 | K. Minato, M. Takano, H. Otobe, T. Nishi, M. Akabori, Y. Arai, Journal of Nuclear Materials,vol. 389, pp. 23-28 (2009). DOI |
3 | K. Richter, C. Sari, Journal of Nuclear Materials, vol. 148, pp. 266 (1987). DOI |
4 | K. P. Ghatak, S. Bhattacharya, DeDebashis. Einstein Relation in Compound Semiconductors and Their Nanostructures, Springer Series in Materials Science, vol. 116 (2009). |
5 | M. Chollet, R. C. Belin, J. C. Richaudand, F. Adenot, Procedia Chemistry, vol. 7, pp. 466 - 471 (2012). DOI |
6 | M. Stan, P. Cristea, Trans. Am. Nucl. Soc. vol. 91, pp. 491 (2004) |
7 | O. Benes, P. Gotcu-Freis, F. Schworer, R. J. M. Konings, Th. Fanghanel, Journal of Chemical. Thermodynamics, vol. 43, pp. 651-655 (2011). DOI |
8 | O. L. Kruger, H. J. Savage, J. Chem. Phys., vol. 49, pp. 4540 (1968). DOI |
9 | P. Debye, Annalen Der Physik, vol. 39, no. 14, pp. 789-839 (1912). |
10 | P. Passler, Phys. Stat. Sol. (b) vol. 245, pp. 1133 (2008). DOI |
11 | R. Agarwal, R. Prasad and V. Venugopal, Journal of Nuclear Materials, vol. 322, pp. 98-110 (2003). DOI |
12 | R. E. Latta and R. E. Fryxell, Journal of Nuclear Materials, vol. 35, pp. 195 (1970). DOI |
13 | S. Li, R. Ahhuja, B. Johansson, High Pressure Research, vol. 22, pp. 471-474 (2002). DOI |
14 | S. Minamoto, M. Kato, K. Konashi, Y. Kawazoe, Journal of Nuclear Materials, vol. 385, pp. 18-20 (2009). DOI |
15 | S. Sonmezoglu, International Journal of Modern Physics B, vol. 22, pp. 5349 (2008). DOI |
16 | T. Nishi, A.Itoh, M. Takano, M. Numata, M. Akabori, Y. Arai, K. Minato, Journal of Nuclear Materials, vol. 376, pp. 78 (2008). DOI |
17 | T. Wakabayashi, Prog. Nucl. Energy, vol. 40, pp. 457-463 (2002). DOI |
18 | T. Yamashita, N. Nitani, T. Tsuji, T. Kato, Journal of Nuclear Materials, vol. 247, pp. 90 (1997). DOI |
19 | The SGTE Pure Substance and Solution databases, GTT-DATA SERVICES (1996). |
20 | V. Sobolev and S. Lemehov, Journal of Nuclear Materials, vol. 352, pp. 300-308(2006). DOI |
21 | V. Sobolev, Journal of Nuclear Materials,vol. 344, pp. 198-205 (2005). DOI |
22 | V. Sobolev, Journal of Nuclear Materials,vol. 389, pp. 45-51 (2009). DOI |
23 | W. Nernst, A. F. Lindemann, Z. Elektrochem. Angew. Phys. Chem., vol. 17, pp. 817 (1911). |
24 | A. E. Dubinov and A. A. Dubinova, Technical Physics Letters, vol. 34, pp. 999 (2008). DOI |
25 | B. A. Mamedov, E. Eser, H. Koc, I. M. Askerov, International Journal of Thermophysics, vol. 30, pp.1048 (2009). DOI |
26 | B. T. M. Willis, Proc. Roy. Soc. (London) A, vol. 274, pp. 134 (1963). DOI |
27 | D. Terentyev, Computational Materials Science, vol. 40, pp. 319-326 (2007). DOI |
28 | F. L. Oetting, Journal of Nuclear Materials, vol. 105, pp. 2557 (1982). |
29 | D. T. Hagrman, editor, SCDAP/RELAP5/MOD3.1 code manual, Volume IV : MATPRO - Alibrary of materials properties for light-water-reactor accident analysis, NUREG/CR-6150, EGG-2720. vol: IV(1993). |
30 | E. P. Loeven, P. E. McDonald, J. Hohorst, Recommended Thorium Materials Properties to FRACON-3. Proc. Int. Top. Meet. Top Fuel, Apr.10-13, ANS, USA (2000). |
31 | H. AitAbderrahim, P. Kupschus, E. Malambu, Ph. Benoit, K. Van Tichelen and et al., Nucl. Instrum. Methods Phys. Res. A, vol. 463, pp. 487 (2001). DOI |
32 | H. Koc, E. Eser, B. A. Mamedov, Nuclear Engineering and Design,vol. 241, pp. 3678-3682 (2011). DOI |
33 | H. Serizawa, Y. Arai, J. Alloys. Compd.,vol. 312, pp. 257 (2000). DOI |
34 | H. Serizawa, Y. Arai, M. Takano, Y. Suzuki, J. Alloys. Comp.,vol. 282, pp.17 (1999). DOI |
35 | H. Serizawa, Y. Arai, Y. Suzuki, Journal of Nuclear Materials, vol. 280, pp. 99 (2000). DOI |
36 | I. Barin, Thermochemical Data of Pure Substances: 3rd edition, Vol. II. VCH: Weinheim., 1236 and 1657 (1995). |
37 | I. I. Guseinov, B. A. Mamedov, International Journal of Thermophysics, vol. 28, pp. 1420 (2007). DOI |
38 | J. C. Southard, J. Am. Chem. Soc. vol. 63, pp. 3142 (1941). DOI |
39 | J. J. Carbajo, G. L. Yoder, S. G. Popov, V. K. Ivanov, Journal of Nuclear Materials,vol. 299, pp. 181-198 (2001). DOI ScienceOn |
40 | J. K. Fink, Journal of Nuclear Materials,vol. 279, pp. 1-18 (2000). DOI ScienceOn |
41 | K. Aizawa, Prog. Nucl.Energy, vol. 40, pp. 349-356 (2002). DOI |
42 | J. P. Hiernaut, G. J. Hyland, C. Ronchi, International Journal of Thermophysics, vol. 14, pp. 259-283 (1993). DOI |
43 | J. R. B. Roof, Journal of Nuclear Materials, vol. 2, pp. 39 (1960). DOI |
44 | Japan Thermal Measurement Society, Thermodynamics Data Base for Personal Computer MALT-2(1992). |
45 | K. Bakker, E. H. P. Cordfunke, R. J. M. Konings, R. P. C. Schram, Journal of Nuclear Materials, vol. 250, pp. 1-12 (1997). DOI |
46 | K. Ho Kang, Ho J. Ryu, K. C. Song, M. S. Yang, Journal of Nuclear Materials, vol. 301, pp. 242-244 (2002). DOI |
47 | K. Kurosaki, K. Yamada, M. Uno, S. Yamanaka, K. Yamamoto, T. Namekawa, Journal of Nuclear Materials, vol. 294, pp. 160-167 (2011). |
48 | K. Kurosaki, M. Imamura, I. Sato, T.Namekawa, M. Uno and S. Yamanaka, Journal of Nuclear Scienceand Technology, vol. 41, pp. 827-831 (2004). DOI |
49 | H. Serizawa, Y. Araiand, K. Nakajima, J. Chem. Thermodynamics,vol. 33, pp. 615-628 (2001). DOI |
50 | J. K. Fink, International Journal of Thermophysics,vol. 165, pp. 3 (1982). |
51 | I. S. Golovnin, Properties of Plutonium Dioxide as Nuclear Fuel. -Atomnaia Energiya, vol. 89, pp.117 (2000). |
52 | D. R. Fredrickson and M.G. Chasanov, J. Chem.Thermodyn, vol. 2, pp. 623 (1970). DOI |