THE SPECIAL TRANS FUNCTIONS THEORY FOR THE DEGREE OF THE NUCLEAR FUEL BURN-UP ESTIMATION

被引:0
|
作者
Perovich, Slavica M. [1 ,2 ]
Calasan, Martin [1 ]
机构
[1] Univ Montenegro, Dept Elect Engn, Podgorica, Montenegro
[2] Univ Montenegro, Fac Maritime Studies, Podgorica, Montenegro
来源
RAD 2015: THE THIRD INTERNATIONAL CONFERENCE ON RADIATION AND APPLICATIONS IN VARIOUS FIELDS OF RESEARCH | 2015年
关键词
The degree of the nuclear fuel burn-up; The special trans functions theory-STFT; Analytical closed form solution; Advanced STFT iterative procedure; Special function; TRANSCENDENTAL METHOD; FAMILIES;
D O I
暂无
中图分类号
TL [原子能技术]; O571 [原子核物理学];
学科分类号
0827 ; 082701 ;
摘要
The problem of finding an exact analytical closed form solution to the degree of the nuclear fuel burn-up simple transcendental equation is studied in some detail, by using the Special trans functions theory (STFT). Structure of the STFT solutions, derivations, numerical results and graphical simulations confirm the validity and base principle of the STFT
引用
收藏
页码:433 / 437
页数:5
相关论文
共 50 条
  • [41] MEASUREMENT OF POWER AND BURN-UP IN IRRADIATED NUCLEAR REACTOR FUEL BY A NON-DESTRUCTIVE METHOD
    OWEN, TD
    BRITISH JOURNAL OF APPLIED PHYSICS, 1963, 14 (07): : 456 - &
  • [42] A method for determining the fuel burn-up distribution of nuclear research reactors by measurements at subcritical states
    Binh, DQ
    Huy, NQ
    Lan, NP
    Thong, HV
    ANNALS OF NUCLEAR ENERGY, 1997, 24 (15) : 1233 - 1240
  • [43] FUEL BURN-UP FRACTION IN RBMK-1000 REACTOR
    EPERIN, AP
    ROMANENKO, VS
    ZAVYALOV, AV
    KRAYUSHKIN, AV
    GARUSOV, YV
    YAROSLAVTSEV, GF
    SHAVLOV, MV
    SOVIET ATOMIC ENERGY, 1986, 61 (03): : 661 - 663
  • [44] MTR fuel element burn-up measurements by the reactivity method
    Zúñiga, A
    Cuya, RT
    Ravnik, M
    KERNTECHNIK, 2003, 68 (1-2) : 23 - 27
  • [45] Actinide-only and full burn-up credit in criticality assessment of RBMK-1500 spent nuclear fuel storage cask using axial burn-up profile
    Barkauskas, V.
    Plukiene, R.
    Plukis, A.
    NUCLEAR ENGINEERING AND DESIGN, 2016, 307 : 197 - 204
  • [46] Instant release fraction and matrix release of high burn-up UO2 spent nuclear fuel: Effect of high burn-up structure and leaching solution composition
    Serrano-Purroya, D.
    Clarens, F.
    Gonzalez-Robles, E.
    Glatz, J. P.
    Wegen, D. H.
    de Pablo, J.
    Casas, I.
    Gimenez, J.
    Martinez-Esparza, A.
    JOURNAL OF NUCLEAR MATERIALS, 2012, 427 (1-3) : 249 - 258
  • [47] Burn-up credit in criticality safety of PWR spent fuel
    Mahmoud, Rowayda F.
    Shaat, Mohamed K.
    Nagy, M. E.
    Agamy, S. A.
    Abdelrahman, Adel A.
    NUCLEAR ENGINEERING AND DESIGN, 2014, 280 : 628 - 633
  • [48] High burn-up structure of U(Mo) dispersion fuel
    Leenaers, A.
    Van Renterghem, W.
    Van den Berghe, S.
    JOURNAL OF NUCLEAR MATERIALS, 2016, 476 : 218 - 230
  • [49] Monitoring Burn-Up of Spent Fuel Assemblies by Gamma Spectrometry
    Nguyen, C. Tam
    Almasi, I.
    Hlavathy, Z.
    Zsigrai, J.
    Lakosi, L.
    Nagy, P.
    Parko, T.
    Pos, I.
    IEEE TRANSACTIONS ON NUCLEAR SCIENCE, 2013, 60 (02) : 1107 - 1110
  • [50] GAMMA-SPECTROMETRIC DETERMINATION OF BURN-UP OF RA REACTOR-FUEL .3. MODEL OF BURN-OUT PROCESS AND A METHOD FOR DETERMINATION OF BURN-UP OF FUEL
    BULOVIC, V
    MAKSIMOVIC, Z
    KRTIL, J
    SUSIC, M
    JADERNA ENERGIE, 1977, 23 (12): : 456 - 461
12345