Nuclear Technology & Radiation Protection Journal


NT & RP Journal	DEVELOPMENT OF A COMPUTER CODE FOR NEUTRONIC CALCULATIONS OF A HEXAGONAL LATTICE OF NUCLEAR REACTOR USING THE FLUX EXPANSION NODAL METHOD
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Vol. XXVIII, No. 3, Pp. 237-340 September 2013 UDC 621.039+614.876:504.06 ISSN 1451-3994 Back to Contents	Pages: 237-246 Authors: Meysam Mohammadnia, Ali Pazirandeh, Mostafa Sedighi Abstract The flux expansion nodal method is a suitable method for considering nodalization effects in node corners. In this paper we used this method to solve the intra-nodal flux analytically. Then, a computer code, named MA.CODE, was developed using the C# programming language. The code is capable of reactor core calculations for hexagonal geometries in two energy groups and three dimensions. The MA.CODE imports two group constants from the WIMS code and calculates the effective multiplication factor, thermal and fast neutron flux in three dimensions, power density, reactivity, and the power peaking factor of each fuel assembly. Some of the code's merits are low calculation time and a user friendly interface. MA.CODE results showed good agreement with IAEA benchmarks, i. e. AER-FCM-101 and AER-FCM-001. Key words: flux expansion nodal method, hexagonal geometry, neutron flux distribution, MA.CODE FULL PAPER IN PDF FORMAT (2.24 MB)
Vinča Institute of Nuclear Sciences :: Designed by milas :: July 2007 Operated by acapanic :: Last updated on November, 2013

Pages: 237-246

Authors: Meysam Mohammadnia, Ali Pazirandeh, Mostafa Sedighi

Abstract

The flux expansion nodal method is a suitable method for considering nodalization effects in node corners. In this paper we used this method to solve the intra-nodal flux analytically. Then, a computer code, named MA.CODE, was developed using the C# programming language. The code is capable of reactor core calculations for hexagonal geometries in two energy groups and three dimensions. The MA.CODE imports two group constants from the WIMS code and calculates the effective multiplication factor, thermal and fast neutron flux in three dimensions, power density, reactivity, and the power peaking factor of each fuel assembly. Some of the code's merits are low calculation time and a user friendly interface. MA.CODE results showed good agreement with IAEA benchmarks, i. e. AER-FCM-101 and AER-FCM-001.

Key words: flux expansion nodal method, hexagonal geometry, neutron flux distribution, MA.CODE

FULL PAPER IN PDF FORMAT (2.24 MB)