Optimized Control Rod of the Research Reactor BR2

Research output: ThesisMaster's thesis

Standard

Optimized Control Rod of the Research Reactor BR2. / Liu, Xingmin; Kalcheva, Silva (Peer reviewer); Koonen, Edgar (Peer reviewer).

Gent, Belgium : UGent - Universiteit Gent, 2007. 122 p.

Research output: ThesisMaster's thesis

Harvard

Liu, X, Kalcheva, S & Koonen, E 2007, 'Optimized Control Rod of the Research Reactor BR2', UGent - Universiteit Gent, Gent, Belgium.

APA

Liu, X., Kalcheva, S., & Koonen, E. (2007). Optimized Control Rod of the Research Reactor BR2. Gent, Belgium: UGent - Universiteit Gent.

Vancouver

Liu X, Kalcheva S, Koonen E. Optimized Control Rod of the Research Reactor BR2. Gent, Belgium: UGent - Universiteit Gent, 2007. 122 p.

Author

Liu, Xingmin ; Kalcheva, Silva ; Koonen, Edgar. / Optimized Control Rod of the Research Reactor BR2. Gent, Belgium : UGent - Universiteit Gent, 2007. 122 p.

Bibtex - Download

@phdthesis{ebf8643418b244c6a3435bf8ed88ec73,
title = "Optimized Control Rod of the Research Reactor BR2",
abstract = "At the present time the BR2 reactor uses Control Rods with cadmium as neutron absorbing part. Due to the burn up of cadmium during the reactor operation, the presently used rods for reactivity control of the BR2 reactor have to be replaced by new ones. Considered are various types CR with full active part of cadmium, hafnium, europium oxide, gadolinium oxide. Options to decrease the burn up in the hot spot, such as use of stainless steel in the lower active part of the Control Rod are discussed. The changing of the characteristics of different types Control Rods and the perturbation effects on the reactor neutronics during the BR2 fuel cycle are investigated. The burn up of the Control Rod absorbing material, total and differential control rods worth, macroscopic and effective microscopic absorption cross sections, fuel and reactivity evolution are evaluated during 30 operating cycles (1000 EFPD). The calculations are performed for the full scale 3-D heterogeneous geometry model of BR2 using MCNP&ORIGEN-S combined method. A criterion for choice of the new control rod types is presented. The main procedures for control of the BR2 reactor are revisited and modified to satisfy the new irradiation conditions.",
keywords = "burn up of control rod material, macroscopic absorption cross section, control rod worth",
author = "Xingmin Liu and Silva Kalcheva and Edgar Koonen",
note = "Score = 2",
year = "2007",
month = "8",
language = "English",
publisher = "UGent - Universiteit Gent",
address = "Belgium",
school = "UGent - Universiteit Gent",

}

RIS - Download

TY - THES

T1 - Optimized Control Rod of the Research Reactor BR2

AU - Liu, Xingmin

A2 - Kalcheva, Silva

A2 - Koonen, Edgar

N1 - Score = 2

PY - 2007/8

Y1 - 2007/8

N2 - At the present time the BR2 reactor uses Control Rods with cadmium as neutron absorbing part. Due to the burn up of cadmium during the reactor operation, the presently used rods for reactivity control of the BR2 reactor have to be replaced by new ones. Considered are various types CR with full active part of cadmium, hafnium, europium oxide, gadolinium oxide. Options to decrease the burn up in the hot spot, such as use of stainless steel in the lower active part of the Control Rod are discussed. The changing of the characteristics of different types Control Rods and the perturbation effects on the reactor neutronics during the BR2 fuel cycle are investigated. The burn up of the Control Rod absorbing material, total and differential control rods worth, macroscopic and effective microscopic absorption cross sections, fuel and reactivity evolution are evaluated during 30 operating cycles (1000 EFPD). The calculations are performed for the full scale 3-D heterogeneous geometry model of BR2 using MCNP&ORIGEN-S combined method. A criterion for choice of the new control rod types is presented. The main procedures for control of the BR2 reactor are revisited and modified to satisfy the new irradiation conditions.

AB - At the present time the BR2 reactor uses Control Rods with cadmium as neutron absorbing part. Due to the burn up of cadmium during the reactor operation, the presently used rods for reactivity control of the BR2 reactor have to be replaced by new ones. Considered are various types CR with full active part of cadmium, hafnium, europium oxide, gadolinium oxide. Options to decrease the burn up in the hot spot, such as use of stainless steel in the lower active part of the Control Rod are discussed. The changing of the characteristics of different types Control Rods and the perturbation effects on the reactor neutronics during the BR2 fuel cycle are investigated. The burn up of the Control Rod absorbing material, total and differential control rods worth, macroscopic and effective microscopic absorption cross sections, fuel and reactivity evolution are evaluated during 30 operating cycles (1000 EFPD). The calculations are performed for the full scale 3-D heterogeneous geometry model of BR2 using MCNP&ORIGEN-S combined method. A criterion for choice of the new control rod types is presented. The main procedures for control of the BR2 reactor are revisited and modified to satisfy the new irradiation conditions.

KW - burn up of control rod material

KW - macroscopic absorption cross section

KW - control rod worth

UR - http://ecm.sckcen.be/OTCS/llisapi.dll/open/ezp_85309

M3 - Master's thesis

PB - UGent - Universiteit Gent

CY - Gent, Belgium

ER -

ID: 236468