Abstract
This paper describes the results of simulation of a CANDU operational transient problem (re-startup after short shutdown) using the Coupled Reactor Kinetics(CRKIN) code developed previously with CANDU Reactor Regulating System (RRS) logic. The performance in the simulation is focused on investigating the behaviours of neutron power and regulating devices in accordance with the changes of xenon concentration following the operation of the RRS.
Yeom, Choong Sub;
Kim, Hyun Dae;
Park, Kyung Seok;
Park, Jong Woon
[1]
- Institute for Advanced Engineering, Taejon (Korea, Republic of)
Citation Formats
Yeom, Choong Sub, Kim, Hyun Dae, Park, Kyung Seok, and Park, Jong Woon.
A three-dimensional operational transient simulation of the CANDU core with typical reactor regulating system.
Korea, Republic of: N. p.,
1995.
Web.
Yeom, Choong Sub, Kim, Hyun Dae, Park, Kyung Seok, & Park, Jong Woon.
A three-dimensional operational transient simulation of the CANDU core with typical reactor regulating system.
Korea, Republic of.
Yeom, Choong Sub, Kim, Hyun Dae, Park, Kyung Seok, and Park, Jong Woon.
1995.
"A three-dimensional operational transient simulation of the CANDU core with typical reactor regulating system."
Korea, Republic of.
@misc{etde_20817296,
title = {A three-dimensional operational transient simulation of the CANDU core with typical reactor regulating system}
author = {Yeom, Choong Sub, Kim, Hyun Dae, Park, Kyung Seok, and Park, Jong Woon}
abstractNote = {This paper describes the results of simulation of a CANDU operational transient problem (re-startup after short shutdown) using the Coupled Reactor Kinetics(CRKIN) code developed previously with CANDU Reactor Regulating System (RRS) logic. The performance in the simulation is focused on investigating the behaviours of neutron power and regulating devices in accordance with the changes of xenon concentration following the operation of the RRS.}
place = {Korea, Republic of}
year = {1995}
month = {Jul}
}
title = {A three-dimensional operational transient simulation of the CANDU core with typical reactor regulating system}
author = {Yeom, Choong Sub, Kim, Hyun Dae, Park, Kyung Seok, and Park, Jong Woon}
abstractNote = {This paper describes the results of simulation of a CANDU operational transient problem (re-startup after short shutdown) using the Coupled Reactor Kinetics(CRKIN) code developed previously with CANDU Reactor Regulating System (RRS) logic. The performance in the simulation is focused on investigating the behaviours of neutron power and regulating devices in accordance with the changes of xenon concentration following the operation of the RRS.}
place = {Korea, Republic of}
year = {1995}
month = {Jul}
}