Abstract
TISKTH-3 is a coupled neutronics/thermal-hydraulics code for the transient analysis. A 3-dimensional neutron kinetics equation solved by the Nodal Green's Function Method is used for the neutronics model of the code. A homogeneous equilibrium model with a complete boiling curve and two numerical solutions of the implicit and explicit scheme is used for the thermal-hydraulics model of the code. A 2-dimensional heat conduction equation with variable conductivity solved by the method of weighted residuals is used for the fuel rod heat transfer model of the code. TISKTH-3 is able to analyze the fast transient process and complicate accident situations in the core. The initative applications have shown that the stability and convergency in the calculations with the code are satisfactory.
Citation Formats
Muzhang, Peng, Quan, Zhang, Guoli, Wang, and Yuman, Zhang.
TISKTH-3: a couple neutronics/thermal-hydraulics code for the transient analysis of light water reactors.
China: N. p.,
1988.
Web.
Muzhang, Peng, Quan, Zhang, Guoli, Wang, & Yuman, Zhang.
TISKTH-3: a couple neutronics/thermal-hydraulics code for the transient analysis of light water reactors.
China.
Muzhang, Peng, Quan, Zhang, Guoli, Wang, and Yuman, Zhang.
1988.
"TISKTH-3: a couple neutronics/thermal-hydraulics code for the transient analysis of light water reactors."
China.
@misc{etde_6151351,
title = {TISKTH-3: a couple neutronics/thermal-hydraulics code for the transient analysis of light water reactors}
author = {Muzhang, Peng, Quan, Zhang, Guoli, Wang, and Yuman, Zhang}
abstractNote = {TISKTH-3 is a coupled neutronics/thermal-hydraulics code for the transient analysis. A 3-dimensional neutron kinetics equation solved by the Nodal Green's Function Method is used for the neutronics model of the code. A homogeneous equilibrium model with a complete boiling curve and two numerical solutions of the implicit and explicit scheme is used for the thermal-hydraulics model of the code. A 2-dimensional heat conduction equation with variable conductivity solved by the method of weighted residuals is used for the fuel rod heat transfer model of the code. TISKTH-3 is able to analyze the fast transient process and complicate accident situations in the core. The initative applications have shown that the stability and convergency in the calculations with the code are satisfactory.}
journal = []
volume = {8:1}
journal type = {AC}
place = {China}
year = {1988}
month = {Mar}
}
title = {TISKTH-3: a couple neutronics/thermal-hydraulics code for the transient analysis of light water reactors}
author = {Muzhang, Peng, Quan, Zhang, Guoli, Wang, and Yuman, Zhang}
abstractNote = {TISKTH-3 is a coupled neutronics/thermal-hydraulics code for the transient analysis. A 3-dimensional neutron kinetics equation solved by the Nodal Green's Function Method is used for the neutronics model of the code. A homogeneous equilibrium model with a complete boiling curve and two numerical solutions of the implicit and explicit scheme is used for the thermal-hydraulics model of the code. A 2-dimensional heat conduction equation with variable conductivity solved by the method of weighted residuals is used for the fuel rod heat transfer model of the code. TISKTH-3 is able to analyze the fast transient process and complicate accident situations in the core. The initative applications have shown that the stability and convergency in the calculations with the code are satisfactory.}
journal = []
volume = {8:1}
journal type = {AC}
place = {China}
year = {1988}
month = {Mar}
}