In the present work, the point kinetics equations are solved numerically using the stiffness confinement
method (SCM). The solution is applied to the kinetics equations in the presence of different types of
reactivities, and is compared with other methods. This method is, also used to analyze reactivity accidents
in thermal reactor at start-up, and full power conditions for control rods withdrawal. Thermal reactor
(HTR-M) is fuelled by uranium-235. This analysis presents the effect of negative temperature feedback, and
the positive reactivity of control rods withdrawal. Power, temperature pulse, and reactivity following the
reactivity accidents are calculated using programming language (FORTRAN), and (MATLAB) Codes. The
results are compared with previous works and satisfactory agreement is found
%0 Journal Article
%1 saad2014analysis
%A Saad, Hend M.
%A Aziz, M.
%A M.Mansour, H.
%B IJRAP
%D 2014
%I ijrap
%J International Journal of Recent advances in Physics (IJRAP)
%K Analysis. Coefficient Confinement Control Equations Kinetics Method Point Reactivity Rods Safety Stiffness accident
%N 2
%P 20
%R 10.14810/ijrap.2014.3202
%T Analysis of Reactivity Accident for Control Rods Withdrawal at the Thermal Reactor
%U https://wireilla.com/physics/ijrap/papers/3214ijrap02.pdf
%V 3
%X In the present work, the point kinetics equations are solved numerically using the stiffness confinement
method (SCM). The solution is applied to the kinetics equations in the presence of different types of
reactivities, and is compared with other methods. This method is, also used to analyze reactivity accidents
in thermal reactor at start-up, and full power conditions for control rods withdrawal. Thermal reactor
(HTR-M) is fuelled by uranium-235. This analysis presents the effect of negative temperature feedback, and
the positive reactivity of control rods withdrawal. Power, temperature pulse, and reactivity following the
reactivity accidents are calculated using programming language (FORTRAN), and (MATLAB) Codes. The
results are compared with previous works and satisfactory agreement is found
@article{saad2014analysis,
abstract = {In the present work, the point kinetics equations are solved numerically using the stiffness confinement
method (SCM). The solution is applied to the kinetics equations in the presence of different types of
reactivities, and is compared with other methods. This method is, also used to analyze reactivity accidents
in thermal reactor at start-up, and full power conditions for control rods withdrawal. Thermal reactor
(HTR-M) is fuelled by uranium-235. This analysis presents the effect of negative temperature feedback, and
the positive reactivity of control rods withdrawal. Power, temperature pulse, and reactivity following the
reactivity accidents are calculated using programming language (FORTRAN), and (MATLAB) Codes. The
results are compared with previous works and satisfactory agreement is found},
added-at = {2019-01-25T14:02:32.000+0100},
author = {Saad, Hend M. and Aziz, M. and M.Mansour, H.},
biburl = {https://www.bibsonomy.org/bibtex/20a2b63ae690900d1401d725eb53b234d/johnkenadi1985},
booktitle = {IJRAP},
doi = {10.14810/ijrap.2014.3202},
ee = {https://doi.org/10.1145/1743666.1743709},
interhash = {cc6d32c81469ce30d6f8fe0e08643be4},
intrahash = {0a2b63ae690900d1401d725eb53b234d},
issn = {2201-1056},
journal = {International Journal of Recent advances in Physics (IJRAP)},
keywords = {Analysis. Coefficient Confinement Control Equations Kinetics Method Point Reactivity Rods Safety Stiffness accident},
language = {English},
month = may,
number = 2,
pages = 20,
publisher = {ijrap},
timestamp = {2019-01-25T14:02:32.000+0100},
title = {Analysis of Reactivity Accident for Control Rods Withdrawal at the Thermal Reactor},
url = {https://wireilla.com/physics/ijrap/papers/3214ijrap02.pdf},
volume = 3,
year = 2014
}