Traditionally, the dynamic reservoir effects in the dam-reservoir system ar
e approximated using the added mass approach. The objective of this study i
s to develop unconditionally stable solutions for the dam-reservoir interac
tion problem in the time domain. The dam-reservoir system can be categorize
d as a coupled held system, in which two physical systems of fluid and stru
cture interact only at the two domains interface. Two methods of staggered
solution procedure are proposed for the dam-reservoir interaction. The firs
t method, the staggered displacement method, is based on the approximation
of the displacement from the structure's equation of motion. The second met
hod, is based on the approximation of pressure from the fluid's equation of
motion. Both methods are shown to be unconditionally stable when the two d
ifferential equations of the fluid and structure include damping terms. The
staggered pressure method was modified for use when the equation of motion
includes a diagonal mass matrix. Two different configurations of concrete
gravity dams are used to investigate the accuracy and stability of the stag
gered displacement and the modified staggered pressure methods. The propose
d staggered methods were found to be quite accurate when compared with the
existing finite element solution. (C) 1998 Academic Press.