This paper presents an unsteady flow theory for flow-induced vibration and instability of tube arrays in crossflow. It includes measurements of motion-dependent fluid forces, mathematical model, and experiments on nonlinear response of tube arrays. The unsteady flow theory can be used to provide answers to complex vibration problems in steam generators
This paper investigated the Hopf bifurcation and post-instability of tube bundles subjected to two-p...
This article presents a method for thoroughly examining the dynamic characteristics of a tube under ...
Two-phase crossflow over heat exchanger tubes induces vibrations which contribute greatly to the wea...
This paper presents an unsteady flow theory for flow-induced vibration of tubes in crossflow. It inc...
Fluidelastic instability is a key issue in steam generator tube bundles subjected in cross-flow. Wit...
A mathematical model for fluid damping controlled instability of tubes presented in this paper is ba...
Fluid-elastic instability of loosely supported tubes, vibrating in a tube-support-plate (TSP) inacti...
At present, it is not possible to predict the coupled tube/fluid interaction using the fundamental p...
International audienceFlow-induced vibrations of Steam Generator tube bundles are a major concern fo...
Motion-dependent fluid forces acting on a tube array were measured as a function of excitation frequ...
Tube arrays subject to cross flow may exhibit large amplitude self-excited vibrations referred to as...
Two tubes in tandem and normal to flow were studied on the basis of the unsteady-flow theory. Motion...
International audienceFlow-induced vibrations of Steam Generator tube bundles are a major concern fo...
Flow-induced vibration of the tube bundles subjected to cross-flow and loose support is an important...
Helical tube steam generators are often used in nuclear power plants because of their compact struct...
This paper investigated the Hopf bifurcation and post-instability of tube bundles subjected to two-p...
This article presents a method for thoroughly examining the dynamic characteristics of a tube under ...
Two-phase crossflow over heat exchanger tubes induces vibrations which contribute greatly to the wea...
This paper presents an unsteady flow theory for flow-induced vibration of tubes in crossflow. It inc...
Fluidelastic instability is a key issue in steam generator tube bundles subjected in cross-flow. Wit...
A mathematical model for fluid damping controlled instability of tubes presented in this paper is ba...
Fluid-elastic instability of loosely supported tubes, vibrating in a tube-support-plate (TSP) inacti...
At present, it is not possible to predict the coupled tube/fluid interaction using the fundamental p...
International audienceFlow-induced vibrations of Steam Generator tube bundles are a major concern fo...
Motion-dependent fluid forces acting on a tube array were measured as a function of excitation frequ...
Tube arrays subject to cross flow may exhibit large amplitude self-excited vibrations referred to as...
Two tubes in tandem and normal to flow were studied on the basis of the unsteady-flow theory. Motion...
International audienceFlow-induced vibrations of Steam Generator tube bundles are a major concern fo...
Flow-induced vibration of the tube bundles subjected to cross-flow and loose support is an important...
Helical tube steam generators are often used in nuclear power plants because of their compact struct...
This paper investigated the Hopf bifurcation and post-instability of tube bundles subjected to two-p...
This article presents a method for thoroughly examining the dynamic characteristics of a tube under ...
Two-phase crossflow over heat exchanger tubes induces vibrations which contribute greatly to the wea...