The aim of this numerical study is to determine hydrodynamic force couple on tubes in a cross-flow row resulting from the water flow and to determine the stability of one vibrating tube. This work is a numerical simulation of S. S. Chen‘s experiment [1]. The experiment was carried out in a water channel with a row of cross-flow tubes. A part of the channel with a row of tubes is used for the numerical model. The middle tube oscillates in a direction normal to the fluid flow. The paper presents the results of the numerical simulation. The influence of the flow velocity on the excitation of hydrodynamic f...
Flow-induced vibration is an important concern in the design of tube bundles. Due to the coupling of...
This thesis presents results from an experimental investigation of hydrodynamic forces on a cylinder...
Two-phase cross flow over heat exchanger tubes creates vibrations which contribute greatly to the we...
Two tubes in tandem and normal to flow are studied on the basis of the unsteady flow theory. Motion-...
A mathematical model for fluid damping controlled instability of tubes presented in this paper is ba...
Tube arrays subject to cross flow may exhibit large amplitude self-excited vibrations referred to as...
Motion-dependent fluid forces acting on a tube array were measured as a function of excitation frequ...
This article presents a method for thoroughly examining the dynamic characteristics of a tube under ...
This paper presents an unsteady flow theory for flow-induced vibration of tubes in crossflow. It inc...
This paper presents an unsteady flow theory for flow-induced vibration and instability of tube array...
Experimental study of incident flow angle effects on vibration behavior has been carried out on alum...
Motion-dependent fluids forces acting on a tube array were measured as a function of excitation freq...
Tubes of heat exchangers are excited to mechanical vibrations by unsteady flow forces. Up to now no ...
This paper presents an approximate analysis and an experimental investigation of the effect of exter...
This paper investigated the flow-induced vibration of the tube bundles considering the effect of per...
Flow-induced vibration is an important concern in the design of tube bundles. Due to the coupling of...
This thesis presents results from an experimental investigation of hydrodynamic forces on a cylinder...
Two-phase cross flow over heat exchanger tubes creates vibrations which contribute greatly to the we...
Two tubes in tandem and normal to flow are studied on the basis of the unsteady flow theory. Motion-...
A mathematical model for fluid damping controlled instability of tubes presented in this paper is ba...
Tube arrays subject to cross flow may exhibit large amplitude self-excited vibrations referred to as...
Motion-dependent fluid forces acting on a tube array were measured as a function of excitation frequ...
This article presents a method for thoroughly examining the dynamic characteristics of a tube under ...
This paper presents an unsteady flow theory for flow-induced vibration of tubes in crossflow. It inc...
This paper presents an unsteady flow theory for flow-induced vibration and instability of tube array...
Experimental study of incident flow angle effects on vibration behavior has been carried out on alum...
Motion-dependent fluids forces acting on a tube array were measured as a function of excitation freq...
Tubes of heat exchangers are excited to mechanical vibrations by unsteady flow forces. Up to now no ...
This paper presents an approximate analysis and an experimental investigation of the effect of exter...
This paper investigated the flow-induced vibration of the tube bundles considering the effect of per...
Flow-induced vibration is an important concern in the design of tube bundles. Due to the coupling of...
This thesis presents results from an experimental investigation of hydrodynamic forces on a cylinder...
Two-phase cross flow over heat exchanger tubes creates vibrations which contribute greatly to the we...