Frequency domain analysis by using the bode diagram method of pipes conveying fluid.

Fluid conveying pipes are used in all hydraulic systems and enter in all industrial fields, such as water, petroleum products and gases of all kinds. In spite of this widespread and critical importance of fluid conveying pipes, they suffer from major problems and one of these problems is the problem of vibrations that cause the collapse of the systems completely and cause significant economic losses if not avoided. For this reason, the researchers have dealt with this issue in all years, but the problem is not over. In this paper will highlight the problem of controlling the vibrations resulting from fluid flow inside the pipes. The research included the study of the dynamic behaviour of different types of stabilization of the pipes in the presence with no hydraulic damping (active control) and monitoring the stability of each case of stabilization. This study was carried out by deriving differential equations for pipes and for different types of fixation. Special equations with mode response and natural frequency equations were obtained in addition to the stability study of the pipes in the same manner, by using bode diagram technique. This is done by deriving the differential equation of motion and dealing with it for the purpose of reaching the general equation so that it can be easily converted within the method of state space and analysis of equations and find feedback with the change of inputs and outputs. With the help of MATLAB program where the final equations are programmed and the results are found. The main factors of dynamic and stability behaviour were calculated in addition to the main parameters on the pipe such as fluid velocity, pressure and mass ratios. [ABSTRACT FROM AUTHOR]