Assessment of the negative impact of low-frequency vibrations on technological pipelines of compressor stations

Abstract

The intensive development of gas transport and compressor manufacturing aimed at increasing the unit capacities of gas pumping units, creating high-flow centrifugal compressors, increasing the productivity of compressor shops has led to the appearance of fundamentally new problems in the diagnosis of industrial pipelines. The reasons for premature failure of piping manifold of gas pumping stations can be associated with both high static voltage in the pipelines and a high level of vibration. The main reasons for the increased vibration of the technological pipelines of the centrifugal compressor can be significant disturbing forces of the gas flow, coincidence of the natural frequencies of the pipeline system elements with frequencies of the disturbing forces, low dynamic stiffness of the pipeline- support system or a combination of the above conditions. The most effective method for studying problems such as low-frequency vibrations is the combination of engineering means for calculating dynamic processes and the results of measurements of the parameters of these processes in real systems and operating modes of the compressor stations. The hypotheses of the occurrence of low-frequency vibrations in pipelines are considered during the study, the acoustic properties of the process piping, and the resonant vibrations conditions are calculated. A computer model was created in the ANSYS Workbench software in order to consider the loading conditions for process piping. Based on Gazprom company standard 2-2.3-324-2009, an algorithm is proposed that is of practical importance for engineers of plant diagnostics operating gas transmission equipment. It is proposed to combine the performance of vibroacoustic studies and computing modeling with the determination of trends in the technical condition of the system for the analysis of changes in vibro-parameters. As a result of the work, direct measurements of the vibrodiagnostic specialists of the operating compressor station were compared with the obtained modeling data. Some methods were proposed to reduce the impact of operating conditions and design of the process piping on unacceptable low-frequency vibrations.