Development of Compensators to Improve Vibration Isolation of Equipment of Thermal Plants through Pipelines and the Influence of Liquid Flow on the Effectiveness of Vibration-Isolating Compensators

IF 0.9 Q4 ENERGY & FUELS Thermal Engineering Pub Date : 2024-05-04 DOI:10.1134/S0040601524040037
A. V. Kiryukhin, O. O. Mil’man, L. N. Serezkin, E. A. Loskareva, P. Yu. Dneprovskaya
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Abstract

The results of experimental studies on the creation of highly efficient designs of vibration-isolating compensators for pipelines with liquid are considered. It is noted that the only way to evaluate the effectiveness of various compensators in reducing vibration at different frequencies currently is to compare their transient vibration stiffness or transient mechanical impedance, which were measured on special stands at a given frequency. The stiffness of the compensator increases significantly with increasing frequency vibrations. Hazardous frequencies may vary between piping systems. For this reason, it is impossible to set an integral criterion for the effectiveness of a vibration-isolating compensator, similar to static stiffness. The results of measurements carried out on a special stand on the transitional vibration stiffness of a new design compensator with thin-layer rubber-metal elements (TRME) are presented. The rigidity decreased by 10 or 100 times or more in the frequency range from 50 to 800 Hz relative to the rigidity of a serial compensator based on rubber cord casing (RCC), including in the presence of water inside it. It has been experimentally shown that the vibration-isolating ability of the same compensator as part of a pipeline system, determined by the value of the dynamic force transmitted by the compensator to the pipeline from the pump, significantly depends on the presence of water in them and its flow, which is not taken into account in known methods. The results of testing compensators with RCC and TRME with a bore diameter of 80 mm as part of a stand with a ring pipeline system, a pump, systems for monitoring the flow of the working fluid, vibrations, pressure pulsations, and dynamic (vibration) forces transmitted by the compensators to the pipeline are presented. In a stand with pipelines, the efficiency of vibration-isolating compensators with TRME is still 10 and 100 times higher than compensators with RCC in the absence of water and decreases by an order of magnitude in the presence of water without its flow when the pump is vibrated by a vibrator. Efficiency decreases even further if water flows through expansion joints and pipelines while the pump is running.

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开发补偿器以改善热电厂设备通过管道的振动隔离,以及液体流动对振动隔离补偿器效果的影响
摘 要 本文介绍了关于设计高效液体管道隔振补偿器的实验研究结果。研究指出,目前评估各种补偿器在不同频率下减振效果的唯一方法是比较它们的瞬态振动刚度或瞬态机械阻抗,这些刚度或阻抗是在给定频率下在专用台架上测量的。随着振动频率的增加,补偿器的刚度也会显著增加。不同管道系统的危险频率可能不同。因此,无法为隔振补偿器的有效性设定一个类似于静态刚度的整体标准。本文介绍了在一个特殊支架上对采用薄层橡胶金属元件(TRME)的新型设计补偿器的过渡振动刚度进行测量的结果。与基于橡胶帘线套管(RCC)的系列补偿器的刚度相比,在 50 至 800 赫兹的频率范围内,刚度降低了 10 或 100 倍或更多,包括在内部有水的情况下。实验表明,作为管道系统一部分的同一补偿器的隔振能力(由补偿器从泵传递到管道的动态力值决定)在很大程度上取决于其中是否有水以及水的流动情况,而已知的方法并未考虑到这一点。本报告介绍了孔径为 80 毫米的 RCC 和 TRME 补偿器的测试结果,这些补偿器是带有环形管道系统、泵、工作流体流量监测系统、振动、压力脉动以及由补偿器传递到管道的动态(振动)力的支架的一部分。在带管道的支架上,采用 TRME 的隔振补偿器的效率在无水的情况下仍比采用 RCC 的补偿器高 10 倍和 100 倍,而在有水的情况下,当泵受到振动器的振动时,补偿器的效率会下降一个数量级。如果在泵运行时有水流过膨胀节和管道,效率还会进一步降低。
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CiteScore
1.30
自引率
20.00%
发文量
94
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