High Energy Vibration for Gas Piping

机译：气体管道的高能量振动

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In September 2016, a gas compressor in offshore Sarawak has its rotor changed out. Prior to this change-out, pipe vibration study was carried-out by the project team to evaluate any potential high energy pipe vibration problems at the compressor's existing relief valve downstream pipes due to process condition changes after rotor change out. This paper covers high frequency acoustic excitation (HFAE) vibration also known as acoustic induced vibration (AIV) study and discusses detailed methodologies as a companion to the Energy Institute Guidelines for the avoidance of vibration induced fatigue failure, which is a common industry practice to assess and mitigate for AIV induced fatigue failure. Such detailed theoretical studies can help to minimize or totally avoid physical pipe modification, leading to reduce offshore plant shutdown days to plant shutdowns only being required to accommodate gas compressor upgrades, reducing cost without compromising process safety.

机译：2016年9月，海上沙捞越的气体压缩机的转子改变了。在此转换之前，项目团队进行了管道振动研究，以评估压缩机现有的浮雕阀下游管道的任何潜在的高能管振动问题，因为转子改变后的过程条件发生变化。本文涵盖了高频声激发（HFAE）振动，也称为声学诱导振动（AIV）研究，并讨论了避免振动引起的疲劳失效的能源研究所指导条例的详细方法，这是一种评估的共同行业实践并减轻AIV诱导的疲劳失败。如此详细的理论研究可以有助于最小化或完全避免物理管道改性，导致降低海上工厂关闭日，仅用于容纳气体压缩机升级，降低成本而不损害工艺安全性。

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《International Conference on Materials Technology and Energy》|2017年|330p.|共7页
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Gary Y H Lee; K B Chan; Aylwin Y S Lee;
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中图分类工程材料学;
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Acoustic-induced vibration; AIV; high-frequency acoustic excitation; HFAE; high-energy vibration;

机译：声学诱导的振动;AIV;高频声学激发;HFAE;高能振动;

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1. APPLICATION OF THE METHOD OF INITIAL PARAMETERS TO ANALYSIS OF COUPLED HYDROMECHANICAL VIBRATIONS IN PIPING SYSTEMS. PART 3. ANALYSIS OF FORCED VIBRATIONS IN STEAM PIPING OF WWER-1000 POWER UNIT [J] . I. V. Orynyak, A. S. Batura, S. A. Radchenko, Strength of Materials . 2012,第2期

机译：初始参数方法在管道系统水力耦合振动分析中的应用。第3部分。WWER-1000机组蒸汽管道中的强迫振动分析
2. APPLICATION OF THE METHOD OF INITIAL PARAMETERS TO ANALYSIS OF COUPLED HYDROMECHANICAL VIBRATIONS IN PIPING SYSTEMS. PART 1. VIBRODIAGNOSTICS OF PIPING UNDER MECHANICAL VIBRATIONS [J] . I. V. Orynyak, A. S. Batura, S. A. Radchenko Strength of Materials . 2011,第6期

机译：初始参数方法在管道系统水力耦合振动分析中的应用。第1部分。机械振动下的管道振动诊断
3. The effects of collision energy, vibrational mode, and vibrational angular momentum on energy transfer and dissociation in NO2+-rare gas collisions: An experimental and trajectory study [J] . Liu JB, Uselman BW, Boyle JM, The Journal of Chemical Physics . 2006,第13期

机译：稀有气体碰撞中碰撞能量，振动模式和振动角动量对能量传递和离解的影响：实验和轨迹研究
4. High Energy Vibration for Gas Piping [C] . Gary Y H Lee, K B Chan, Aylwin Y S Lee International Conference on Materials Technology and Energy . 2017

机译：气体管道的高能量振动
5. Characterization of the effects of low power pulsed vibration energy on biofouling inhibition in water piping systems. [D] . Arcano, Joseph Timothy, Jr. 2002

机译：表征低功率脉冲振动能量对水管道系统中生物污垢的抑制作用。
6. A Method Using Optical Contactless Displacement Sensors to Measure Vibration Stress of Small-Bore Piping [O] . Akira Maekawa, Takashi Tsuji, Tsuneo Takahashi, -1

机译：一种使用光学非接触式位移传感器测量小孔管道振动应力的方法
7. Abnormal Piping Vibrations of a Suction Piping System of a Reciprocating Pump. [O] . Hisao IZUCHI, Hiroyuki MATSUDA 1991

机译：往复泵的吸入管道系统异常管道振动。
8. Flow Induced Vibrations of Piping System (Vibration Sources - Mechanical Response of the Pipes) [R] . Gibert, R. J., Axisa, F., Villard, B. 1978

机译：流体引起的管道振动（振动源 - 管道的机械响应）

High Energy Vibration for Gas Piping

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