Basic Design Rules for Lines in Pulsating Flow Service

Menno Eijgenhuijsen, Girish Masand
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Abstract

To avoid unacceptable vibration of suction and discharge piping for reciprocating pumps and compressors, acoustic and mechanical response analyses are to be carried out. These analyses are generally provided by the suppliers of such equipment. This paper explains the fundamentals behind an acoustic and mechanical response analysis and provides a simple set of consolidated design and engineering rules. The paper encourages application of these rules while developing the equipment and piping layout as well as pipe support configuration. The aim of these rules is to minimize the chance for the ultimate supplier’s detailed acoustic & mechanical response analysis to recommend significant changes to the design in a late stage of a project. Specific emphasis is placed on how the support stiffness affects the natural frequency of the piping system and a practical methodology is provided to account for this in pipe support span calculations. This paper also describes the process information that needs to be submitted to the supplier to conduct a meaningful acoustic as well as mechanical response analysis. Acknowledging requirements for lines in pulsating service at a late stage in the project, not providing the supplier with the required process information or a piping and support configuration that is not ‘mature’ enough will most likely result in significant delay and cost.
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脉动流管道的基本设计原则
为了避免往复泵和压缩机的吸入和排出管道产生不可接受的振动,需要进行声学和机械响应分析。这些分析通常由这类设备的供应商提供。本文解释了声学和力学响应分析背后的基本原理,并提供了一套简单的综合设计和工程规则。本文鼓励在制定设备和管道布置以及管道支撑配置时应用这些规则。这些规则的目的是最大限度地减少最终供应商在项目后期通过详细的声学和机械响应分析建议对设计进行重大更改的机会。特别强调了支撑刚度如何影响管道系统的固有频率,并提供了一种在管道支撑跨度计算中考虑这一点的实用方法。本文还描述了需要提交给供应商进行有意义的声学和机械响应分析的过程信息。在项目的后期阶段确认脉动服务中的管线需求,不向供应商提供所需的工艺信息或不够“成熟”的管道和支持配置,很可能导致重大的延迟和成本。
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