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Pipeline Pumping and Compression System: A Practical Approach, Third Edition
By
Kamal K. Botros
Kamal K. Botros
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Thomas Van Hardeveld
Thomas Van Hardeveld
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ISBN:
9780791861783
No. of Pages:
668
Publisher:
ASME Press
Publication date:
2018

Flow and acoustic phenomena associated with various mechanical components in compressions and pumping systems have been the subject of considerable effort over the past few decades. Research efforts concentrated on three main topics: (i) pulsation transmission characteristics of various pipeline elements, such as orifice plate, valves, compressors and branches; (ii) pulsation generation whether it’s flow-induced or resulting from reciprocating machines; and (iii) methods to suppress these pulsations by means of passive elements (such as pulsation bottles, mufflers, Helmholtz resonators, or side branch resonators) or actively by active control (e.g., active control of incipient surge in centrifugal compressor). Flow-generated pulsations in pipeline facilities can be broad-band or single-tone with amplitude levels over 20 times higher than the dynamic pressure in main pipe. Such a high level of pulsation disturbs flow measurements and causes vibration of the piping elements. The latter can result in fatigue and serious accidents.

11.1
Introduction
11.2
Pulsation Transmission Through Piping Elements
11.3
Pulsation Generation
11.4
Solution Techniques
11.5
Acoustic Boundary Conditions and Resonance
11.6
Techniques for Pulsation Suppression
11.7
Liquid versus Gas Applications
11.8
Standards and Guidelines
11.9
Case Study Pulsation Examples
11.10
Instability Criteria of Pressure Relief Valves
References
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