Perturbation-based prediction of vibration phase shift along fluid-conveying pipes due to Coriolis forces, nonuniformity, and nonlinearity
DOI10.1007/s11071-019-04934-6zbMath1430.70089OpenAlexW2942969412WikidataQ127974816 ScholiaQ127974816MaRDI QIDQ2296388
Niels Fuglede, Jon Juel Thomsen
Publication date: 18 February 2020
Published in: Nonlinear Dynamics (Search for Journal in Brave)
Full work available at URL: https://orbit.dtu.dk/en/publications/108d35b1-fe02-4133-84f1-e4ae329dcc3a
perturbation analysisfluid-conveying pipesspatial phase shiftCoriolis flowmetermechanical nonlinearitystructural imperfection
General perturbation schemes for nonlinear problems in mechanics (70K60) Averaging of perturbations for nonlinear problems in mechanics (70K65)
Cites Work
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- Coriolis-effect in mass flow metering
- Effect of a concentrated mass on Coriolis flowmetering
- Multiple scale and singular perturbation methods
- Nonlinear vibration and stability analysis of the curved microtube conveying fluid as a model of the micro coriolis flowmeters based on strain gradient theory
- Dynamics of a system of articulated pipes conveying fluid - I.Theory
- Flow Measurement Handbook
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