• Title of article

    Thermo-mechanical phase-shift determination in Coriolis mass-flowmeters with added masses

  • Author/Authors

    Ghayesh، نويسنده , , Mergen H. and Amabili، نويسنده , , Marco and Païdoussis، نويسنده , , Michael P.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2012
  • Pages
    13
  • From page
    1
  • To page
    13
  • Abstract
    The aim of this paper is to develop an approximate analytical solution for phase-shift (and thus mass flow) prediction along the length of the measuring tube of a Coriolis mass-flowmeter. A single, straight measuring tube is considered; added masses at the sensor and excitation locations are included in the model, and thus in the equation of motion. The measuring tube is excited harmonically by an electromagnetic driver. Taking into account thermal effects, the equation of motion is derived through use of the extended Hamiltonʹs principle and constitutive relations. The equation of motion is discretized into a set of ordinary differential equations via Galerkinʹs technique. The method of multiple timescales is applied to the set of resultant equations, and the equations of order one and epsilon are obtained analytically for the system at primary resonance. The solution of the equation of motion is obtained by satisfying the solvability condition (making the solution of order epsilon free of secular terms). The flow-related phase-shift in the driver-induced tube vibration is measured at two symmetrically located points on either side of the mid-length of the tube. The analytical results for the phase-shift are compared to those obtained numerically. The effect of system parameters on the measured phase-shift is discussed. It is shown that the measured phase-shift depends on the mass flow rate, of course, but it is also affected by the magnitude of the added sensor mass and location, and the temperature change; nevertheless, the factors investigated do not induce a zero phase-shift.
  • Keywords
    Thermal effects , Coriolis flowmeter , Perturbation technique , Phase shift , Straight tube , analytical solution , Mass flowmeter , Sensor masses
  • Journal title
    Journal of Fluids and Structures
  • Serial Year
    2012
  • Journal title
    Journal of Fluids and Structures
  • Record number

    2213940