Coriolis-type fluid mass flow rate measurement device and method employing a least-squares algorithm
First Claim
1. An improved Coriolis-type system for measuring a fluid flow rate, comprising:
- a first fluid flow conduit having fixed inlet and outlet portions which are substantially coaxial with a first oscillation axis and a middle portion, comprising a curve which is offset relative to the first oscillation axis;
a second fluid flow conduit having respective inlet and outlet portions which are substantially coaxial with a second oscillation axis parallel to said first oscillation axis and a respective middle portion, comprising a curve, which is offset from the second oscillation axis, the second conduit being formed to be physically similar to the first conduit, the first and second conduits being mounted to be parallel to each other between their respective end portions when not in use;
means for oscillating the first and second conduits relative to each other about their respective oscillation axes, thereby causing oscillating Coriolis accelerations to act on respective fluid flows through the two conduits and generating a corresponding relative oscillatory motion of the conduits;
means for generating analog sinusoidal outputs at two locations in correspondence with said relative motion between the first and second conduits at these two locations;
means for digitizing the analog sinusoidal outputs and generating corresponding digitized outputs; and
means for processing said digitized outputs to generate least-squares sine fits thereto, determining a phase shift between the digitized outputs, and from said phase shift determining a corresponding mass flow rate of fluid flowing through the first and second conduits.
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Accused Products
Abstract
A Coriolis-type fluid flow rate measuring system splits a fluid flow that is to be measured into two equal half flows and passes the same respectively through two physically similar conduits which are oscillated about respective parallel oscillation axes. Analog sinusoidal signals corresponding to relative velocity of motion between the two conduits are obtained at two locations, the analog signals a digitized, and a conventional microprocessor is used to apply a least-squares sine fit to the digitized data to determine to a very high degree of accuracy a phase shift between the signals. An empirical proportionality factor is determined for the system to relate phase shift to fluid flow rate and is used to determine the fluid flow rate. The least-squares sine fit provides an accurate, economically computed fluid flow rate, and the apparatus is highly insensitive to temperature induced effects, harmonic distortions, and the combined effects of noise and harmonic distortion.
88 Citations
12 Claims
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1. An improved Coriolis-type system for measuring a fluid flow rate, comprising:
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a first fluid flow conduit having fixed inlet and outlet portions which are substantially coaxial with a first oscillation axis and a middle portion, comprising a curve which is offset relative to the first oscillation axis; a second fluid flow conduit having respective inlet and outlet portions which are substantially coaxial with a second oscillation axis parallel to said first oscillation axis and a respective middle portion, comprising a curve, which is offset from the second oscillation axis, the second conduit being formed to be physically similar to the first conduit, the first and second conduits being mounted to be parallel to each other between their respective end portions when not in use; means for oscillating the first and second conduits relative to each other about their respective oscillation axes, thereby causing oscillating Coriolis accelerations to act on respective fluid flows through the two conduits and generating a corresponding relative oscillatory motion of the conduits; means for generating analog sinusoidal outputs at two locations in correspondence with said relative motion between the first and second conduits at these two locations; means for digitizing the analog sinusoidal outputs and generating corresponding digitized outputs; and means for processing said digitized outputs to generate least-squares sine fits thereto, determining a phase shift between the digitized outputs, and from said phase shift determining a corresponding mass flow rate of fluid flowing through the first and second conduits. - View Dependent Claims (2, 3, 4, 5)
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6. A method of determining a phase difference between a first sinusoidal analog signal having a predetermined frequency and a second sinusoidal analog signal having the same predetermined frequency, wherein the first and second sinusoidal signals are phase-shifted relative to each other in correspondence with a physical parameter, comprising the steps of:
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converting said first and second sinusoidal analog signals to corresponding first and second digitized signals; generating least-squares sine fits of said first and second digitized signals, and thereby determining a phase shift between said first and second analog signals; and determining a value of said physical parameter corresponding to said determined phase shift. - View Dependent Claims (7)
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8. A method of determining a rate of fluid flow through a Coriolis-type fluid flow rate meter, comprising the steps of:
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dividing said fluid flow into equal flows and flowing said half flows through two conduits having respective inlet and outlet end portions coaxially affixed on respective first and second oscillation axes which are mutually parallel; applying an oscillatory motion between respective middle portions of said conduits at a natural resonance frequency thereof; obtaining analog sinusoidal signals corresponding to relative velocity of motion between the two conduits at two separate locations thereof while each of the conduits is conveying a corresponding one of said half flows and is being subjected to said oscillatory motion; digitizing said analog sinusoidal signals and generating corresponding least-squares fit thereto for one oscillation time period; and from said least-squares fits determining a phase shift related to the fluid flow through both of said conduits. - View Dependent Claims (9, 10, 11, 12)
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Specification