Electronic flowmeter system and method
First Claim
1. An electronic flow-measuring system, having a flowmeter provided with a turbine, for accurately sensing fluid flow of a liquid over a wide range of flows including a low flow region wherein the turbine rotates at less than five revolutions per second, the system comprising:
- a flowmeter body having at least one fluid passage therethrough;
a turbine having a plurality of vanes, disposed at least partially within the passage, and rotatable about an axis in response to fluid flow impinging upon the vanes;
sensing means mounted at least in part in the body for producing an electromagnetic input signal whose period is inversely proportional to the rate of rotation of the turbine by detecting movement of the vanes past a predetermined location;
signal processing means for converting the input signal into a first numerical value proportional to the period of the input signal;
digital processing means for producing from the first numerical value a second numerical value adjusted to compensate for a predetermined nonlinearity if any between the rate of rotation of the turbine and the rate of fluid flow through the body at least in a low flow region of operation of the flowmeter;
means for providing an output value corresponding to at least one of the second numerical values, and whereinthe passage through the flowmeter body is a substantially cylindrical bore at least in the vicinity of the turbine,the turbine is mounted such that its axis of rotation is concentric to the axis of the bore, andthe clearance between the vanes of the turbine and the bore is sized to enable the turbine to rotate at substantially the lowest possible rate of fluid flow of the liquid.
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Accused Products
Abstract
An electronic flowmeter system including a turbine flowmeter and a digital controller for making highly accurate flow measurements over a wide range of fluid flows and pressures. The flowmeter preferably includes a housing or body having a cylindrical bore in which is mounted a turbine having multiple vanes, and which preferably rotates transversely to the direction of fluid flow. The clearance between the bore and outer edge of the vanes is selected for minimum resistance to extremely low flow rates. Rotation of the turbine vanes is detected by use of a proximity sensor or an optical sensor employing an artificial light source and a photodetector. Fiber optics may be used to locate the light source and photodetector at a location remote from the flowmeter for high temperature or intrinsically safe applications. Flow measurements are made by digitally measuring the time periods between successive input generated by detection of the rotating vanes of the turbine. The microprocessor-based controller compensates for nonlinearities between turbine rotation rate and the actual flow rates by applying correction factors in the form of range-dependent linear approximation values. A preferred method for operating such a flowmeter system is also disclosed.
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Citations
18 Claims
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1. An electronic flow-measuring system, having a flowmeter provided with a turbine, for accurately sensing fluid flow of a liquid over a wide range of flows including a low flow region wherein the turbine rotates at less than five revolutions per second, the system comprising:
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a flowmeter body having at least one fluid passage therethrough; a turbine having a plurality of vanes, disposed at least partially within the passage, and rotatable about an axis in response to fluid flow impinging upon the vanes; sensing means mounted at least in part in the body for producing an electromagnetic input signal whose period is inversely proportional to the rate of rotation of the turbine by detecting movement of the vanes past a predetermined location; signal processing means for converting the input signal into a first numerical value proportional to the period of the input signal; digital processing means for producing from the first numerical value a second numerical value adjusted to compensate for a predetermined nonlinearity if any between the rate of rotation of the turbine and the rate of fluid flow through the body at least in a low flow region of operation of the flowmeter; means for providing an output value corresponding to at least one of the second numerical values, and wherein the passage through the flowmeter body is a substantially cylindrical bore at least in the vicinity of the turbine, the turbine is mounted such that its axis of rotation is concentric to the axis of the bore, and the clearance between the vanes of the turbine and the bore is sized to enable the turbine to rotate at substantially the lowest possible rate of fluid flow of the liquid. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of operating a flowmeter with an accuracy of at least one percent over at least three orders of magnitude of varying flow rates, the flowmeter being of the type having a rotatable turbine provided with a plurality of vanes and disposed at least partially within a body having a passage through which a liquid fluid whose flow is to be measured passes, the method comprising the steps of:
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(a) providing sensor means for detecting rotation of the turbine by sensing the passage of the vanes past a predetermined location, the sensor means including optical means for optically detecting the presence and absence of vanes of the turbine in the predetermined location, the optical means being provided with first and second optical fibers, a light source for providing light to a first end of the first optical fiber, and a substantially transparent window for transmitting light emanating from a second end of the first optical fiber to the predetermined location and back to one end of the second optical fiber, said transparent window means being capable of resisting at least 100 atmospheres of pressure, said sensor means producing an electromagnetic input signal whose period is inversely proportional to the rate of rotation of the turbine;
(b) in a digital electronic controller converting the input signal into a first numerical value whose magnitude is proportional to the period of the input signal and inversely proportional to the rate of rotation;(c) in the controller selectively adjusting the first numerical value to compensate for any predetermined nonlinearity between the rate of rotation indicated by the electronic input signal and the rate of fluid flow through the body at least in a low flow region of operation of the flowmeter, thereby producing a second numerical value; and (d) producing a digital output signal whose magnitude is derived at least in part from the second numerical value, and wherein step (c) includes at least the substeps of; (1) providing a group of predetermined linear approximation (LA) values with each such LA value being associated with a particular range of flow rates, (2) selecting one of the LA values based upon the magnitude of the first numerical value, and (3) scaling the first numerical value in accordance with the selected LA value to produce the second numerical value. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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16. A method of accurately measuring liquid flow over a range of flow rates spanning at least three decades using a flowmeter of the type having body provided with a substantially cylindrical bore in which a turbine provided with a plurality of vanes is disposed for rotation about an axis collinear with the axis of the bore, which is generally in line with the direction of flow of the liquid whose flow is to be measured, the method comprising the steps of:
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(a) detecting the rotation of the turbine by sensing the passage of the vanes past a predetermined location of the cylindrical bore, and producing an electromagnetic input signal whose period is inversely proportional to the rate of rotation of the turbine, said sensing being accomplished with optical sensing means including an artificial light source and photodetector remote from the body of the flowmeter and an optical conduit for directing light from the light source to the predetermined location; (b) in a digital electronic controller converting the input signal into a first numerical value whose rate of rotation is proportional to the period of the input signal by (1) providing a time base signal having a frequency at least in the Megahertz range and a pulse rate at least ten times that of the maximum expected pulse rate of the input signal, (2) providing a digital counter having a capacity of at least 24 bits for counting pulses of the time base signal, (3) gating the time base signal with the input signal, and (4) using the accumulated count in the counter resulting from one cycle of the input signal as the first numerical value; and (c) in the controller selectively adjusting the first numerical value to compensate for any predetermined nonlinearity between the rate of rotation indicated by the electromagnetic input signal and the rate of fluid flow through the body at least in a low flow region of operation of the flowmeter to produce a second numerical value by (1) providing a group of predetermined linear approximation (LA) values with each such LA value being associated with a particular range of flow rates, (2) selecting one of the LA values based upon the magnitude of the first numerical value, and (3) scaling the first numerical value in accordance with the selected LA value to produce the second numerical value. - View Dependent Claims (17, 18)
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Specification