Acoustic flowmeter calibration method

US 7,124,621 B2
Filed: 07/21/2004
Issued: 10/24/2006
Est. Priority Date: 07/21/2004
Status: Active Grant

First Claim

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1. An acoustic flowmeter calibration method that compensates for variation in a transducer time delay, the flowmeter including a first acoustic transducer and a second acoustic transducer, the first and second transducers being arranged to define a path across a conduit, the path crossing the conduit on an angle, wherein the velocity of a fluid flowing through the conduit is determined based on the path, the transit time across the path for an acoustic pulse in the upstream direction, and the transit time across the path for an acoustic pulse in the downstream direction, wherein determining a transit time takes into consideration the transducer time delay, the method comprisingfor a plurality of different fluid temperatures, at each temperature, generating a raw transit time for an acoustic pulse in the upstream direction and a raw transit time for an acoustic pulse in the downstream direction wherein the fluid is flowing through the conduit at a known velocity;

andestimating a path length and a transducer time delay based on the generated transit times and associated known flow velocities to calibrate the acoustic flowmeter path length and transducer time delay over the plurality of different temperatures.

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Abstract

An acoustic flowmeter calibration method and sampling system address a variation in acoustic transducer delay time with increasing temperature. In one aspect, calibration of the path length between the sending and receiving transducers and calibration of the transducer delay time over a wide temperature range are optimized. In another aspect, the flowmeter output is temperature compensated based on the exhaust flowmeter gas temperature. These two aspects may be embodied in an ultrasonic flowmeter for exhaust gas measurement individually or in combination in accordance with the invention.

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10 Claims

1. An acoustic flowmeter calibration method that compensates for variation in a transducer time delay, the flowmeter including a first acoustic transducer and a second acoustic transducer, the first and second transducers being arranged to define a path across a conduit, the path crossing the conduit on an angle, wherein the velocity of a fluid flowing through the conduit is determined based on the path, the transit time across the path for an acoustic pulse in the upstream direction, and the transit time across the path for an acoustic pulse in the downstream direction, wherein determining a transit time takes into consideration the transducer time delay, the method comprisingfor a plurality of different fluid temperatures, at each temperature, generating a raw transit time for an acoustic pulse in the upstream direction and a raw transit time for an acoustic pulse in the downstream direction wherein the fluid is flowing through the conduit at a known velocity;
- andestimating a path length and a transducer time delay based on the generated transit times and associated known flow velocities to calibrate the acoustic flowmeter path length and transducer time delay over the plurality of different temperatures.
- View Dependent Claims (2, 6, 7, 8, 9, 10)
- - 2. The method of claim 1 wherein the acoustic flowmeter'"'"'s first and second transducers define a first channel, wherein the acoustic flowmeter further comprises a third transducer and a fourth transducer to define a second channel, and wherein the calibration method is used for both the first channel transducer pair and the second channel transducer pair to calibrate path length and transducer time delay, for each transducer pair, over the plurality of different temperatures.
  - 6. A method of operating an acoustic flowmeter calibrated according to claim 1, the method comprising:
    - operating the acoustic flowmeter to determine the velocity of a fluid flowing through the conduit based on the path length estimated during calibration, the transit time across the path for an acoustic pulse in the upstream direction, and the transit time across the path for an acoustic pulse in the downstream direction, wherein determining a transit time takes into consideration the transducer time delay estimated during calibration.
  - 7. The method of claim 6 further comprising:
    - determining a volume of fluid, over a period of time, based on the fluid flow velocity determined by the acoustic flowmeter.
  - 8. The method of claim 7 further comprising:
    - correcting the fluid flow velocity determined by the acoustic flowmeter based on temperature; and
      
      utilizing the corrected velocity when determining the volume of fluid.
  - 9. The method of claim 8 wherein correcting further comprises:
    - correcting the fluid flow velocity according to a correction factor that is a polynomial function of temperature.
  - 10. The method of claim 9 wherein the polynomial used to correct the fluid flow velocity is a first-order polynomial.

3. An acoustic flowmeter operation method that compensates for variation in a transducer time delay, the flowmeter including a first acoustic transducer and a second acoustic transducer, the first and second transducers being arranged to define a path across a conduit, the path crossing the conduit on an angle, wherein the velocity of a fluid flowing through the conduit is determined based on the path, the transit time across the path for an acoustic pulse in the upstream direction, and the transit time across the path for an acoustic pulse in the downstream direction, wherein determining a transit time takes into consideration the transducer time delay, the method comprising:
- operating the acoustic flowmeter to determine the velocity of a fluid flowing through the conduit based on the path, the transit time across the path for an acoustic pulse in the upstream direction, and the transit time across the path for an acoustic pulse in the downstream direction, wherein determining a transit time takes into consideration the transducer time delay;
  
  correcting the fluid flow velocity determined by the acoustic flowmeter based on temperature; and
  
  determining a volume of fluid, over a period of time, based on the corrected fluid flow velocity determined by the acoustic flowmeter.
- View Dependent Claims (4, 5)
- - 4. The method of claim 3 wherein correcting further comprises:
    - correcting the fluid flow velocity according to a correction factor that is a polynomial function of temperature.
  - 5. The method of claim 4 wherein the polynomial used to correct the fluid flow velocity is a first-order polynomial.

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Current Assignee
Horiba Limited
Original Assignee
Horiba Instruments Incorporated (Horiba Limited)
Inventors
Nevius, Timothy A.
Primary Examiner(s)
Williams, Hezron
Assistant Examiner(s)
Rogers, David A.

Application Number

US10/895,625
Publication Number

US 20060016243A1
Time in Patent Office

825 Days
Field of Search

73/11.6, 73/13.4, 73/13.5, 73/15.7, 73/15.9, 73/17.5, 73 181- 183, 73/18.8, 738/611.8, 7386125-86131, 738/61, 702/85, 702 97-100, 702/103, 702/104
US Class Current

73/1.16
CPC Class Codes

G01F 1/66   by measuring frequency, pha...

G01F 15/022   using electrical means

G01F 15/043   using electrical means

G01F 25/10   of flowmeters

Acoustic flowmeter calibration method

First Claim

2 Assignments

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Abstract

31 Citations

10 Claims

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Acoustic flowmeter calibration method

First Claim

2 Assignments

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Accused Products

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Abstract

31 Citations

10 Claims

Specification

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