Method for finding a leak in pressure-carrying vessels and apparatus for carrying out the method

US 4,640,121 A
Filed: 09/28/1984
Issued: 02/03/1987
Est. Priority Date: 10/05/1983
Status: Expired due to Fees

First Claim

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1. Method for determining the location of a leak in pressure-carrying vessels, including a plurality of probes spaced-apart on walls of the vessels for picking up high-frequency solid-conducted sound noises, and an amplifier connected to the probes, which comprises determining the solid-conducted sound noises by comparing with a background noise averaged over at lest ten minutes, forming an r.m.s. value in the amplifier from the sound noises, comparing the r.m.s. value with a threshold value, issuing a signal if the r.m.s. value exceeds the threshold value, comparing the solid-conducted sound noises from at least two probes with each other for localizing the leak, placing the r.m.s. value of the solid-conducted sound noises in a relationship relative to the spacing between the probes based on the comparison, and determining the location of the leak as the location of the maximum solid-conducted sound noise from the relationship.

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Abstract

A method for determining the location of a leak in pressure-carrying vessels, including a plurality of probes spaced-apart on walls of the vessels for picking up high-frequency solid-conducted sound noises, and an amplifier connected to the probes, includes forming an r.m.s. value in the amplifier from the sound noises, comparing the r.m.s. value with a threshold value, issuing a signal if the r.m.s. value exceeds the threshold value, comparing the solid-conducted sound noises from at least two probes with each other for localizing the leak, placing the r.m.s. values of the solid-conducted sound noises in a relationship relative to the spacing between the probes based on the comparison, and determining the location of the leak as the location of the maximum solid-conducted sound noise from the relationship.

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18 Claims

1. Method for determining the location of a leak in pressure-carrying vessels, including a plurality of probes spaced-apart on walls of the vessels for picking up high-frequency solid-conducted sound noises, and an amplifier connected to the probes, which comprises determining the solid-conducted sound noises by comparing with a background noise averaged over at lest ten minutes, forming an r.m.s. value in the amplifier from the sound noises, comparing the r.m.s. value with a threshold value, issuing a signal if the r.m.s. value exceeds the threshold value, comparing the solid-conducted sound noises from at least two probes with each other for localizing the leak, placing the r.m.s. value of the solid-conducted sound noises in a relationship relative to the spacing between the probes based on the comparison, and determining the location of the leak as the location of the maximum solid-conducted sound noise from the relationship.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. Method according to claim 1, which comprises digitizing the solid-conducted sound noises for the comparison.
  - 3. Method according to claim 1, which comprises interconnecting at least three probes through a ring line, and exciting two alarms through the ring line.
  - 4. Method according to claim 1, which comprises comparing the comparison with a fixed upper threshold, a lower threshold and an upper sliding threshold.
  - 5. Method according to claim 1, which comprises exciting the probes at defined time intervals with a given sound signal, and calibrating the probes by means of the excitation.
  - 6. Method according to claim 5, which comprises exciting the calibrated probes with a spatially defined sound signal, and localizing the point of excitation.
  - 7. Method according to claim 1, including a main coolant pump of a nuclear reactor connected to the vessels, which comprises shutting off the main coolant pump during the determination of the solid-conducted sound noises.

8. Method for determining the location of a leak in pressure-carrying vessels, including a plurality of probes spaced-apart on walls of the vessels for picking up high-frequency solid-conducted sound noises, and an amplifier connected to the probes, which comprises forming an r.m.s. value in the amplifier from the sound noises, comparing the r.m.s. value with a threshold value, issuing a signal if the r.m.s. value exceeds the threshold value, comparing the solid-conducted sound noises from at least two probes with each other for localizing the leak, carrying out the comparison separately for different frequencies, averaging the location determined by the separate comparisons, placing the r.m.s. value of the solid-conducted sound noises in a relationship relative to the spacing between the probes based on the comparison, and determining the location of the leak as the location of the maximum solid-conducted sound noise from the relationship.

9. Apparatus for determining the location of a leak in pressure-carrying vessels, comprising a plurality of probes with outputs including piezoelectric pickups spaced apart on walls of the vessels for picking up high-frequency solid-conducted sound noises, an amplifier connected to the probes for forming an r.m.s. value from the sound noises, a ring line interconnecting said outputs of said probes, and a head station connected to said ring line, said head station including at least one memory forming a long-term average.
- View Dependent Claims (10, 11, 12, 13)
- - 10. Apparatus according to claim 9, wherein said ring line includes two stations connected to said outputs of said probes.
  - 11. Apparatus according to claim 9, including filters connected to said pickups for frequency selection.
  - 12. Apparatus according to claim 9, including a transmitter disposed at the vessel for a calibration signal.
  - 13. Apparatus according to claim 12, including another transmitter for a test signal with a spatially defined position.

14. Apparatus for determining the location of a leak in pressure-carrying vessels, comprising a plurality of probes with outputs including piezoelectric pickups spaced apart on walls of the vessels for picking up high-frequency solid-conducted sound noises, an amplifier connected to the probes for forming an r.m.s. value from the sound noises, means connected to said amplifier for comparing the r.m.s. value with a threshold value and issuing a signal if the threshold value is exceeded by the r.m.s. value, means connected to said amplifier for comparing the solid-conducted sound noises from at least two probes with each other for localizing the leak, means connected to said comparing means for placing the r.m.s. values of the solid-conducted sound noises in a relationship relative to the spacing between said probes based on the comparison, means connected to said placing means for determining the location of the leak as the location of the maximum solid-conducted sound noise from the relationship, a ring line interconnecting said outputs of said probes, and a head station connected to said ring line, said head station including at least one memory forming a long-term average.
- View Dependent Claims (15, 16, 17, 18)
- - 15. Apparatus according to claim 14, wherein said ring line includes two stations connected to said outputs of said probes.
  - 16. Apparatus according to claim 14, including filters connected to said pickups for frequency selection.
  - 17. Apparatus according to claim 14, including a transmitter disposed at the vessel for a calibration signal.
  - 18. Apparatus according to claim 17, including another transmitter for a test signal with a spatially defined position.

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Current Assignee
Kraftwerk Union AG Mulheim Germany
Original Assignee
Kraftwerk Union Aktiengesellschaft (Siemens AG)
Inventors
Leuker, Wilhelm, Thiel, Bernhard, Stipsits, Gunter
Primary Examiner(s)
Levy, Stewart J.
Assistant Examiner(s)
ROSKOS, JOSEPH

Application Number

US06/655,864
Time in Patent Office

858 Days
Field of Search

73/40.5 A, 73/592, 340/605
US Class Current

73/40.50A
CPC Class Codes

G01M 3/24   using infrasonic, sonic, or...

G01M 3/243   for pipes

G01N 29/14   using acoustic emission tec...

G21C 17/002   Detection of leaks by testi...

Y02E 30/30   Nuclear fission reactors

Method for finding a leak in pressure-carrying vessels and apparatus for carrying out the method

First Claim

1 Assignment

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Accused Products

Abstract

42 Citations

18 Claims

Specification

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Method for finding a leak in pressure-carrying vessels and apparatus for carrying out the method

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

42 Citations

18 Claims

Specification

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Solutions

Use Cases

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