Continuous Underground Monitoring of Gas Leaks

Gamal E. Khalil; Fletcher Kimura; Alice Chin; Masoud Ghandehari; River Wan; Wayne Shinoki; Martin Gouterman; James B. Callis; Larry R. Dalton

doi:10.1080/09349840591008208

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Continuous Underground Monitoring of Gas Leaks

Journal article

Peer reviewed

Continuous Underground Monitoring of Gas Leaks

Gamal E. Khalil, Fletcher Kimura, Alice Chin, Masoud Ghandehari, River Wan, Wayne Shinoki, Martin Gouterman, James B. Callis and Larry R. Dalton

Research in nondestructive evaluation, Vol.16(3), pp.119-130

01/07/2005

DOI: https://doi.org/10.1080/09349840591008208

Abstract

evanescent field

Gas pipeline

health monitoring

leak detection

optical fiber sensors

porphyrin

A gas-leak-detection system was designed based on the concept of oxygen-level measurement. Optical fibers were produced with gas-permeable polymeric cladding material doped with oxygen-responsive porphyrin sensor molecules and subsequently interrogated via the evanescent field along the fiber length. Tests were performed with simulated methane-gas leaks in air and under dry and saturated sand. Results of sensor sensitivity, response time, and reversibility are presented.

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Details

Title: Continuous Underground Monitoring of Gas Leaks
Creators - without role: Gamal E. Khalil - University of Washington
Fletcher Kimura - University of Washington
Alice Chin - University of Washington
Masoud Ghandehari - Department of Civil Engineering , Polytechnic Unviersity , Brooklyn, New York, USA
River Wan - LIPS , Tacoma, Washington, USA
Wayne Shinoki - University of Washington
Martin Gouterman - University of Washington
James B. Callis - University of Washington
Larry R. Dalton - University of Washington
Publication Details: Research in nondestructive evaluation, Vol.16(3), pp.119-130
Publisher: Taylor & Francis Group
Identifiers: 9912989408331
Academic Unit: Al Jouf University
Language: English
Resource Type: Journal article