A closer look at underground natural gas pipeline leaks across the United States

Cho, Younki; Smits, Kathleen M.; Steadman, Nathaniel L.; Ulrich, Bridget A.; Bell, Clay S.; Zimmerle, Daniel

doi:10.1525/elementa.2021.00095

Cited by 2 publications

(2 citation statements)

References 56 publications

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“…At present, the equipment for monitoring pipeline leakage distresses includes sound sensors, humidity sensors, and ground-penetrating radar. Humidity sensor [65][66][67][68] Ground-Penetrating Radar (GPR) [69][70][71][72][73]…”

Section: Distressmentioning

confidence: 99%

“…Geophysical prospecting technology determines whether there are leaks in the pipeline by measuring the physical characteristics of underground structures, such as resistance and conductivity. Cho Younki [69] and others used standardized sampling methods to collect site characteristics such as surface coverage and spatial size, soil samples, and gas concentration data from more than 70 gas leakage sites and analyzed the collected soil samples to measure soil texture, permeability, and humidity. Statistical analysis was carried out to evaluate the influence of soil characteristics on methane migration distance and concentration.…”

Section: Ground-penetrating Radarmentioning

confidence: 99%

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Review of Sensor-Based Subgrade Distress Identifications

Cheng,

Xie,

Wei

et al. 2024

Sensors

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The attributes of diversity and concealment pose formidable challenges in the accurate detection and efficacious management of distresses within subgrade structures. The onset of subgrade distresses may precipitate structural degradation, thereby amplifying the frequency of traffic incidents and instigating economic ramifications. Accurate and timely detection of subgrade distresses is essential for maintaining and repairing road sections with existing distresses. This helps to prolong the service life of road infrastructure and reduce financial burden. In recent years, the advent of numerous novel technologies and methodologies has propelled significant advancements in subgrade distress detection. Therefore, this review delineates a concentrated examination of subgrade distress detection, methodically consolidating and presenting various techniques while dissecting their respective merits and constraints. By furnishing comprehensive guidance on subgrade distress detection, this review facilitates the expedient identification and targeted treatment of subgrade distresses, thereby fortifying safety and enhancing durability. The pivotal role of this review in bolstering the construction and operational facets of transportation infrastructure is underscored.

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Section: Distressmentioning

confidence: 99%

Section: Ground-penetrating Radarmentioning

confidence: 99%

Review of Sensor-Based Subgrade Distress Identifications

Cheng,

Xie,

Wei

et al. 2024

Sensors

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Field Testing of a Mixed Potential IoT Sensor Platform for Methane Quantification

Halley,

Ramaiyan,

Smith

et al. 2024

ECS Sens. Plus

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Emissions of CH4 from natural gas infrastructure must be addressed to mitigate its effect on global climate. With hundreds of thousands of miles of pipeline in the US used to transport natural gas, current methods of surveying for leaks are inadequate. Mixed potential sensors are a low-cost, field-deployable technology for remote and continuous monitoring of natural gas infrastructure. We demonstrate for the first time a field trial of a mixed potential sensor device coupled with machine learning and Internet-of-Things (IoT) platform at Colorado State University’s Methane Emissions Technology Evaluation Center. Emissions were detected from a simulated buried underground pipeline source. Sensor data was acquired and transmitted from the field test site to a remote cloud server. Quantification of concentration as a function of vertical distance is consistent with previously reported transport modelling efforts and experimental surveys of methane emissions by more sophisticated CH4 analyzers.

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A closer look at underground natural gas pipeline leaks across the United States

Cited by 2 publications

References 56 publications

Review of Sensor-Based Subgrade Distress Identifications

Review of Sensor-Based Subgrade Distress Identifications

Field Testing of a Mixed Potential IoT Sensor Platform for Methane Quantification

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