Estimating natural gas emissions from underground pipelines using surface concentration measurements☆
Title
Estimating natural gas emissions from underground pipelines using surface concentration measurements☆
Subject
Methane
Greenhouse gas
Distribution pipeline
Fugitive emission
Pipeline safety
Underground natural gas leakage
Description
Rapid response to underground natural gas leaks could mitigate methane emissions and reduce risks to the environment, human health and safety. Identification of large, potentially hazardous leaks could have environmental and safety benefits, including improved prioritization of response efforts and enhanced understanding of relative climate impacts of emission point sources. However, quantitative estimation of underground leakage rates remains challenging, considering the complex nature of methane transport processes. We demonstrate a novel method for estimating underground leak rates based on controlled underground natural gas release experiments at the field scale. The proposed method is based on incorporation of easily measurable field parameters into a dimensionless concentration number, ε, which considers soil and fluid characteristics. A series of field experiments was conducted to evaluate the relationship between the underground leakage rate and surface methane concentration data over varying soil and pipeline conditions. Peak surface methane concentrations increased with leakage rate, while surface concentrations consistently decreased exponentially with distance from the source. Deviations between the estimated and actual leakage rates ranged from 9% to 33%. A numerical modeling study was carried out by the TOUGH3 simulator to further evaluate how leak rate and subsurface methane transport processes affect the resulting methane surface profile. These findings show that the proposed leak rate estimation method may be useful for prioritizing leak repair, and warrant broader field-scale method validation studies. A method was developed to estimate fugitive emission rates from underground natural gas pipeline leaks. The method could be applied across a range of soil and surface covering conditions.
Publisher
Environmental Pollution
Date
2020-12-01
Contributor
Cho, Younki
Ulrich, Bridget A.
Zimmerle, Daniel J.
Smits, Kathleen M.
Type
journalArticle
Identifier
K7WEKD66
0269-7491
10.1016/j.envpol.2020.115514
Collection
Citation
“Estimating natural gas emissions from underground pipelines using surface concentration measurements☆,” Lamar University Midstream Center Research, accessed May 4, 2024, https://lumc.omeka.net/items/show/2190.