Monitoring gas flaring in Texas using time-series sentinel-2 MSI and landsat-8 OLI images

•A high-resolution inventory of gas flaring in Texas is constructed.•Spatial-temporal characteristics of gas flaring over Texas are analyzed.•The greenhouse gas emissions hotspots from the gas flaring regions are explored. Since the shale Oil/Gas revolution, gas flaring and venting in the United Sta...

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Published in:International journal of applied earth observation and geoinformation 2022-11, Vol.114, p.103075, Article 103075
Main Authors: Wu, Wei, Liu, Yongxue, Rogers, Brendan M., Xu, Wenxuan, Dong, Yanzhu, Lu, Wanyu
Format: Article
Language:English
Subjects:
Gas flaring
Greenhouse gas (GHG)
Landsat-8 Operational Land Imager (OLI)
Sentinel-2 Multispectral Instrument (MSI)
Spatial-temporal dynamics
Texas
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Summary:•A high-resolution inventory of gas flaring in Texas is constructed.•Spatial-temporal characteristics of gas flaring over Texas are analyzed.•The greenhouse gas emissions hotspots from the gas flaring regions are explored. Since the shale Oil/Gas revolution, gas flaring and venting in the United States has garnered increasing attention. There is a pressing need to understand the spatial–temporal characteristics of gas flaring and track the associated greenhouse gas emissions. In this context, we use a thermal anomaly index (TAI) incorporating the Google Earth Engine (GEE) cloud computation and local batch processing for monitoring gas flaring and characterizing its spatial–temporal dynamics. We then apply a quantitative analysis of satellite-based carbon dioxide (CO2) and methane (CH4) in the gas flaring region. Here, we generate a gas flaring sites inventory in Texas from 2013 to 2022 based on > 83,500 multi-source moderate-resolution images (including 74,627 Sentinel-2 Multispectral Instrument [MSI] images and 8,969 Landsat-8 Operational Land Imager [OLI] images). Validations and comparisons demonstrate that our method is reliable for MSI and OLI images, with an overall accuracy of > 95 % and a low commission rate and omission rate. We detected 217,034 gas flares from 9,296 flaring sites in Texas, and the majority (>92 %) were found in the central and western regions of the Permian Basin and the Eagle Ford Shale. The number of detected gas flaring sites vastly outnumbered the existing Visible Infrared Imaging Radiometer Suite (VIIRS) fire products, with an upward trend from 2013 to 2019 and a downward trend from 2020 to 2022. Notably, the gas flaring sites dropped significantly at the beginning of the COVID-19 pandemic (from December 2019 to May 2020), with the lowest average monthly growth rate of −14.38 %, and fell to the level of mid-2017. Application of gas flaring data identifies the localized greenhouse gas (GHG) emission hotspots in Texas and demonstrates that the increased effect of CH4 released from gas flaring regions was significantly stronger than that of CO2. These findings can provide references for monitoring similar small industrial sources in the future, can be used as an essential supplement to low-resolution fire products, and improve our understanding of CO2 and CH4 emissions from gas flaring at fine spatial scales.
ISSN:1569-8432
1872-826X
DOI:10.1016/j.jag.2022.103075