Jeff Rutherford
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View article: High-Resolution Carbon Intensity of United States Natural Gas Supply
High-Resolution Carbon Intensity of United States Natural Gas Supply Open
Understanding the greenhouse gas (GHG) emissions from natural gas systems is essential for transitioning to a low-carbon economy. This work estimates the well-through-transmission GHG emissions of the US natural gas from one million active…
View article: Comparing Continuous Methane Monitoring Technologies for High-Volume Emissions: A Single-Blind Controlled Release Study
Comparing Continuous Methane Monitoring Technologies for High-Volume Emissions: A Single-Blind Controlled Release Study Open
Methane emissions from oil and gas operations are a primary concern for climate change mitigation. While traditional methane detection relies on periodic surveys that yield episodic data, continuous monitoring solutions promise to offer co…
View article: Technological Maturity of Aircraft-Based Methane Sensing for Greenhouse Gas Mitigation
Technological Maturity of Aircraft-Based Methane Sensing for Greenhouse Gas Mitigation Open
Methane is a major contributor to anthropogenic greenhouse gas emissions. Identifying large sources of methane, particularly from the oil and gas sectors, will be essential for mitigating climate change. Aircraft-based methane sensing plat…
View article: Single-blind test of nine methane-sensing satellite systems from three continents
Single-blind test of nine methane-sensing satellite systems from three continents Open
Satellite-based remote sensing enables detection and mitigation of large point sources of climate-warming methane. These satellites will have the greatest impact if stakeholders have a clear-eyed assessment of their capabilities. We perfor…
View article: Comparing Continuous Methane Monitoring Technologies for High-Volume Emissions: A Single-Blind Controlled Release Study
Comparing Continuous Methane Monitoring Technologies for High-Volume Emissions: A Single-Blind Controlled Release Study Open
Methane emissions from oil and gas operations are a primary concern for climate change mitigation. While traditional methane detection relies on periodic surveys that yield episodic data, continuous monitoring solutions promise to offer co…
View article: Methane point source quantification using MethaneAIR: a new airborne imaging spectrometer
Methane point source quantification using MethaneAIR: a new airborne imaging spectrometer Open
The MethaneSAT satellite instrument and its aircraft precursor, MethaneAIR, are imaging spectrometers designed to measure methane concentrations with wide spatial coverage, fine spatial resolution, and high precision compared to currently …
View article: Comment on egusphere-2023-1541
Comment on egusphere-2023-1541 Open
Abstract. Satellite-based remote sensing enables detection and mitigation of large point sources of climate-warming methane. These satellites will have the greatest impact if stakeholders have a clear-eyed assessment of their capabilities.…
View article: Comment on egusphere-2023-1541
Comment on egusphere-2023-1541 Open
Abstract. Satellite-based remote sensing enables detection and mitigation of large point sources of climate-warming methane. These satellites will have the greatest impact if stakeholders have a clear-eyed assessment of their capabilities.…
View article: Single-blind test of nine methane-sensing satellite systems from three continents
Single-blind test of nine methane-sensing satellite systems from three continents Open
Satellite-based remote sensing enables detection and mitigation of large point sources of climate-warming methane. These satellites will have the greatest impact if stakeholders have a clear-eyed assessment of their capabilities. We perfor…
View article: Technological Maturity of Aircraft-Based Methane Sensing for Greenhouse Gas Mitigation
Technological Maturity of Aircraft-Based Methane Sensing for Greenhouse Gas Mitigation Open
Methane is a major contributor to anthropogenic greenhouse gas emissions. Identifying large sources of methane, particularly from the oil and gas sector, will be essential for mitigating climate change. Aircraft-based methane sensing platf…
View article: Supplementary material to "Methane Point Source Quantification Using MethaneAIR: A New Airborne Imaging Spectrometer"
Supplementary material to "Methane Point Source Quantification Using MethaneAIR: A New Airborne Imaging Spectrometer" Open
Calculations S1.1 mIME Effective Wind SpeedsThe effective wind speeds used in the mIME calculation came from the relationship proposed by Varon et al. (2018), U ef f = α • log(10 m wind) + 0.6 where α is between 0.9-1.1.We took advantage o…
View article: Methane Point Source Quantification Using MethaneAIR: A New Airborne Imaging Spectrometer
Methane Point Source Quantification Using MethaneAIR: A New Airborne Imaging Spectrometer Open
The MethaneSAT satellite instrument and its aircraft precursor, MethaneAIR, are imaging spectrometers designed to measure methane concentrations with wide spatial coverage, fine spatial resolution, and high precision compared to currently …
View article: Evaluating methane emission quantification performance and uncertainty of aerial technologies via high-volume single-blind controlled releases
Evaluating methane emission quantification performance and uncertainty of aerial technologies via high-volume single-blind controlled releases Open
Methane (CH4) from oil and gas (O&G) activities is a known contributor to global anthropogenic methane emissions and recent research has demonstrated that a small fraction of large emitters contribute to the majority of total emissions. In…
View article: Single-blind validation of space-based point-source detection and quantification of onshore methane emissions
Single-blind validation of space-based point-source detection and quantification of onshore methane emissions Open
Satellites are increasingly seen as a tool for identifying large greenhouse gas point sources for mitigation, but independent verification of satellite performance is needed for acceptance and use by policy makers and stakeholders. We cond…
View article: Quantifying oil and natural gas system emissions using one million aerial site measurements
Quantifying oil and natural gas system emissions using one million aerial site measurements Open
Aerial methane surveys of oil and natural gas systems have discovered large emissions, which are missing or vastly undercounted in official estimates. We integrate approximately one million aerial site measurements into regional emissions …
View article: Single-blind validation of space-based point-source methane emissions detection and quantification
Single-blind validation of space-based point-source methane emissions detection and quantification Open
Satellites are increasingly seen as a tool for identifying large greenhouse gas point sources for mitigation, but independent verification of satellite performance is needed for acceptance and use by policy makers and stakeholders. We cond…
View article: Single-blind determination of methane detection limits and quantification accuracy using aircraft-based LiDAR
Single-blind determination of methane detection limits and quantification accuracy using aircraft-based LiDAR Open
Methane detection limits, emission rate quantification accuracy, and potential cross-species interference are assessed for Bridger Photonics’ Gas Mapping LiDAR (GML) system utilizing data collected during laboratory testing and single-blin…
View article: Closing the gap: Explaining persistent underestimation by US oil and natural gas production-segment methane inventories
Closing the gap: Explaining persistent underestimation by US oil and natural gas production-segment methane inventories Open
Methane (CH4) emissions from oil and natural gas (O&NG) systems are an important contributor to greenhouse gas emissions. In the United States, recent synthesis studies of field measurements of CH4 emissions at different spatial scales are…
View article: Robert CITINO: The Wehrmacht’s Last Stand: The German Campaigns of 1944-1945, Lawrence, University Press of Kansas, 2017, 632 pp., ISBN: 978-0700624942
Robert CITINO: The Wehrmacht’s Last Stand: The German Campaigns of 1944-1945, Lawrence, University Press of Kansas, 2017, 632 pp., ISBN: 978-0700624942 Open
Reseña de la obra de Robert CITINO: The Wehrmacht’s Last Stand: The German Campaigns of 1944-1945, Lawrence, University Press of Kansas, 2017, 632 pp., ISBN: 978-0700624942. A cargo de Jeff Rutherford.