Assessing a low-cost methane sensor quantification system for use in complex rural and urban environments.
Ashley Collier-Oxandale,Joanna Gordon Casey,Ricardo Piedrahita,John Ortega,H. S. Halliday,Jill E. Johnston,Michael P. Hannigan +6 more
TL;DR: A number of linear calibration models used to convert raw sensor signals into ppm concentration values for methane are assessed, illustrating the accuracy of the Figaro TGS 2600 sensor when methane is quantified from raw signals using the techniques described.
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Abstract: . Low-cost sensors have the potential to facilitate the exploration of air quality issues on new temporal and spatial scales. Here we evaluate a low-cost sensor quantification system for methane through its use in two different deployments. The first was a 1-month deployment along the Colorado Front Range and included sites near active oil and gas operations in the Denver-Julesburg basin. The second deployment was in an urban Los Angeles neighborhood, subject to complex mixtures of air pollution sources including oil operations. Given its role as a potent greenhouse gas, new low-cost methods for detecting and monitoring methane may aid in protecting human and environmental health. In this paper, we assess a number of linear calibration models used to convert raw sensor signals into ppm concentration values. We also examine different choices that can be made during calibration and data processing and explore cross sensitivities that impact this sensor type. The results illustrate the accuracy of the Figaro TGS 2600 sensor when methane is quantified from raw signals using the techniques described. The results also demonstrate the value of these tools for examining air quality trends and events on small spatial and temporal scales as well as their ability to characterize an area – highlighting their potential to provide preliminary data that can inform more targeted measurements or supplement existing monitoring networks.
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Methane Mitigation: Methods to Reduce Emissions, on the Path to the Paris Agreement
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References
Metal oxide gas sensors: Sensitivity and influencing factors
TL;DR: A brief review of changes of sensitivity of conductometric semiconducting metal oxide gas sensors due to the five factors: chemical components, surface-modification and microstructures of sensing layers, temperature and humidity.
2.5K
Metal Oxide Nanostructures and Their Gas Sensing Properties: A Review
TL;DR: The gas sensing properties of metal oxide nanostructures assembled by nanoparticles are reviewed in this article and the effect of doping is summarized and the perspectives ofMetal oxide gas sensor are given.
Methane leaks from North American natural gas systems
Adam R. Brandt,Garvin Heath,Eric A. Kort,Francis O'Sullivan,Gabrielle Pétron,Gabrielle Pétron,Sarah M. Jordaan,P. P. Tans,Jennifer Wilcox,Avi Gopstein,Douglas J. Arent,Douglas J. Arent,Steven C. Wofsy,N. J. Brown,R. Bradley,Galen D. Stucky,Douglas M. Eardley,Robert Harriss +17 more
TL;DR: Methane emissions from U.S. and Canadian natural gas systems appear larger than official estimates, and global atmospheric CH4 concentrations are on the rise, with the causes still poorly understood.
874
The Changing Paradigm of Air Pollution Monitoring
Emily Gibb Snyder,Timothy H. Watkins,Paul A. Solomon,Eben D. Thoma,Ronald Williams,Gayle S.W. Hagler,David Shelow,David A. Hindin,Vasu Kilaru,Peter W. Preuss +9 more
TL;DR: Air pollution monitoring paradigm is rapidly changing due to recent advances in the development of portable, lower-cost air pollution sensors reporting data in near-real time at a high-time resolution, increased computational and visualization capabilities, and wireless communication/infrastructure.
849
The use of electrochemical sensors for monitoring urban air quality in low-cost, high-density networks
M. I. Mead,Olalekan A.M. Popoola,G. Stewart,Peter Landshoff,M. Calleja,M. Hayes,José J. Baldoví,M. W. McLeod,T.F. Hodgson,J. Dicks,Alastair C. Lewis,Jeremy Cohen,Ronan Baron,John Saffell,Roderic L. Jones +14 more
TL;DR: It is shown that miniature, low-cost electrochemical gas sensors can, when suitably configured and operated, be used for parts-per-billion level studies for gases relevant to urban air quality, and that measurement networks with higher resolution are required to quantify air quality at the scales which are present in the urban environment.
820