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DTSTAMP:20230726T185208Z
UID:7391E714-FED9-4C25-8781-388C1378C1A6
DTSTART;TZID=America/New_York:20230726T120000
DTEND;TZID=America/New_York:20230726T130000
DESCRIPTION:Fugitive methane emissions represent a significant contribution
  to environmental pollution and anthropogenic climate change. Methane is a
 mong the most infrared-active naturally occurring molecules and represents
  an 80 × increase in atmospheric warming potency when compared to CO2. Th
 e need for reliable and cost-efficient methane detection technology is cri
 tical to mitigating the environmental damage caused by fugitive emissions.
  Infrared hyperspectral imaging is a high capability technique suitable fo
 r the detection\, identification\, and quantification of both localized po
 int-source emissions and diffuse emissions from a dispersed source\n\nIn t
 his webinar\, Dr. Mark Norman\, Field Applications Engineer with Telops\, 
 will present recent work performed in conjunction with partner SkyCam in w
 hich methane emissions from a flare stack at a municipal wastewater treatm
 ent plant were detected\, identified\, and quantified using an airborne hy
 perspectral infrared imaging system.\n\nCo-sponsored by: Telops\n\nSpeaker
 (s): Dr. Mark L. Norman\, \n\nVirtual: https://events.vtools.ieee.org/m/36
 7850
LOCATION:Virtual: https://events.vtools.ieee.org/m/367850
ORGANIZER:lep@umich.edu
SEQUENCE:11
SUMMARY:Hyperspectral Infrared Imaging of Fugitive Methane Emissions from F
 lare Stacks
URL;VALUE=URI:https://events.vtools.ieee.org/m/367850
X-ALT-DESC:Description: <br /><p>Fugitive methane emissions represent a sig
 nificant contribution to environmental pollution and anthropogenic climate
  change. Methane is among the most infrared-active naturally occurring mol
 ecules and represents an 80 &times\; increase in atmospheric warming poten
 cy when compared to CO2. The need for reliable and cost-efficient methane 
 detection technology is critical to mitigating the environmental damage ca
 used by fugitive emissions. Infrared hyperspectral imaging is a high capab
 ility technique suitable for the detection\, identification\, and quantifi
 cation of both localized point-source emissions and diffuse emissions from
  a dispersed source</p>\n<p>In this webinar\, Dr. Mark Norman\, Field Appl
 ications Engineer with Telops\, will present recent work performed in conj
 unction with partner SkyCam in which methane emissions from a flare stack 
 at a municipal wastewater treatment plant were detected\, identified\, and
  quantified using an airborne hyperspectral infrared imaging system.</p>
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