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Hydroacoustic Monitoring for Gas Detection and Mapping

Explore hydroacoustic methods to quantify and map gas release, especially in bubbling seep sites and gas infrastructure. Monitor bubble activity remotely and investigate methane distribution efficiently and non-invasively.

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Hydroacoustic Monitoring for Gas Detection and Mapping

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  1. <<<<<< Why hydroacoustic • How much gas is being released, when and where • To detect and map the occurrence of bubbling seep sites, gas wells/pipelines

  2. <<<<<< Why hydroacoustic • How much gas is being released, when and where • To detect and map the occurrence of bubbling seep sites, gas wells/pipelines • With no disturbances, remotely, investigate and monitor the activity of bubble release

  3. <<<<<< Why hydroacoustic • How much gas is being released, when and where • To detect and map the occurrence of bubbling seep sites, gas wells/pipelines • With no disturbances, remotely, investigate and monitor the activity of bubble release • Target water column sampling to investigate methane distribution Yoyo CTD at Hydrate Ridge, Southern Summit

  4. <<<<<< Why hydroacoustic • How much gas is being released, when and where • To detect and map the occurrence of bubbling seep sites, gas wells/pipelines • With no disturbances, remotely, investigate and monitor the activity of bubble release • Target water column sampling to investigate methane distribution • Quantify gas fluxes quickly, with a wide coverage and remotely • Methods used: • Singlebeam echosounder systems (single/multi frequency, splitbeam) • Multibeam echosounder systems (quick spatial mapping) • SideScanSonar • Ships, lander, ROV based • Passive acoustics for flux and BSD determination

  5. <<<<<< Program Wednesday, 9 January

  6. <<<<<< Presentations Please leave your presentations here so that they can be distributed/put on the PERGAMON webpage. Announcement 1st UAC (mergend ECUA & UAM) Corfu, Greece; 23-28 June 2013 http://www.uam-conferences.org/ abstract deadline 15 January 2013 (300 words)

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