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Session 1. Technological and Engineering challenges
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Enabling a CO2 release experiment in the North Sea – Kevin Saw, National Oceanography Centre
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An Overview of the Design, Build and Testing of the CO2 Injection Rig – Allan Spencer, Cellula Robotics
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Shallow subsurface coring with a robotic seafloor drill – Oliver Peppe, British Geological Society
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Development and deployment of a suite of autonomous in situ carbonate sensors for the STEMM-CCS gas release experiment – Samuel Monk, National Oceanography Centre
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pH optodes for CO2 leakage detection – Sergey Borisov, TU Graz
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Session 3: Understanding complexity
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What is sufficient for a “baseline” – Jerry Blackford, Plymouth Marine Laboratory
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Water column environmental baseline assessment for offshore CCS sites: analysis of field data from the Goldeneye storage complex – Mario Eposito, GEOMAR
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The pH distribution in and around a CO2 vent – Dirk der Beer, Max Planck Institute, Bremen
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Underground CO2 storage assurance - The assessment of onshore geological analogues of fluid-escape systems – Panoche Hills, California – Ben Callow, University of Southampton
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Elastic and hydromechanical properties of fractured sandstone reservoirs during and after CO2 storage – Ismael Falcon Suarez, National Oceanography Centre
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Session 6: Detection, Quantification & Qualification
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Modelling of leakage scenarios to determine impact and anomaly criteria for detection – Marius Dewar, Plymouth Marine Laboratory
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Session 9: Synthesis – the end products
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Beyond STEMM-CCS: Implications for offshore CCS and marine CO2 monitoring - Chris Pearce, National Oceanography Centre
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The STEMM-CCS online monitoring and decision support tool – Anna Lichtschlag, National Oceanography Centre
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