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dc.contributor.authorHaugan, Peter Mosbyeng
dc.contributor.authorAlendal, Guttormeng
dc.date.accessioned2005-09-23T08:51:35Z
dc.date.available2005-09-23T08:51:35Z
dc.date.issued2005-09-21eng
dc.PublishedJournal of Geophysical Research 2005 110 C09S14en
dc.identifier.issn0148-0227en_US
dc.identifier.urihttps://hdl.handle.net/1956/807
dc.description.abstractIf liquid CO2 is stored as a dense ‘‘lake’’ on the deep ocean floor, it is expected to dissolve in seawater. Ocean currents and turbulence can increase the net rate of CO2 release by several orders of magnitude compared to molecular diffusion. However, density stratification in the seawater created by dissolved CO2 will tend to reduce vertical mixing. A two-dimensional numerical study with a high-resolution advection-diffusion model, coupled with a general turbulence model, reveals significant modifications of the boundary layer structure above a generic CO2 lake taken to be 500 m in length and placed in a 10 km domain that is subject to specified far-field currents in the range of 0.05–0.20 m s-1. Dissolution rates of order 0.07 μmol cm-2 s-1, reaching approximately 0.5 μmol cm-2 s-1 during a benthic storm, are predicted. The friction velocity is reduced above the CO2 lake, and CO2 concentrations corresponding to excess water densities of up to 0.5 kg m-3 occur in the lower 10 m of the water column. The persistency of this low-pH, CO2-enriched water layer in weakly stratified and neutral background conditions in the model suggests that gravity current dynamics are important over considerable distances and should be considered in future larger-scale models and impact studies.en_US
dc.format.extent334886 byteseng
dc.format.mimetypeapplication/pdfeng
dc.language.isoengeng
dc.publisherAmerican Geophysical Unionen_US
dc.titleTurbulent diffusion and transport from a CO2 lake in the deep oceanen_US
dc.typeJournal article
dc.identifier.doihttps://doi.org/10.1029/2004jc002583


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