Now showing items 1-4 of 4
Topographic effects on CO2, diffusion and dissolution from the seafloor
At 3000 meters depth liquid CO2 is denser than seawater and hence will be stored as a “lake” on the deep ocean floor, which is expected to gradually be dissolved in seawater. Ocean currents and turbulence will influence ...
Nær- infrarød deteksjon av avgasser fra fremtidig brenselcelle- konsept.
(The University of Bergen, 2008-06-02)
Bakgrunnen for denne oppgaven er et samarbeidsprosjekt mellom Institutt for Energiteknikk(IFE), Christian Michelsen Research (CMR) og Prototech. Prosjektet heter Zero Emission Gas Power Project, ZEG. Prosjektet innebærer ...
Hydrate Formation and CH4 Production from Natural Gas Hydrates - Emphasis on Boundary Conditions and Production Methods
(The University of Bergen, 2009-05-13)
Natural gas hydrate is a solid state of gas and water at low temperature and high pressure. Gas hydrates are known to form hydrate plugs in production line, and has thus generally been considered a problem to the oil ...
A numerical study of transport and spreading of gases from natural analogues of gas-seepage through the seafloor
Natural leakages of CO2 are reported in the literature at mid ocean ridges and CH4 seepages in hydrocarbon rich ares. These could potentially serve as natural analogues of leakages from CO2 storages. In this study we have ...