Experiments on the ocean sequestration of fossil fuel CO2: pH measurements and hydrate formation

Abstract

Abstract We have carried out a series of in situ experiments to investigate the formation of a CO 2 hydrate (CO 2 :5.75 H 2 O) for the purpose of evaluating scenarios for ocean fossil fuel CO 2 disposal with a solid hydrate as the sequestered form. The experiments were carried out with a remotely operated vehicle in Monterey Bay at a depth of 619 m. pH measurements made in close proximity to the hydrate–seawater interface showed a wide range of values, depending upon the method of injection and the surface area of the hydrate formed. Rapid injection of liquid CO 2 into an inverted beaker to form a flocculant mass of hydrate resulted in pH initially as low as 4.5 within a few centimeters of the interface, decaying slowly over 1–2 h towards normal seawater values as dense CO 2 rich brine drained from the hydrate mass. In a second experiment, slower injection of the liquid CO 2 to produce a simple two-layer system with a near planar interface of liquid CO 2 with a thin hydrate film yielded pH values indistinguishable from the in situ ocean background level of 7.6. Both field and laboratory results now show that the dissolution rate of a mass of CO 2 hydrate in seawater is slow but finite.