Flemings, Peter B. et al. (2003): Critical pressure and multiphase flow in Blake Ridge gas hydrates

Leg/Site/Hole:
ODP 164
ODP 164 997
Identifier:
2004-003402
georefid
10.1130/G19863.1
doi
Creator:
Flemings, Peter B.
Pennsylvania State University, Department of Geosciences, University Park, PA, United States
author
Liu, Xiaoli
U. S. Geological Survey, United States
author
Winters, William J.
author
Identification:
Critical pressure and multiphase flow in Blake Ridge gas hydrates
2003
Geology (Boulder)
Geological Society of America (GSA), Boulder, CO, United States
31
12
1057-1060
We use core porosity, consolidation experiments, pressure core sampler data, and capillary pressure measurements to predict water pressures that are 70% of the lithostatic stress, and gas pressures that equal the lithostatic stress beneath the methane hydrate layer at Ocean Drilling Program Site 997, Blake Ridge, offshore North Carolina. A 29-m-thick interconnected free-gas column is trapped beneath the low-permeability hydrate layer. We propose that lithostatic gas pressure is dilating fractures and gas is migrating through the methane hydrate layer. Overpressured gas and water within methane hydrate reservoirs limit the amount of free gas trapped and may rapidly export methane to the seafloor.
English
Serial
Coverage:Geographic coordinates:
North:31.5035
West:-75.2807East: -75.2807
South:31.5035
Economic geology, geology of energy sources; Oceanography; aliphatic hydrocarbons; alkanes; Atlantic Ocean; Blake-Bahama Outer Ridge; continental slope; cores; fractures; gas hydrates; gas seeps; hydrocarbons; Leg 164; marine sediments; methane; migration; natural gas; North Atlantic; North Carolina; Ocean Drilling Program; ocean floors; ODP Site 997; organic compounds; overpressure; permeability; petroleum; porosity; pressure; resources; sediments; stability; United States;
.