Spence, George D. and Hyndman, Roy D. (2001): The challenge of deep ocean drilling for natural gas hydrate

Leg/Site/Hole:
Identifier:
2002-076710
georefid

Creator:
Spence, George D.
University of Victoria, School of Earth and Ocean Sciences, Victoria, BC, Canada
author

Hyndman, Roy D.
Husky Oil Operations, Canada
author

Identification:
The challenge of deep ocean drilling for natural gas hydrate
2001
In: Srivastava, Shiri (convener), Salisbury, Matthew (convener), Enachescu, Michael (convener), Ocean drilling; successes, opportunities and challenges
Geological Association of Canada, Toronto, ON, Canada
28
4
179-186
Large reservoirs of natural gas hydrate have been sampled extensively by past DSDP, ODP, and other scientific ocean drilling. Gas hydrate is an ice-like solid consisting of gas molecules, commonly methane, trapped in a cage of water molecules. Global estimates of the methane content of natural gas hydrate are very large, potentially enormous. Such large quantities of gas hydrate could be important as a clean energy source, as a control in global climate, and as a factor in seafloor slumps and slides. Gas hydrate occurs only in water depths greater than about 600 m at temperate latitudes, but occurs on land and in shallow water in the Arctic. The formation mechanisms of gas hydrates are only partly understood. Gas hydrate appears to be formed usually by migrating fluids carrying biologically generated methane upward to regions of sufficiently low temperature and high pressure where the hydrate is stable. Quantitative aspects of this formation model need testing, however, and questions remain about the sources and sinks for methane, and the amount that can reach the atmosphere. In Canada, gas hydrates are found on most of its continental margins, notably on the continental slope off Vancouver Island and in the Mackenzie Delta-Beaufort Sea region. A drilling program off Vancouver Island would examine gas hydrates in a well-studied accretionary sedimentary wedge; such sediments appear to be the most common environment in which hydrates are found globally. Drilling for gas hydrate offshore in the Canadian Arctic, perhaps using an alternative drilling platform, would complement a current onshore Arctic gas hydrate drilling program in the permafrost environment. The Arctic land and shallow sea hydrate are important because such hydrate is especially susceptible to global climate change.
English
Coverage:Geographic coordinates:
North:70.0000
West:-135.0000East: -133.0000
South:69.0000

Economic geology, geology of energy sources; Environmental geology; aliphatic hydrocarbons; alkanes; Arctic Ocean; Arctic region; Beaufort Sea; Beaufort-Mackenzie Basin; Canada; climate change; deep drilling; Deep Sea Drilling Project; deep-sea environment; drilling; environmental effects; gas hydrates; geophysical methods; geophysical profiles; geophysical surveys; global change; global warming; hydrocarbons; Mackenzie Delta; marine environment; methane; natural gas; Northwest Territories; Ocean Drilling Program; ocean floors; organic compounds; petroleum; petroleum exploration; reservoir rocks; resistivity; seismic methods; seismic profiles; surveys; Western Canada;

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