USGS science for a changing world

This final report to the Department of Energy for Task DE-AT26-97FT34343 covers the period from 1997 to April, 2005 and summarizes the larger research accomplishments, which can be divided in field and laboratory experiments. The geophysical and sampling field programs include 5 experiments conducte...

Full description

Bibliographic Details
Main Author: Deborah R. Hutchinson
Language:unknown
Published: 2008
Subjects:
02 PETROLEUM
03 NATURAL GAS
CONTINENTAL SLOPE
CRYOGENICS
DRILLING
ELECTRON MICROSCOPES
GAS HYDRATES
GRAIN SIZE
GULF OF MEXICO
HYDRATES
HYDROCARBONS
METHANE
MIXTURES
PETROLEUM
PHYSICAL PROPERTIES
SEDIMENTS
SITE CHARACTERIZATION
STABILITY
TESTING
THERMODYNAMIC PROPERTIES
WATER
Methane hydrate
Online Access:http://www.osti.gov/servlets/purl/887320
https://www.osti.gov/biblio/887320
https://doi.org/10.2172/887320
Description
Summary:This final report to the Department of Energy for Task DE-AT26-97FT34343 covers the period from 1997 to April, 2005 and summarizes the larger research accomplishments, which can be divided in field and laboratory experiments. The geophysical and sampling field programs include 5 experiments conducted between 1998 and 2003 in the Gulf of Mexico (four cruises) and on the Blake Ridge (one cruise). Significant results from the Gulf of Mexico include advancing knowledge of gas hydrate as a potential hazard to drilling at a time when petroleum exploration and production move into deeper water on the continental slope. Anomalous bright reflections called high-reflectivity zones (HRZ's) were identified as possible seismic indicators of gas hydrate. Subsequent sampling through coring identified how methane flux changes from vent regions into mini-basins, and could explain the lack of a known Bottom Simulating Reflection (BSR) in much of the Gulf. In conjunction with the Chevron Gulf of Mexico JIP project, two site surveys were run to characterize gas hydrate prior to drilling in 2005, including detailed analysis of a BSR reflection at one of the sites. The one cruise to the Blake Ridge collected core samples to test the origin and age of the Blake Ridge collapse feature. While the cruise results were equivocal, they results raised new questions about the timing of methane release from hydrate in this well-studied natural laboratory field site. These field programs, particularly in the Gulf of Mexico, helped further DOE goals of understanding gas hydrates in areas where deep-water drilling and production were likely to penetrate the gas hydrate stability zone. Laboratory experiments were generally integrated with field studies but addressed specific questions about methane hydrate behavior and properties. Studies in the Gas Hydrate and Sediment Testing Laboratory Instrument (GHASTLI) performed some of the first physical property measurements on hydrate-sediment mixtures at simulated in-situ temperatures and pressures. ...

Similar Items