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Eugene Island Block 330

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Journal Article
Journal: AAPG Bulletin
Published: 01 August 2002
AAPG Bulletin (2002) 86 (8): 1463–1488.
...Steven Losh; Lynn Walter; Peter Meulbroek; Anna Martini; Lawrence Cathles; Jean Whelan Abstract This study in the well-documented Pliocene-Pleistocene South Eugene Island Block 330 (SEI330) field, offshore Louisiana, unravels a complex petroleum system by evaluating both the inorganic and organic...
FIGURES | View All (22)
Journal Article
Journal: AAPG Bulletin
Published: 01 February 1999
AAPG Bulletin (1999) 83 (2): 244–276.
...Steven Losh; Lorraine Eglinton; Martin Schoell; James Wood ABSTRACT Data from sediments in and near a large growth fault adjacent to the giant South Eugene Island Block 330 field, offshore Louisiana, indicate that the fault has acted as a conduit for fluids whose flux has varied in space and time...
FIGURES | View All (21)
Journal Article
Journal: AAPG Bulletin
Published: 01 September 1998
AAPG Bulletin (1998) 82 (9): 1694–1710.
...Steven Losh Abstract The Pathfinder core, collected in the South Eugene Island Block 330 field, offshore Louisiana, provides an outstanding sample of structures associated with a major growth fault that abuts a giant oil field and that is thought to have acted as a conduit for hydrocarbon migration...
Journal Article
Journal: AAPG Bulletin
Published: 01 March 1997
AAPG Bulletin (1997) 81 (3): 380–397.
...Bruce S. Hart; David M. Sibley; Peter B. Flemings ABSTRACT The GA interval of the Eugene Island Block 330 field is the deposit of a late Pleistocene (~0.8 Ma) shelf-margin lowstand delta complex. We integrated three-dimensional (3-D) seismic, wireline log, core, and cuttings data to examine...
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Series: AAPG Studies in Geology
Published: 01 January 1996
DOI: 10.1306/St42605C3
EISBN: 9781629810829
... of the Eugene Island Block 330 Field is composed of stacked deltaic lobes, each of which consists of complex associations of distributary channels, clinoforms, and base-of-slope failure complexes. Production is from “updip” facies (including delta front and mouth bar sands) at the top of the interval...
Journal Article
Journal: AAPG Bulletin
Published: 11 December 1995
AAPG Bulletin (1995) 79 (12): 1737–1756.
...Laurel L. Alexander; Peter B. Flemings ABSTRACT The spatial and temporal distributions of reservoir sands are documented within the context of an evolving Pliocene–Pleistocene salt-withdrawal shelf minibasin. The Eugene Island Block 330 field, a giant oil and gas field in offshore Louisiana...
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Series: AAPG Memoir
Published: 01 January 1980
DOI: 10.1306/M30410C12
EISBN: 9781629811840
... Abstract The Eugene Island Block 330 field is currently the largest oil-producing field in federally owned waters of the U.S. outer continental shelf. Located about 170 mi (272 km) southwest of New Orleans, the field was discovered by the Pennzoil 1 OCS G-2115 well in March 1971, after leasing...
Journal Article
Journal: AAPG Bulletin
Published: 01 March 1998
AAPG Bulletin (1998) 82 (3): 387–411.
...Laurel L. Alexander; James W. Handschy ABSTRACT Reservoirs in the Eugene Island Block 330 (EI-330) field are believed to have been filled through a complex pattern of cross-fault spilling through juxtaposed sands, and possible vertical migration up associated growth faults. Fault-plane-section...
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Series: SEPM Gulf Coast Section Publications
Published: 01 December 2001
DOI: 10.5724/gcs.01.21.0687
EISBN: 978-0-9836096-9-8
... Abstract Porosity-depth profiles determined from density logs in numerous wells in the Eugene Island South Addition Block 330 area of the offshore Louisiana Gulf of Mexico show departures from the expected hydrostatic compaction trends at depths ranging from 900 m to 1950 m. At greater depths...
Journal Article
Journal: AAPG Bulletin
Published: 01 August 1973
AAPG Bulletin (1973) 57 (8): 1532–1541.
... Island Block 330. The most significant new pools and extensions were at Chacahoula, NW Cameron, Charenton, Bayou Des Glaise, Gibson, Orange Grove, South Melodia, and Eugene Island Block 276. Geophysical activity remained about the same as a year ago, both onshore and offshore. Leasing activity onshore...
FIGURES
Journal Article
Journal: AAPG Bulletin
Published: 01 January 2007
AAPG Bulletin (2007) 91 (1): 97–113.
... migration. The proposed models are applied to estimate the maximum amounts of hydrocarbon leakage from seismically active faults that trap hydrocarbons in the Cusiana field, Colombia, and aseismic faults at Eugene Island Block 330 field, Gulf of Mexico. Model results are grossly consistent with observed...
FIGURES | View All (8)
Series: AAPG Memoir
Published: 01 January 2001
DOI: 10.1306/M76870C13
EISBN: 9781629810645
... Abstract Uniaxial strain experiments conducted on mudstone cores from overpressured horizons in Eugene Island Block 330 (Gulf of Mexico) reveal information about consolidation state, compaction behavior, and permeability. Maximum past effective stresses for two mudstone samples were...
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Series: SEPM Gulf Coast Section Publications
Published: 01 December 1996
DOI: 10.5724/gcs.96.17.0099
EISBN: 978-0-9836097-6-6
... ABSTRACT The LF sand is the largest single producer in the Eugene Island Block 330 Field. Strong seismic amplitudes are associated with downdip portions of this sand, although the sand is interpreted to have been drained before the Shell 1992 seismic survey was shot. An integrated analysis...
Journal Article
Journal: Geology
Published: 01 January 1995
Geology (1995) 23 (1): 45–48.
...B. S. Hart; P. B. Flemings; A. Deshpande Abstract Measured pressures in Pleistocene strata of the Eugene Island block 330 area of offshore Louisiana reach approx. nine-tenths of the lithostatic pressures below 2 km depth; three-fourths of these geopressures are due to compaction disequilibrium. We...
Image
—Visualization of the migratory “plumbing network” for oil and gas in <span class="search-highlight">Eugen</span>...
Published: 01 April 1996
Figure 1 —Visualization of the migratory “plumbing network” for oil and gas in Eugene Island Block 330, Gulf of Mexico. This visuali