Eugene Island block 330 oil field explained

Eugene Island block 330 oil field
Country:United States
Region:Gulf of Mexico
Block:Eugen Island 313, 314 south, 330, 331, 332, 337, 338
Offonshore:offshore
Operators:Apache Corporation
Devon Energy[1]
Discovery:1971
Start Development:1971
Start Production:1972
Peak Year:1977
Peak Of Production Oil Bbl/D:95290
Peak Of Production Gas Mmcuft/D:482
Formations:Pliocene-Pleistocene sands

Eugene Island block 330 oil field is an oil field in the United States Exclusive Economic Zone in the Gulf of Mexico. It is located southwest of New Orleans, 70- off the Louisiana coast comprising six and a half leased blocks: Eugene Island 313, 314 south, 330, 331, 332, 337 and 338.[2]

History

In the outer continental shelf lease sale on December 15, 1970 were offered for lease, including Eugene Island blocks. The Block 330 area was acquired by Pennzoil (now part of Royal Dutch Shell). As the Pliocene-Pleistocene sands were considered geochemically immature and wells drilled to the north of Block 330 discovered natural gas, Pennzoil expected to discover a natural gas not oil. The oil field was discovered in March 1971 while drilling the 1 OCS G-2115 well.[2] Approximately at the same time oil was discovered by Royal Dutch Shell in the adjoining block 331.[3]

By the end of 1971, two platforms had been installed in the field. The first development well was drilled on Block 330 by Pennzoil's "A" platform in November 1971. Production started in September 1972 in the block 331. During 1972 four more platforms were installed and later the number of platforms increased to nine.[3]

From 1975 to 1980, the field was the largest producing field in the Federal outer continental shelf. Production peaked in 1977 by of liquids (crude oil and gas liquids) and per day.[2] Enhanced oil recovery operations started in August 1975. Water injection was used on blocks 331 and 314, and starting from December 1979 gas injection was used on block 330.[3]

Geology

The field is an anticlinal structure on the downthrown side of a major salt diapir associated growth fault and produces from 25 Pliocene-Pleistocene delta-front sandstone reservoirs at depths from 1290 to 3600 m.[4] The structure was located with reconnaissance reflection seismology 2D lines recorded from 1966 to 1970, coupled with well data defined lithofacies and isopach maps indicating large delta systems.[4] Relative amplitude seismic profiles reveal "prominent hydrocarbon indicators" such as bright spots and flat spots, and seismic facies analysis show shingled, oblique and sigmoid reflections typical for delta-front sandstones.[4]

Depletion rate

The oil field is best known for the controversy surrounding its depletion rate. According to a 1999 article in The Wall Street Journal:

However, Richard Heinberg provides his own figures:

The source of additional oil was analyzed as migrating through faults from deeper and older formations below the probable Jurassic and Early Cretaceous age. The oil contains biomarkers closely related to other very old oils which were long trapped in deep formations.[5]

Eugene Island 330's fame comes from its status as an unusual anomaly. Most petroleum scientists believe that the depletion profile is adequately explained by replenishment from deeper reservoirs of normal biologically derived petroleum.

Production and ownership

June 30 the cumulative production of Eugene Island 330 was of oil equivalent,[2] which is equivalent to an average of about, taking 1971 as start of production. Oil and condensate production alone totaled with a maximum daily production of in 1977.[2] Oil is exported through the Shell Pipeline Co LP operated Eugene Island Pipeline System.[6]

the owners of the block leases (numbers in parentheses) are Chevron Corporation (313), Royal Dutch Shell (331), Ecee, Inc (330), Palo Petroleum (337).[2] Arena Offshore / Chevron Corporation joint venture RIKER (338). Arena Offshore (314).

External links

Notes and References

  1. Web site: Central Shelf Operations . Energy XXI . 2010-07-05 . https://web.archive.org/web/20100118152423/http://www.energyxxi.com/central-shelf-operations.asp . 2010-01-18 . dead .
  2. Eugene Island Block 330 Field--U.S.A. Offshore Louisiana. Holland. David S.. John B. . Leedy . David R. . Lammlein . 1999 . AAPG Treatise of Petroleum Geology, Atlas of Oil and Gas Fields, Structural Traps III . . 103–143. Fig. 2. Acquisition history and current lease ownership. 11 June 2010.
  3. Eugene Island Block 330 Field — Development and Production History . Lewis . Ronald L. . Harvey J. . Dupuy Jr. . November 1983 . 35 . 11 . Journal of Petroleum Technology . . 1956–1962 . 10.2118/10003-PA . 2010-07-05. 0149-2136.
  4. Holland, D.S., Nunan, W.E., Lammlein, D.R., and Woodhams, R.L., 1980, Eugene Island Block 330 Field, Offshore Louisiana, in Giant Oil and Gas Fields of the Decade:1968-1978, AAPG Memoir 30, Halbouty, M.T., editor, Tulsa:American Association of Petroleum Geologists,, pp. 253-280.
  5. Robert Cooke, Oil Fields Are Refilling...Naturally - Sometimes Rapidly, Newsday 2002
  6. Web site: CEugene Island Pipeline System . . 2010-07-05 . https://web.archive.org/web/20110716053512/http://tariffs.shellpipeline.com/maps/Eugene_Island.swf . 2011-07-16 . dead .