Cantarell Field

Coordinates: 19°45′09″N 92°30′58″W / 19.75250°N 92.51611°W / 19.75250; -92.51611
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Cantarell
Cantarell offshore rigs, 2009
CountryMexico
RegionNorth America
Offshore/onshoreOffshore
OperatorPemex
Field history
Discovery1976
Start of production1979[1]
Peak of production2004
Production
Current production of oil159,300 barrels per day (~7.938×10^6 t/a)[2]
Year of current production of oil2019
Producing formationsJurassic

Cantarell Field or Cantarell Complex is an aging supergiant offshore oil field in Mexico. It was discovered in 1976 after oil stains were noticed by a fisherman, Rudesindo Cantarell Jimenez, in 1972.[3][4] It was placed on nitrogen injection in 2000, and production peaked at 2.1 million barrels per day (330,000 m3/d) in 2004.[5] In terms of cumulative production to date, it was the largest oil field in Mexico, and one of the largest in the world. However, production has declined since 2004, falling to 158,300 barrels per day (25,200 m3/d) in 2022. In 2009 it was superseded by Ku-Maloob-Zaap as Mexico's largest oil field.[6]

Location[edit]

Cantarell is located 80 kilometres (50 mi) offshore in the Bay of Campeche. This complex comprises four major fields: Akal (by far the largest), Nohoch, Chac and Kutz. The reservoirs are formed from carbonate breccia of Late Cretaceous age, the rubble from the asteroid impact that created the Chicxulub Crater. The recently discovered Sihil field (1-15,000 million barrels) contains light oil in Jurassic strata below the other reservoirs and is generally referred to as a separate field, although its development will obviously benefit from the infrastructure already in place above it. Cantarell's oil production peaked in 2004 and has declined in subsequent years, with further decline expected in the future.[7]

Geology[edit]

The Chicxulub impactor produced the Chicxulub crater and subsequent carbonate-debris breccia, which became the oil reservoir for the fields around Villahermosa and the Bay of Campeche where the Cantarell Complex is located.[8] The porosity is 8%-12% in the reservoir at a depth of about 1500 m, which grades from being coarse-grained to fine-grained, called Unit 1 and 2 respectively, and overlain by a seal of shaly ejecta-rich layer called Unit 3.[8]

Following impact, the carbonate platform collapsed, depositing the coarse breccias, which were then overlain mixed and overlain by finer breccias from the consequent tsunamis.[8] Folding occurred in the early Miocene to Pliocene and the compression forced up Cretaceous and Upper Jurassic blocks forming the Structural trap in which hydrocarbons migrated in the Miocene.[8] There are four blocks in the Cantarell Complex, Akal, Nohoch, Chac and Kutz[9] with the Akal block underlain by a fifth block, Sihil, where oil was discovered in 1998.[10]

Production history[edit]

Year Production
in kb/d[11]
2003 2122.8
2004 2136.4
2005 2035.3
2006 1800.9
2007 1490.5
2008 1039.5
2009 684.8
2010 558.0
2011 500.7
2012 454.1
2013 439.8
2014 374.9
2015 273.4
2016 215.8
2017 176.0
2018 161.2
2019 159.3
2020 161.2
2021 160.9
2022 158.3

By 1981, the Cantarell complex was producing 1.16 million barrels per day (180,000 m3/d). However, the production rate dropped to 1 million barrels per day (160,000 m3/d) in 1995. The nitrogen injection project, including the largest nitrogen plant in the world, installed onshore at Atasta Campeche, started operating in 2000, and it increased the production rate to 1.6 million barrels per day (250,000 m3/d), to 1.9 million barrels per day (300,000 m3/d) in 2002 and to 2.1 million barrels per day (330,000 m3/d) of output in 2003, which ranked Cantarell the second fastest producing oil field in the world behind Ghawar Field in Saudi Arabia.[12] However, Cantarell had much smaller oil reserves than Ghawar, so production began to decline rapidly in the second half of the decade. Unfortunately, the nitrogen has migrated into the gas, lowering its heating value and thus, economic value, and soon will require treatment to remove the nitrogen from the gas, to be able to use the gas as a fuel.

Luis Ramírez Corzo, head of PEMEX's exploration and production division, announced on August 12, 2004 that the actual oil output from Cantarell was forecast to decline steeply from 2006 onwards, at a rate of 14% per year. In March 2006 it was reported that Cantarell had already peaked, with a second year of declining production in 2005. For 2006, the field's output declined by 13.1%, according to Jesús Reyes Heróles, the director-general of PEMEX.[13]

In July 2008, the daily production rate fell sharply by 36% to 973,668 barrels per day (155,000 m3/d) from 1.526 million barrels per day (243×10^3 m3/d) a year earlier.[14] Analysts theorize that this rapid decline is a result of production enhancement techniques causing faster short-term oil extraction at the expense of field longevity. By January 2009, oil production at Cantarell had fallen to 772,000 barrels per day (123,000 m3/d), a drop in production of 38% for the year, resulting in a drop in total Mexican oil production of 9.2%, the fifth year in a row of declining Mexican production.[6]

In 2008, Pemex expected Cantarell's decline to continue to 2012 and eventually stabilizing at an output level of around 500,000 barrels per day (80,000 m3/d).[14] By September 2009 this figure was already achieved, marking one of the most dramatic declines ever seen in the oil industry.[15] Production was now expected to stabilize at 400,000 barrels per day (60,000 m3/d). However the production declined to 408,000 barrels per day (60,000 m3/d) by April 2012. The shortfall had a negative effect on Mexico's annual government budget and sovereign-credit rating.[15] Production continued to decline and production was at 340,000 barrels per day in June 2014. Pemex planned to spend 6 billion US dollars until 2017 to stop the decline and maintain production level at around 325,000 barrels per day for another decade.[16] Production continued to decline, reaching 159,300 barrels per day in 2019.

In order to try to maintain heavy crude production in the Bay of Campeche, PEMEX was focusing its efforts on the development of the Ku-Maloob-Zaap complex in an adjacent area, which can be connected to the existing facilities of Cantarell. Ku-Maloob-Zaap complex is expected to produce 0.8 million barrels per day (130,000 m3/d) by the end of decade. In 2009, Ku-Maloob-Zaap replaced Cantarell as Mexico's most productive oil field.[6][15]

See also[edit]

References[edit]

  1. ^ PEMEX: SEC Filing: Form 20-F, Annual Report 1994, Production, p. 10
  2. ^ PEMEX: Annual Report 2018, FORM 20-F, Crude Oil Production, p. 32
  3. ^ Morton, M. Quentin (2021-12-06). "Mexico: Onshore to Offshore" (PDF). GEOExPro. GeoPublishing. p. 53. Retrieved 2022-06-21. Pemex drilled its first offshore wells in the 1950s, but the breakthrough came in 1972 when a fisherman named Rudesindo Cantarell Jimenez led Pemex geologists to a location some 50 miles off the coast in the Bay of Campeche where an oil slick had fouled his nets. Named Cantarell after the fisherman, the supergiant oil field was hailed by Mexican officials as 'el salvador del pais', the saviour of the country.
  4. ^ Murawski SA, Hollander DJ, Gilbert S, Gracia A (2019). "Chapter 2 - Deepwater Oil and Gas Production in the Gulf of Mexico and Related Global Trends". In Murawski SA, Ainsworth CH, Gilbert S, Hollander DJ, Paris CB, Schlüter M, Wetzel DL (eds.). Scenarios and Responses to Future Deep Oil Spills. Cham, CH: Springer Nature Switzerland. p. 24. ISBN 978-3-030-12963-7. In 1972 fisherman Rudesindo Cantarell Jimenez noticed the presence of oil off the coast of Campeche which eventually led in 1976 to the disconvery of the massive Cantarell oil field complex (Guzman 2013; Duncan et al. 2018; Fig. 2.1).
  5. ^ "Mexico's Pemex to Spend $6B to Maintain Output at Cantarell". www.rigzone.com. Retrieved 2018-06-13.
  6. ^ a b c Andres R. Martinez; Carlos M. Rodriguez (2009-02-22). "Pemex's Cantarell Drops at Fastest Rate in 14 Years". Bloomberg.
  7. ^ Marla Dickerson (2007-02-08). "Production decline worsens at Mexico's biggest oil field". Los Angeles Times.
  8. ^ a b c d Barton, R., Bird, K., Hernandez, J.G., Grajales-Nishimura, J.M., Murillo-Muneton, G., Herber, B., Weimer, P., Koeberl, C., Neumaier, M., Schenk, O., Stark, J., 2010, High Impact Reservoirs, Oilfield Review, Houston: Schlumberger, pp. 14-29
  9. ^ Acevedo, J.S., Giant Fields of the Southern Zone - Mexico, in Giant Oil and Gas Fields of the Decade: 1968–1978, AAPG Memoir 30, Halbouty, M.T., editor, Tulsa: American Association of Petroleum Geologists, 1980, ISBN 0891813063, p. 382
  10. ^ Lapez, J.A.A., Gonzalez, H.G.O., 2001, The Sihil Reservoir: The Fifth Block of Cantarell Field, Offshore Technology Conference
  11. ^ Data according to PEMEX' Annual Reports, SEC Form 20-F, cf. PEMEX SEC Filings
  12. ^ Tom Standing (2006-10-09). "Mexico's Cantarell field: how long will it last?". Energy Bulletin. Archived from the original on 2007-09-14. Retrieved 2007-06-14.
  13. ^ Elizabeth Malkin (2007-02-08). "Mexico: Pemex Oil Field Declining". The New York Times.
  14. ^ a b Thomas Black (2008-08-28). "Pemex Cantarell to stabilize at 500,000 Barrels a Day". Bloomberg.
  15. ^ a b c David Luhnow (2009-09-16). "Mexico's fading oil output squeezes exports, spending". Dow Jones Newswires. Rig Zone. Retrieved 2013-01-11.
  16. ^ "Mexico's Pemex to Spend $6B to Maintain Output at Cantarell". Rigzone. Retrieved 2020-11-10.

External links[edit]

19°45′09″N 92°30′58″W / 19.75250°N 92.51611°W / 19.75250; -92.51611