fbpx
Wikipedia

Blowout (well drilling)

February 16, 2024

A blowout is the uncontrolled release of crude oil and/or natural gas from an oil well or gas well after pressure control systems have failed.[1] Modern wells have blowout preventers intended to prevent such an occurrence. An accidental spark during a blowout can lead to a catastrophic oil or gas fire.

The Lucas Gusher at Spindletop, Texas (1901)

Prior to the advent of pressure control equipment in the 1920s, the uncontrolled release of oil and gas from a well while drilling was common and was known as an oil gusher, gusher or wild well.

History edit

Gushers were an icon of oil exploration during the late 19th and early 20th centuries. During that era, the simple drilling techniques, such as cable-tool drilling, and the lack of blowout preventers meant that drillers could not control high-pressure reservoirs. When these high-pressure zones were breached, the oil or natural gas would travel up the well at a high rate, forcing out the drill string and creating a gusher. A well which began as a gusher was said to have "blown in": for instance, the Lakeview Gusher blew in in 1910. These uncapped wells could produce large amounts of oil, often shooting 200 feet (61 m) or higher into the air.[2] A blowout primarily composed of natural gas was known as a gas gusher.

Despite being symbols of new-found wealth, gushers were dangerous and wasteful. They killed workmen involved in drilling, destroyed equipment, and coated the landscape with thousands of barrels of oil; additionally, the explosive concussion released by the well when it pierces an oil/gas reservoir has been responsible for a number of oilmen losing their hearing entirely; standing too near to the drilling rig at the moment it drills into the oil reservoir is extremely hazardous. The impact on wildlife is very hard to quantify, but can only be estimated to be mild in the most optimistic models—realistically, the ecological impact is estimated by scientists across the ideological spectrum to be severe, profound, and lasting.[3]

To complicate matters further, the free flowing oil was—and is—in danger of igniting.[4] One dramatic account of a blowout and fire reads,

With a roar like a hundred express trains racing across the countryside, the well blew out, spewing oil in all directions. The derrick simply evaporated. Casings wilted like lettuce out of water, as heavy machinery writhed and twisted into grotesque shapes in the blazing inferno.[5]

The development of rotary drilling techniques where the density of the drilling fluid is sufficient to overcome the downhole pressure of a newly penetrated zone meant that gushers became avoidable. If however the fluid density was not adequate or fluids were lost to the formation, then there was still a significant risk of a well blowout.

In 1924 the first successful blowout preventer was brought to market.[6] The BOP valve affixed to the wellhead could be closed in the event of drilling into a high pressure zone, and the well fluids contained. Well control techniques could be used to regain control of the well. As the technology developed, blowout preventers became standard equipment, and gushers became a thing of the past.

In the modern petroleum industry, uncontrollable wells became known as blowouts and are comparatively rare. There has been significant improvement in technology, well control techniques, and personnel training which has helped to prevent their occurring.[1] From 1976 to 1981, 21 blowout reports are available.[1]

Notable gushers edit

  • A blowout in 1815 resulted from an attempt to drill for salt rather than for oil. Joseph Eichar and his team were digging west of the town of Wooster, Ohio, US along Killbuck Creek, when they struck oil. In a written retelling by Eichar's daughter, Eleanor, the strike produced "a spontaneous outburst, which shot up high as the tops of the highest trees!"[7]
  • Oil drillers struck a number of gushers near Oil City, Pennsylvania, US in 1861. The most famous was the Little & Merrick well, which began gushing oil on 17 April 1861. The spectacle of the fountain of oil flowing out at about 3,000 barrels (480 m3) per day had drawn about 150 spectators by the time an hour later when the oil gusher burst into flames, raining fire down on the oil-soaked onlookers. Thirty people died. Other early gushers in northwest Pennsylvania were the Phillips #2 (4,000 barrels (640 m3) per day) in September 1861, and the Woodford well (3,000 barrels (480 m3) per day) in December 1861.[8]
  • The Shaw Gusher in Oil Springs, Ontario, was Canada's first oil gusher. On January 16, 1862, it shot oil from over 60 metres (200 ft) below ground to above the treetops at a rate of 3,000 barrels (480 m3) per day, triggering the oil boom in Lambton County.[9]
  • Lucas Gusher at Spindletop in Beaumont, Texas, US in 1901 flowed at 100,000 barrels (16,000 m3) per day at its peak, but soon slowed and was capped within nine days. The well tripled U.S. oil production overnight and marked the start of the Texas oil industry.[10][11]
  • Masjed Soleiman, Iran, in 1908 marked the first major oil strike recorded in the Middle East.[12]
  • Dos Bocas in the State of Veracruz, Mexico, was a famous 1908 Mexican blowout that formed a large crater. It leaked oil from the main reservoir for many years, continuing even after 1938 (when Pemex nationalized the Mexican oil industry).
  • Lakeview Gusher on the Midway-Sunset Oil Field in Kern County, California, US of 1910 is believed to be the largest-ever U.S. gusher. At its peak, more than 100,000 barrels (16,000 m3) of oil per day flowed out, reaching as high as 200 feet (61 m) in the air. It remained uncapped for 18 months, spilling over 9 million barrels (1,400,000 m3) of oil, less than half of which was recovered.[2]
  • A short-lived gusher at Alamitos #1 in Signal Hill, California, US in 1921 marked the discovery of the Long Beach Oil Field, one of the most productive oil fields in the world.[13]
  • The Barroso 2 well in Cabimas, Venezuela, in December 1922 flowed at around 100,000 barrels (16,000 m3) per day for nine days, plus a large amount of natural gas.[14]
  • Baba Gurgur near Kirkuk, Iraq, an oilfield known since antiquity, erupted at a rate of 95,000 barrels (15,100 m3) a day in 1927.[15]
  • The Yates #30-A in Pecos County, Texas, US gushing 80 feet through the fifteen-inch casing, produced a world record 204,682 barrels of oil a day from a depth of 1,070 feet on 23 September 1929.[16]
  • The Wild Mary Sudik gusher in Oklahoma City, Oklahoma, US in 1930 flowed at a rate of 72,000 barrels (11,400 m3) per day.[17]
  • The Daisy Bradford gusher in 1930 marked the discovery of the East Texas Oil Field, the largest oilfield in the contiguous United States.[18]
  • The largest known 'wildcat' oil gusher blew near Qom, Iran, on 26 August 1956. The uncontrolled oil gushed to a height of 52 m (171 ft), at a rate of 120,000 barrels (19,000 m3) per day. The gusher was closed after 90 days' work by Bagher Mostofi and Myron Kinley (USA).[19]
  • On October 17, 1982, a sour gas well Amoco Dome Brazeau River, 13-12-48-12, being drilled 20 km west of Lodgepole, Alberta blew out. The burning well was finally capped 67 days later by the Texas well-control company, Boots & Coots.
  • One of the most troublesome gushers happened on 23 June 1985, at well #37 at the Tengiz field in Atyrau, Kazakh SSR, Soviet Union, where the 4,209-metre deep well blew out and the 200-metre high gusher self-ignited two days later. Oil pressure up to 800 atm and high hydrogen sulfide content had led to the gusher being capped only on 27 July 1986. The total volume of erupted material measured at 4.3 million metric tons of oil and 1.7 billion m³ of natural gas, and the burning gusher resulted in 890 tons of various mercaptans and more than 900,000 tons of soot released into the atmosphere.[20]
  • Deepwater Horizon explosion: The largest underwater blowout in U.S. history occurred on 20 April 2010, in the Gulf of Mexico at the Macondo Prospect oil field. The blowout caused the explosion of the Deepwater Horizon, a mobile offshore drilling platform owned by Transocean and under lease to BP at the time of the blowout. While the exact volume of oil spilled is unknown, as of June 3, 2010, the United States Geological Survey Flow Rate Technical Group has placed the estimate at between 35,000 to 60,000 barrels (5,600 to 9,500 m3) of crude oil per day.[21][needs update]

Cause of blowouts edit

Reservoir pressure edit

See also: Petroleum formation
 
A petroleum trap. An irregularity (the trap) in a layer of impermeable rocks (the seal) retains upward-flowing petroleum, forming a reservoir.

Petroleum or crude oil is a naturally occurring, flammable liquid consisting of a complex mixture of hydrocarbons of various molecular weights, and other organic compounds, found in geologic formations beneath the Earth's surface. Because most hydrocarbons are lighter than rock or water, they often migrate upward and occasionally laterally through adjacent rock layers until either reaching the surface or becoming trapped within porous rocks (known as reservoirs) by impermeable rocks above. When hydrocarbons are concentrated in a trap, an oil field forms, from which the liquid can be extracted by drilling and pumping. The downhole pressure in the rock structures changes depending upon the depth and the characteristics of the source rock. Natural gas (mostly methane) may be present also, usually above the oil within the reservoir, but sometimes dissolved in the oil at reservoir pressure and temperature. Dissolved gas typically comes out of solution as free gas as the pressure is reduced either under controlled production operations or in a kick, or in an uncontrolled blowout. The hydrocarbon in some reservoirs may be essentially all natural gas.

Formation kick edit

The downhole fluid pressures are controlled in modern wells through the balancing of the hydrostatic pressure provided by the mud column. Should the balance of the drilling mud pressure be incorrect (i.e., the mud pressure gradient is less than the formation pore pressure gradient), then formation fluids (oil, natural gas, and/or water) can begin to flow into the wellbore and up the annulus (the space between the outside of the drill string and the wall of the open hole or the inside of the casing), and/or inside the drill pipe. This is commonly called a kick. Ideally, mechanical barriers such as blowout preventers (BOPs) can be closed to isolate the well while the hydrostatic balance is regained through circulation of fluids in the well. But if the well is not shut in (common term for the closing of the blow-out preventer), a kick can quickly escalate into a blowout when the formation fluids reach the surface, especially when the influx contains gas that expands rapidly with the reduced pressure as it flows up the wellbore, further decreasing the effective weight of the fluid.

Early warning signs of an impending well kick while drilling are:

  • Sudden change in drilling rate;
  • Reduction in drillpipe weight;
  • Change in pump pressure;
  • Change in drilling fluid return rate.

Other warning signs during the drilling operation are:

  • Returning mud "cut" by (i.e., contaminated by) gas, oil or water;
  • Connection gases, high background gas units, and high bottoms-up gas units detected in the mudlogging unit.[22]

The primary means of detecting a kick while drilling is a relative change in the circulation rate back up to the surface into the mud pits. The drilling crew or mud engineer keeps track of the level in the mud pits and closely monitors the rate of mud returns versus the rate that is being pumped down the drill pipe. Upon encountering a zone of higher pressure than is being exerted by the hydrostatic head of the drilling mud (including the small additional frictional head while circulating) at the bit, an increase in mud return rate would be noticed as the formation fluid influx blends in with the circulating drilling mud. Conversely, if the rate of returns is slower than expected, it means that a certain amount of the mud is being lost to a thief zone somewhere below the last casing shoe. This does not necessarily result in a kick (and may never become one); however, a drop in the mud level might allow influx of formation fluids from other zones if the hydrostatic head is reduced to less than that of a full column of mud.[citation needed]

Well control edit

The first response to detecting a kick would be to isolate the wellbore from the surface by activating the blow-out preventers and closing in the well. Then the drilling crew would attempt to circulate in a heavier kill fluid to increase the hydrostatic pressure (sometimes with the assistance of a well control company). In the process, the influx fluids will be slowly circulated out in a controlled manner, taking care not to allow any gas to accelerate up the wellbore too quickly by controlling casing pressure with chokes on a predetermined schedule.

This effect will be minor if the influx fluid is mainly salt water. And with an oil-based drilling fluid it can be masked in the early stages of controlling a kick because gas influx may dissolve into the oil under pressure at depth, only to come out of solution and expand rather rapidly as the influx nears the surface. Once all the contaminant has been circulated out, the shut-in casing pressure should have reached zero.[citation needed]

Capping stacks are used for controlling blowouts. The cap is an open valve that is closed after bolted on.[23]

Types of blowouts edit

 
Ixtoc I oil well blowout

Well blowouts can occur during the drilling phase, during well testing, during well completion, during production, or during workover activities.[1]

Surface blowouts edit

Blowouts can eject the drill string out of the well, and the force of the escaping fluid can be strong enough to damage the drilling rig. In addition to oil, the output of a well blowout might include natural gas, water, drilling fluid, mud, sand, rocks, and other substances.

Blowouts will often be ignited from sparks from rocks being ejected, or simply from heat generated by friction. A well control company then will need to extinguish the well fire or cap the well, and replace the casing head and other surface equipment. If the flowing gas contains poisonous hydrogen sulfide, the oil operator might decide to ignite the stream to convert this to less hazardous substances.[citation needed]

Sometimes blowouts can be so forceful that they cannot be directly brought under control from the surface, particularly if there is so much energy in the flowing zone that it does not deplete significantly over time. In such cases, other wells (called relief wells) may be drilled to intersect the well or pocket, in order to allow kill-weight fluids to be introduced at depth. When first drilled in the 1930s relief wells were drilled to inject water into the main drill well hole.[24] Contrary to what might be inferred from the term, such wells generally are not used to help relieve pressure using multiple outlets from the blowout zone.

Subsea blowouts edit

 
Macondo-1 well blowout on the Deepwater Horizon rig, 21 April 2010

The two main causes of a subsea blowout are equipment failures and imbalances with encountered subsurface reservoir pressure.[25] Subsea wells have pressure control equipment located on the seabed or between the riser pipe and drilling platform. Blowout preventers (BOPs) are the primary safety devices designed to maintain control of geologically driven well pressures. They contain hydraulic-powered cut-off mechanisms to stop the flow of hydrocarbons in the event of a loss of well control.[26]

Even with blowout prevention equipment and processes in place, operators must be prepared to respond to a blowout should one occur. Before drilling a well, a detailed well construction design plan, an Oil Spill Response Plan as well as a Well Containment Plan must be submitted, reviewed and approved by BSEE and is contingent upon access to adequate well containment resources in accordance to NTL 2010-N10.[27]

The Deepwater Horizon well blowout in the Gulf of Mexico in April 2010 occurred at a 5,000 feet (1,500 m) water depth.[28] Current blowout response capabilities in the U.S. Gulf of Mexico meet capture and process rates of 130,000 barrels of fluid per day and a gas handling capacity of 220 million cubic feet per day at depths through 10,000 feet.[29]

Underground blowouts edit

An underground blowout is a special situation where fluids from high pressure zones flow uncontrolled to lower pressure zones within the wellbore. Usually this is from deeper higher pressure zones to shallower lower pressure formations. There may be no escaping fluid flow at the wellhead. However, the formation(s) receiving the influx can become overpressured, a possibility that future drilling plans in the vicinity must consider.[citation needed]

Blowout control companies edit

Myron M. Kinley was a pioneer in fighting oil well fires and blowouts. He developed many patents and designs for the tools and techniques of oil firefighting. His father, Karl T. Kinley, attempted to extinguish an oil well fire with the help of a massive explosion—a method still in common use for fighting oil fires. Myron and Karl Kinley first successfully used explosives to extinguish an oil well fire in 1913.[30] Kinley would later form the M. M. Kinley Company in 1923.[30] Asger "Boots" Hansen and Edward Owen "Coots" Matthews also begin their careers under Kinley.

Paul N. "Red" Adair joined the M. M. Kinley Company in 1946, and worked 14 years with Myron Kinley before starting his own company, Red Adair Co., Inc., in 1959.

Red Adair Co. has helped in controlling offshore blowouts, including:

The 1968 American film, Hellfighters, which starred John Wayne, is about a group of oil well firefighters, based loosely on Adair's life; Adair, Hansen, and Matthews served as technical advisors on the film.

In 1994, Adair retired and sold his company to Global Industries. Management of Adair's company left and created International Well Control (IWC). In 1997, they would buy the company Boots & Coots International Well Control, Inc., which was founded by Hansen and Matthews in 1978.

Methods of quenching blowouts edit

Subsea Well Containment edit

 
Government Accountability Office diagram showing subsea well containment operations

After the Macondo-1 blowout on the Deepwater Horizon, the offshore industry collaborated with government regulators to develop a framework to respond to future subsea incidents. As a result, all energy companies operating in the deep-water U.S. Gulf of Mexico must submit an OPA 90 required Oil Spill Response Plan with the addition of a Regional Containment Demonstration Plan prior to any drilling activity.[32] In the event of a subsea blowout, these plans are immediately activated, drawing on some of the equipment and processes effectively used to contain the Deepwater Horizon well as others that have been developed in its aftermath.

In order to regain control of a subsea well, the Responsible Party would first secure the safety of all personnel on board the rig and then begin a detailed evaluation of the incident site. Remotely operated underwater vehicles (ROVs) would be dispatched to inspect the condition of the wellhead, Blowout Preventer (BOP) and other subsea well equipment. The debris removal process would begin immediately to provide clear access for a capping stack.

Once lowered and latched on the wellhead, a capping stack uses stored hydraulic pressure to close a hydraulic ram and stop the flow of hydrocarbons.[33] If shutting in the well could introduce unstable geological conditions in the wellbore, a cap and flow procedure would be used to contain hydrocarbons and safely transport them to a surface vessel.[34]

The Responsible Party works in collaboration with BSEE and the United States Coast Guard to oversee response efforts, including source control, recovering discharged oil and mitigating environmental impact.[35]

Several not-for-profit organizations provide a solution to effectively contain a subsea blowout. HWCG LLC and Marine Well Containment Company operate within the U.S. Gulf of Mexico[36] waters, while cooperatives like Oil Spill Response Limited offer support for international operations.

Use of nuclear explosions edit

On Sep. 30, 1966, the Soviet Union experienced blowouts on five natural gas wells in Urta-Bulak, an area about 80 kilometers from Bukhara, Uzbekistan. It was claimed in Komsomoloskaya Pravda that after years of burning uncontrollably they were able to stop them entirely.[37] The Soviets lowered a specially made 30 kiloton nuclear physics package into a 6-kilometre (20,000 ft) borehole drilled 25 to 50 metres (82 to 164 ft) away from the original (rapidly leaking) well. A nuclear explosive was deemed necessary because conventional explosives both lacked the necessary power and would also require a great deal more space underground. When the device was detonated, it crushed the original pipe that was carrying the gas from the deep reservoir to the surface and vitrified the surrounding rock. This caused the leak and fire at the surface to cease within approximately one minute of the explosion, and proved to be a permanent solution. An attempt on a similar well was not as successful. Other tests were for such experiments as oil extraction enhancement (Stavropol, 1969) and the creation of gas storage reservoirs (Orenburg, 1970).[38]

Notable offshore well blowouts edit

Data from industry information.[1][39]

Year Rig Name Rig Owner Type Damage / details
1955 S-44 Chevron Corporation Sub Recessed pontoons Blowout and fire. Returned to service.
1959 C. T. Thornton Reading & Bates Jackup Blowout and fire damage.
1964 C. P. Baker Reading & Bates Drill barge Blowout in Gulf of Mexico, vessel capsized, 22 killed.
1965 Trion Royal Dutch Shell Jackup Destroyed by blowout.
1965 Paguro SNAM Jackup Destroyed by blowout and fire.
1968 Little Bob Coral Jackup Blowout and fire, killed 7.
1969 Wodeco III Floor drilling Drilling barge Blowout
1969 Sedco 135G Sedco Inc Semi-submersible Blowout damage
1969 Rimrick Tidelands ODECO Submersible Blowout in Gulf of Mexico
1970 Stormdrill III Storm Drilling Jackup Blowout and fire damage.
1970 Discoverer III Offshore Co. Drillship Blowout (S. China Seas)
1971 Big John Atwood Oceanics Drill barge Blowout and fire.
1971 Wodeco II Floor Drilling Drill barge Blowout and fire off Peru, 7 killed.[citation needed]
1972 J. Storm II Marine Drilling Co. Jackup Blowout in Gulf of Mexico
1972 M. G. Hulme Reading & Bates Jackup Blowout and capsize in Java Sea.
1972 Rig 20 Transworld Drilling Jackup Blowout in Gulf of Martaban.
1973 Mariner I Santa Fe Drilling Semi-sub Blowout off Trinidad, 3 killed.
1975 Mariner II Santa Fe Drilling Semi-submersible Lost BOP during blowout.
1975 J. Storm II Marine Drilling Co. Jackup Blowout in Gulf of Mexico.[citation needed]
1976 Petrobras III Petrobras Jackup No info.
1976 W. D. Kent Reading & Bates Jackup Damage while drilling relief well.[citation needed]
1977 Maersk Explorer Maersk Drilling Jackup Blowout and fire in North Sea[citation needed]
1977 Ekofisk Bravo Phillips Petroleum Platform Blowout during well workover.[40]
1978 Scan Bay Scan Drilling Jackup Blowout and fire in the Persion Gulf.[citation needed]
1979 Salenergy II Salen Offshore Jackup Blowout in Gulf of Mexico
1979 Sedco 135 Sedco Drilling Semi-submersible Blowout and fire in Bay of Campeche Ixtoc I well.[41]
1980 Sedco 135C Sedco Drilling Semi-submersible Blowout and fire of Nigeria.
1980 Discoverer 534 Offshore Co. Drillship Gas escape caught fire.[citation needed]
1980 Ron Tappmeyer Reading & Bates Jackup Blowout in Persian Gulf, 5 killed.[citation needed]
1980 Nanhai II People's Republic of China Jackup Blowout of Hainan Island.[citation needed]
1980 Maersk Endurer Maersk Drilling Jackup Blowout in Red Sea, 2 killed.[citation needed]
1980 Ocean King ODECO Jackup Blowout and fire in Gulf of Mexico, 5 killed.[42]
1980 Marlin 14 Marlin Drilling Jackup Blowout in Gulf of Mexico[citation needed]
1981 Penrod 50 Penrod Drilling Submersible Blowout and fire in Gulf of Mexico.[citation needed]
1984 Plataforma Central de Enchova Petrobras fixed platform Blowout and fire in Campos Basin, Rio de Janeiro, Brazil, 37 fatalities.
1985 West Vanguard Smedvig Semi-submersible Shallow gas blowout and fire in Norwegian sea, 1 fatality.
1981 Petromar V Petromar Drillship Gas blowout and capsize in S. China seas.[citation needed]
1983 Bull Run Atwood Oceanics Tender Oil and gas blowout Dubai, 3 fatalities.
1988 Ocean Odyssey Diamond Offshore Drilling Semi-submersible Gas blowout at BOP and fire in the UK North Sea, 1 killed.
1988 Plataforma Central de Enchova Petrobras fixed platform Blowout and fire in Campos Basin, Rio de Janeiro, Brazil, no fatality, platform entirely destroyed.
1989 Al Baz Santa Fe Jackup Shallow gas blowout and fire in Nigeria, 5 killed.[43]
1993 M. Naqib Khalid Naqib Co. Naqib Drilling fire and explosion. Returned to service.
1993 Actinia Transocean Semi-submersible Sub-sea blowout in Vietnam.[44]
2001 Ensco 51 Ensco Jackup Gas blowout and fire, Gulf of Mexico, no casualties[45]
2002 Arabdrill 19 Arabian Drilling Co. Jackup Structural collapse, blowout, fire and sinking.[46]
2004 Adriatic IV Global Santa Fe Jackup Blowout and fire at Temsah platform, Mediterranean Sea[47]
2007 Usumacinta PEMEX Jackup Storm forced rig to move, causing well blowout on Kab 101 platform, 22 killed.[48]
2009 West Atlas / Montara Seadrill Jackup / Platform Blowout and fire on rig and platform in Australia.[49]
2010 Deepwater Horizon Transocean Semi-submersible Blowout and fire on the rig, subsea well blowout, killed 11 in explosion.
2010 Vermilion Block 380 Mariner Energy Platform Blowout and fire, 13 survivors, 1 injured.[50][51]
2012 KS Endeavour KS Energy Services Jack-Up Blowout and fire on the rig, collapsed, killed 2 in explosion.
2012 Elgin platform Total Platform Blowout and prolonged sour gas release, no injuries.

See also edit

References edit

  1. ^ a b c d e 'All About Blowout', R. Westergaard, Norwegian Oil Review, 1987 ISBN 82-991533-0-1
  2. ^ a b "www.sjgs.com". www.sjgs.com. from the original on 2006-10-19. Retrieved 2016-01-30.
  3. ^ Walsh, Bryan (2010-05-19). . Time. Archived from the original on June 29, 2010. Retrieved June 30, 2010.
  4. ^ "Hughes McKie Oil Well Explosion". Rootsweb.com. 1923-05-08. from the original on 2008-02-25. Retrieved 2016-01-30.
  5. ^ "Ending Oil Gushers – BOP |". Aoghs.org. Archived from the original on 2016-01-31. Retrieved 2016-01-30.
  6. ^ "Engineering History". Asme.org. 1905-03-10. from the original on 2010-12-26. Retrieved 2016-01-30.
  7. ^ Douglass, Ben (1878). "Chapter XVI". History of Wayne County, Ohio, from the Days of the First Settlers to the Present Time. Indianapolis, Ind.: Robert Douglass, publisher. pp. 233–235. OCLC 4721800. Retrieved 2013-07-16. One of the greatest obstacles they met with when boring was the striking a strong vein of oil, a spontaneous outburst, which shot up high as the tops of the highest trees!
  8. ^ The Derrick's Hand-Book of Petroleum (Oil City, Penn.: Derrick Publishing, 1898) 20–24.
  9. ^ . The Village of Oil Springs. Archived from the original on 2009-12-06. Retrieved 2011-02-23.
  10. ^ "www.sjgs.com". www.sjgs.com. from the original on 2016-02-02. Retrieved 2016-01-30.
  11. ^ Wooster, Robert; Sanders, Christine Moor: Spindletop Oilfield from the Handbook of Texas Online. Retrieved October 18, 2009., Texas State Historical Association
  12. ^ Ian Ellis. "May 26 – Today in Science History – Scientists born on May 26th, died, and events". Todayinsci.com. from the original on 2015-05-29. Retrieved 2016-01-30.
  13. ^ . Archived from the original on 2007-09-29. Retrieved 2010-05-18.
  14. ^ http://www.propuestas.reacciun.ve/Servidor_Tematico_Petroleo/documentos_articulos6.html#petroleo7[permanent dead link]
  15. ^ . Archived from the original on 2009-05-24. Retrieved 2010-05-18.
  16. ^ Rundell, Walter.p (1982). Oil in West Texas and New Mexico : a pictorial history of the Permian Basin (1st ed.). College Station: Published for the Permian Basin Petroleum Museum Library, and Hall of Fame, Midland, Texas, by Texas A & M University Press. p. 89. ISBN 0-89096-125-5. OCLC 8110608.
  17. ^ Whipple, Tom (2005-03-15). . Energybulletin.net. Archived from the original on 2008-01-20. Retrieved 2016-01-30.
  18. ^ . Easttexasoilmuseum.com. 1930-10-03. Archived from the original on 2016-02-08. Retrieved 2016-01-30.
  19. ^ Norris Mcwhirter; Donald McFarlan (1989). the Guinness Book of Records 1990. Guinness Publishing Ltd. ISBN 978-0-85112-341-7. from the original on 2018-05-03.
  20. ^ Christopher Pala (2001-10-23). . Vol. 82, no. 715. The St. Petersburg Times. Archived from the original on 2013-12-28. Retrieved 2009-10-12.
  21. ^ "Oil estimate raised to 35,000–60,000 barrels a day". CNN. 2010-06-15. from the original on 2010-06-16. Retrieved 2010-06-15.
  22. ^ Grace, R: Blowout and Well Control Handbook, p. 42. Gulf Professional Publishing, 2003
  23. ^ "Blowout Control, Part 10 – Surface Intervention Methods". Jwco.com. from the original on 2016-02-03. Retrieved 2016-01-30.
  24. ^ "Wild Oil Well Tamed by Scientific Trick" Popular Mechanics, July 1934 2018-05-03 at the Wayback Machine
  25. ^ "How Does Subsea Well Containment and Incident Response Work?". Rigzone. from the original on 2015-04-18.
  26. ^ "Drilling Blowout Preventers". United States Department of Labor. from the original on 2015-06-30.
  27. ^ . BSEE.gov. US Department of the Interior Bureau of Ocean Energy Management, Regulation and Enforcement. Archived from the original on 2015-09-30.
  28. ^ "Macondo Prospect, Gulf of Mexico, United States of America". Offshore Technology. from the original on 2012-04-26.
  29. ^ . HWCG.org. Archived from the original on 2016-03-04. Retrieved 2015-09-09.
  30. ^ a b Boots & Coots History Page : . Archived from the original on 2010-05-26. Retrieved 2010-05-21.
  31. ^ . www.redadair.com. Archived from the original on 17 July 2008. Retrieved 3 May 2018.
  32. ^ (PDF). BSEE.gov. Bureau of Safety and Environmental Enforcement. Archived from the original (PDF) on 2016-03-05.
  33. ^ Madrid, Mauricio; Matson, Anthony (2014). "How Offshore Capping Stacks Work" (PDF). Society of Petroleum Engineers: The Way Ahead. 10 (1). (PDF) from the original on 2015-11-29.
  34. ^ "How Does Subsea Well Containment and Incident Response Work?". Rigzone.com. Rigzone. from the original on 2015-09-09.
  35. ^ . BSEE/USCG. Archived from the original on 2015-04-25.
  36. ^ "Deepwater Horizon Spurs Development of Spill Prevention Systems". Rigzone. April 20, 2011. from the original on September 8, 2015.
  37. ^ "Google Translate". Komsomoloskaya Pravda. 3 May 2010. Retrieved 3 May 2018.
  38. ^ CineGraphic (4 July 2009). "An Atomic Bomb will stop the Gulf Oil Leak". from the original on 7 November 2017. Retrieved 3 May 2018 – via YouTube.
  39. ^ Rig disaster Website : . Archived from the original on 2014-12-28. Retrieved 2013-04-05.
  40. ^ Oil Rig Disasters Website : . Archived from the original on 2010-12-03. Retrieved 2010-05-23.
  41. ^ "Matter of Sedco, Inc., 543 F. Supp. 561 (S.D. Tex. 1982)". justia.com. from the original on 7 October 2017. Retrieved 3 May 2018.
  42. ^ "813 F2d 679 Incident Aboard D/b Ocean King on August Cities Service Company v. Ocean Drilling & Exploration Co Getty Oil Co". OpenJurist. 1987-04-01. p. 679. from the original on 2016-03-03. Retrieved 2016-01-30.
  43. ^ Rig Disaster Website : . Archived from the original on 2010-12-04. Retrieved 2010-05-23.
  44. ^ . Home.versatel.nl. Archived from the original on 2016-03-03. Retrieved 2016-01-30.
  45. ^ Oil Rig Disasters website : . Archived from the original on 2010-06-19. Retrieved 2010-05-29.
  46. ^ Oil Rig Disasters Website : . Archived from the original on 2010-12-04. Retrieved 2010-09-21.
  47. ^ Oil Rig Disasters Website : . Archived from the original on 2010-12-04. Retrieved 2010-05-23.
  48. ^ Usumacinta website : "Usumacinta and Kab 101 Blowout – Oil Rig Disasters – Offshore Drilling Accidents". from the original on 2014-10-11. Retrieved 2014-10-11.
  49. ^
  50. ^ September 2 oil rig explosion 2010-09-03 at the Wayback Machine, CNN
  51. ^ New oil rig explosion in Gulf of Mexico 2010-09-05 at the Wayback Machine WFRV

External links edit

  • San Joaquin Geological Society article on famous Californian gushers 2016-02-02 at the Wayback Machine
  • "Blowout Control, Part 10 – Surface Intervention Methods". Retrieved 2010-06-19.

February 16, 2024
blowout, well, drilling, blowout, uncontrolled, release, crude, natural, from, well, well, after, pressure, control, systems, have, failed, modern, wells, have, blowout, preventers, intended, prevent, such, occurrence, accidental, spark, during, blowout, lead,. A blowout is the uncontrolled release of crude oil and or natural gas from an oil well or gas well after pressure control systems have failed 1 Modern wells have blowout preventers intended to prevent such an occurrence An accidental spark during a blowout can lead to a catastrophic oil or gas fire The Lucas Gusher at Spindletop Texas 1901 Prior to the advent of pressure control equipment in the 1920s the uncontrolled release of oil and gas from a well while drilling was common and was known as an oil gusher gusher or wild well Contents 1 History 1 1 Notable gushers 2 Cause of blowouts 2 1 Reservoir pressure 2 2 Formation kick 2 3 Well control 3 Types of blowouts 3 1 Surface blowouts 3 2 Subsea blowouts 3 3 Underground blowouts 4 Blowout control companies 5 Methods of quenching blowouts 5 1 Subsea Well Containment 5 2 Use of nuclear explosions 6 Notable offshore well blowouts 7 See also 8 References 9 External linksHistory editGushers were an icon of oil exploration during the late 19th and early 20th centuries During that era the simple drilling techniques such as cable tool drilling and the lack of blowout preventers meant that drillers could not control high pressure reservoirs When these high pressure zones were breached the oil or natural gas would travel up the well at a high rate forcing out the drill string and creating a gusher A well which began as a gusher was said to have blown in for instance the Lakeview Gusher blew in in 1910 These uncapped wells could produce large amounts of oil often shooting 200 feet 61 m or higher into the air 2 A blowout primarily composed of natural gas was known as a gas gusher Despite being symbols of new found wealth gushers were dangerous and wasteful They killed workmen involved in drilling destroyed equipment and coated the landscape with thousands of barrels of oil additionally the explosive concussion released by the well when it pierces an oil gas reservoir has been responsible for a number of oilmen losing their hearing entirely standing too near to the drilling rig at the moment it drills into the oil reservoir is extremely hazardous The impact on wildlife is very hard to quantify but can only be estimated to be mild in the most optimistic models realistically the ecological impact is estimated by scientists across the ideological spectrum to be severe profound and lasting 3 To complicate matters further the free flowing oil was and is in danger of igniting 4 One dramatic account of a blowout and fire reads With a roar like a hundred express trains racing across the countryside the well blew out spewing oil in all directions The derrick simply evaporated Casings wilted like lettuce out of water as heavy machinery writhed and twisted into grotesque shapes in the blazing inferno 5 The development of rotary drilling techniques where the density of the drilling fluid is sufficient to overcome the downhole pressure of a newly penetrated zone meant that gushers became avoidable If however the fluid density was not adequate or fluids were lost to the formation then there was still a significant risk of a well blowout In 1924 the first successful blowout preventer was brought to market 6 The BOP valve affixed to the wellhead could be closed in the event of drilling into a high pressure zone and the well fluids contained Well control techniques could be used to regain control of the well As the technology developed blowout preventers became standard equipment and gushers became a thing of the past In the modern petroleum industry uncontrollable wells became known as blowouts and are comparatively rare There has been significant improvement in technology well control techniques and personnel training which has helped to prevent their occurring 1 From 1976 to 1981 21 blowout reports are available 1 Notable gushers edit A blowout in 1815 resulted from an attempt to drill for salt rather than for oil Joseph Eichar and his team were digging west of the town of Wooster Ohio US along Killbuck Creek when they struck oil In a written retelling by Eichar s daughter Eleanor the strike produced a spontaneous outburst which shot up high as the tops of the highest trees 7 Oil drillers struck a number of gushers near Oil City Pennsylvania US in 1861 The most famous was the Little amp Merrick well which began gushing oil on 17 April 1861 The spectacle of the fountain of oil flowing out at about 3 000 barrels 480 m3 per day had drawn about 150 spectators by the time an hour later when the oil gusher burst into flames raining fire down on the oil soaked onlookers Thirty people died Other early gushers in northwest Pennsylvania were the Phillips 2 4 000 barrels 640 m3 per day in September 1861 and the Woodford well 3 000 barrels 480 m3 per day in December 1861 8 The Shaw Gusher in Oil Springs Ontario was Canada s first oil gusher On January 16 1862 it shot oil from over 60 metres 200 ft below ground to above the treetops at a rate of 3 000 barrels 480 m3 per day triggering the oil boom in Lambton County 9 Lucas Gusher at Spindletop in Beaumont Texas US in 1901 flowed at 100 000 barrels 16 000 m3 per day at its peak but soon slowed and was capped within nine days The well tripled U S oil production overnight and marked the start of the Texas oil industry 10 11 Masjed Soleiman Iran in 1908 marked the first major oil strike recorded in the Middle East 12 Dos Bocas in the State of Veracruz Mexico was a famous 1908 Mexican blowout that formed a large crater It leaked oil from the main reservoir for many years continuing even after 1938 when Pemex nationalized the Mexican oil industry Lakeview Gusher on the Midway Sunset Oil Field in Kern County California US of 1910 is believed to be the largest ever U S gusher At its peak more than 100 000 barrels 16 000 m3 of oil per day flowed out reaching as high as 200 feet 61 m in the air It remained uncapped for 18 months spilling over 9 million barrels 1 400 000 m3 of oil less than half of which was recovered 2 A short lived gusher at Alamitos 1 in Signal Hill California US in 1921 marked the discovery of the Long Beach Oil Field one of the most productive oil fields in the world 13 The Barroso 2 well in Cabimas Venezuela in December 1922 flowed at around 100 000 barrels 16 000 m3 per day for nine days plus a large amount of natural gas 14 Baba Gurgur near Kirkuk Iraq an oilfield known since antiquity erupted at a rate of 95 000 barrels 15 100 m3 a day in 1927 15 The Yates 30 A in Pecos County Texas US gushing 80 feet through the fifteen inch casing produced a world record 204 682 barrels of oil a day from a depth of 1 070 feet on 23 September 1929 16 The Wild Mary Sudik gusher in Oklahoma City Oklahoma US in 1930 flowed at a rate of 72 000 barrels 11 400 m3 per day 17 The Daisy Bradford gusher in 1930 marked the discovery of the East Texas Oil Field the largest oilfield in the contiguous United States 18 The largest known wildcat oil gusher blew near Qom Iran on 26 August 1956 The uncontrolled oil gushed to a height of 52 m 171 ft at a rate of 120 000 barrels 19 000 m3 per day The gusher was closed after 90 days work by Bagher Mostofi and Myron Kinley USA 19 On October 17 1982 a sour gas well Amoco Dome Brazeau River 13 12 48 12 being drilled 20 km west of Lodgepole Alberta blew out The burning well was finally capped 67 days later by the Texas well control company Boots amp Coots One of the most troublesome gushers happened on 23 June 1985 at well 37 at the Tengiz field in Atyrau Kazakh SSR Soviet Union where the 4 209 metre deep well blew out and the 200 metre high gusher self ignited two days later Oil pressure up to 800 atm and high hydrogen sulfide content had led to the gusher being capped only on 27 July 1986 The total volume of erupted material measured at 4 3 million metric tons of oil and 1 7 billion m of natural gas and the burning gusher resulted in 890 tons of various mercaptans and more than 900 000 tons of soot released into the atmosphere 20 Deepwater Horizon explosion The largest underwater blowout in U S history occurred on 20 April 2010 in the Gulf of Mexico at the Macondo Prospect oil field The blowout caused the explosion of the Deepwater Horizon a mobile offshore drilling platform owned by Transocean and under lease to BP at the time of the blowout While the exact volume of oil spilled is unknown as of June 3 2010 update the United States Geological Survey Flow Rate Technical Group has placed the estimate at between 35 000 to 60 000 barrels 5 600 to 9 500 m3 of crude oil per day 21 needs update Cause of blowouts editReservoir pressure edit See also Petroleum formation nbsp A petroleum trap An irregularity the trap in a layer of impermeable rocks the seal retains upward flowing petroleum forming a reservoir Petroleum or crude oil is a naturally occurring flammable liquid consisting of a complex mixture of hydrocarbons of various molecular weights and other organic compounds found in geologic formations beneath the Earth s surface Because most hydrocarbons are lighter than rock or water they often migrate upward and occasionally laterally through adjacent rock layers until either reaching the surface or becoming trapped within porous rocks known as reservoirs by impermeable rocks above When hydrocarbons are concentrated in a trap an oil field forms from which the liquid can be extracted by drilling and pumping The downhole pressure in the rock structures changes depending upon the depth and the characteristics of the source rock Natural gas mostly methane may be present also usually above the oil within the reservoir but sometimes dissolved in the oil at reservoir pressure and temperature Dissolved gas typically comes out of solution as free gas as the pressure is reduced either under controlled production operations or in a kick or in an uncontrolled blowout The hydrocarbon in some reservoirs may be essentially all natural gas Formation kick edit The downhole fluid pressures are controlled in modern wells through the balancing of the hydrostatic pressure provided by the mud column Should the balance of the drilling mud pressure be incorrect i e the mud pressure gradient is less than the formation pore pressure gradient then formation fluids oil natural gas and or water can begin to flow into the wellbore and up the annulus the space between the outside of the drill string and the wall of the open hole or the inside of the casing and or inside the drill pipe This is commonly called a kick Ideally mechanical barriers such as blowout preventers BOPs can be closed to isolate the well while the hydrostatic balance is regained through circulation of fluids in the well But if the well is not shut in common term for the closing of the blow out preventer a kick can quickly escalate into a blowout when the formation fluids reach the surface especially when the influx contains gas that expands rapidly with the reduced pressure as it flows up the wellbore further decreasing the effective weight of the fluid Early warning signs of an impending well kick while drilling are Sudden change in drilling rate Reduction in drillpipe weight Change in pump pressure Change in drilling fluid return rate Other warning signs during the drilling operation are Returning mud cut by i e contaminated by gas oil or water Connection gases high background gas units and high bottoms up gas units detected in the mudlogging unit 22 The primary means of detecting a kick while drilling is a relative change in the circulation rate back up to the surface into the mud pits The drilling crew or mud engineer keeps track of the level in the mud pits and closely monitors the rate of mud returns versus the rate that is being pumped down the drill pipe Upon encountering a zone of higher pressure than is being exerted by the hydrostatic head of the drilling mud including the small additional frictional head while circulating at the bit an increase in mud return rate would be noticed as the formation fluid influx blends in with the circulating drilling mud Conversely if the rate of returns is slower than expected it means that a certain amount of the mud is being lost to a thief zone somewhere below the last casing shoe This does not necessarily result in a kick and may never become one however a drop in the mud level might allow influx of formation fluids from other zones if the hydrostatic head is reduced to less than that of a full column of mud citation needed Well control edit The first response to detecting a kick would be to isolate the wellbore from the surface by activating the blow out preventers and closing in the well Then the drilling crew would attempt to circulate in a heavier kill fluid to increase the hydrostatic pressure sometimes with the assistance of a well control company In the process the influx fluids will be slowly circulated out in a controlled manner taking care not to allow any gas to accelerate up the wellbore too quickly by controlling casing pressure with chokes on a predetermined schedule This effect will be minor if the influx fluid is mainly salt water And with an oil based drilling fluid it can be masked in the early stages of controlling a kick because gas influx may dissolve into the oil under pressure at depth only to come out of solution and expand rather rapidly as the influx nears the surface Once all the contaminant has been circulated out the shut in casing pressure should have reached zero citation needed Capping stacks are used for controlling blowouts The cap is an open valve that is closed after bolted on 23 Types of blowouts edit nbsp Ixtoc I oil well blowoutWell blowouts can occur during the drilling phase during well testing during well completion during production or during workover activities 1 Surface blowouts edit Blowouts can eject the drill string out of the well and the force of the escaping fluid can be strong enough to damage the drilling rig In addition to oil the output of a well blowout might include natural gas water drilling fluid mud sand rocks and other substances Blowouts will often be ignited from sparks from rocks being ejected or simply from heat generated by friction A well control company then will need to extinguish the well fire or cap the well and replace the casing head and other surface equipment If the flowing gas contains poisonous hydrogen sulfide the oil operator might decide to ignite the stream to convert this to less hazardous substances citation needed Sometimes blowouts can be so forceful that they cannot be directly brought under control from the surface particularly if there is so much energy in the flowing zone that it does not deplete significantly over time In such cases other wells called relief wells may be drilled to intersect the well or pocket in order to allow kill weight fluids to be introduced at depth When first drilled in the 1930s relief wells were drilled to inject water into the main drill well hole 24 Contrary to what might be inferred from the term such wells generally are not used to help relieve pressure using multiple outlets from the blowout zone Subsea blowouts edit nbsp Macondo 1 well blowout on the Deepwater Horizon rig 21 April 2010The two main causes of a subsea blowout are equipment failures and imbalances with encountered subsurface reservoir pressure 25 Subsea wells have pressure control equipment located on the seabed or between the riser pipe and drilling platform Blowout preventers BOPs are the primary safety devices designed to maintain control of geologically driven well pressures They contain hydraulic powered cut off mechanisms to stop the flow of hydrocarbons in the event of a loss of well control 26 Even with blowout prevention equipment and processes in place operators must be prepared to respond to a blowout should one occur Before drilling a well a detailed well construction design plan an Oil Spill Response Plan as well as a Well Containment Plan must be submitted reviewed and approved by BSEE and is contingent upon access to adequate well containment resources in accordance to NTL 2010 N10 27 The Deepwater Horizon well blowout in the Gulf of Mexico in April 2010 occurred at a 5 000 feet 1 500 m water depth 28 Current blowout response capabilities in the U S Gulf of Mexico meet capture and process rates of 130 000 barrels of fluid per day and a gas handling capacity of 220 million cubic feet per day at depths through 10 000 feet 29 Underground blowouts edit An underground blowout is a special situation where fluids from high pressure zones flow uncontrolled to lower pressure zones within the wellbore Usually this is from deeper higher pressure zones to shallower lower pressure formations There may be no escaping fluid flow at the wellhead However the formation s receiving the influx can become overpressured a possibility that future drilling plans in the vicinity must consider citation needed Blowout control companies editMyron M Kinley was a pioneer in fighting oil well fires and blowouts He developed many patents and designs for the tools and techniques of oil firefighting His father Karl T Kinley attempted to extinguish an oil well fire with the help of a massive explosion a method still in common use for fighting oil fires Myron and Karl Kinley first successfully used explosives to extinguish an oil well fire in 1913 30 Kinley would later form the M M Kinley Company in 1923 30 Asger Boots Hansen and Edward Owen Coots Matthews also begin their careers under Kinley Paul N Red Adair joined the M M Kinley Company in 1946 and worked 14 years with Myron Kinley before starting his own company Red Adair Co Inc in 1959 Red Adair Co has helped in controlling offshore blowouts including CATCO fire in the Gulf of Mexico in 1959 The Devil s Cigarette Lighter in 1962 in Gassi Touil Algeria in the Sahara Desert The Ixtoc I oil spill in Mexico s Bay of Campeche in 1979 The Piper Alpha disaster in the North Sea in 1988 The Kuwaiti oil fires following the Gulf War in 1991 31 The 1968 American film Hellfighters which starred John Wayne is about a group of oil well firefighters based loosely on Adair s life Adair Hansen and Matthews served as technical advisors on the film In 1994 Adair retired and sold his company to Global Industries Management of Adair s company left and created International Well Control IWC In 1997 they would buy the company Boots amp Coots International Well Control Inc which was founded by Hansen and Matthews in 1978 Methods of quenching blowouts editSubsea Well Containment edit nbsp Government Accountability Office diagram showing subsea well containment operationsAfter the Macondo 1 blowout on the Deepwater Horizon the offshore industry collaborated with government regulators to develop a framework to respond to future subsea incidents As a result all energy companies operating in the deep water U S Gulf of Mexico must submit an OPA 90 required Oil Spill Response Plan with the addition of a Regional Containment Demonstration Plan prior to any drilling activity 32 In the event of a subsea blowout these plans are immediately activated drawing on some of the equipment and processes effectively used to contain the Deepwater Horizon well as others that have been developed in its aftermath In order to regain control of a subsea well the Responsible Party would first secure the safety of all personnel on board the rig and then begin a detailed evaluation of the incident site Remotely operated underwater vehicles ROVs would be dispatched to inspect the condition of the wellhead Blowout Preventer BOP and other subsea well equipment The debris removal process would begin immediately to provide clear access for a capping stack Once lowered and latched on the wellhead a capping stack uses stored hydraulic pressure to close a hydraulic ram and stop the flow of hydrocarbons 33 If shutting in the well could introduce unstable geological conditions in the wellbore a cap and flow procedure would be used to contain hydrocarbons and safely transport them to a surface vessel 34 The Responsible Party works in collaboration with BSEE and the United States Coast Guard to oversee response efforts including source control recovering discharged oil and mitigating environmental impact 35 Several not for profit organizations provide a solution to effectively contain a subsea blowout HWCG LLC and Marine Well Containment Company operate within the U S Gulf of Mexico 36 waters while cooperatives like Oil Spill Response Limited offer support for international operations Use of nuclear explosions edit On Sep 30 1966 the Soviet Union experienced blowouts on five natural gas wells in Urta Bulak an area about 80 kilometers from Bukhara Uzbekistan It was claimed in Komsomoloskaya Pravda that after years of burning uncontrollably they were able to stop them entirely 37 The Soviets lowered a specially made 30 kiloton nuclear physics package into a 6 kilometre 20 000 ft borehole drilled 25 to 50 metres 82 to 164 ft away from the original rapidly leaking well A nuclear explosive was deemed necessary because conventional explosives both lacked the necessary power and would also require a great deal more space underground When the device was detonated it crushed the original pipe that was carrying the gas from the deep reservoir to the surface and vitrified the surrounding rock This caused the leak and fire at the surface to cease within approximately one minute of the explosion and proved to be a permanent solution An attempt on a similar well was not as successful Other tests were for such experiments as oil extraction enhancement Stavropol 1969 and the creation of gas storage reservoirs Orenburg 1970 38 Notable offshore well blowouts editData from industry information 1 39 Year Rig Name Rig Owner Type Damage details1955 S 44 Chevron Corporation Sub Recessed pontoons Blowout and fire Returned to service 1959 C T Thornton Reading amp Bates Jackup Blowout and fire damage 1964 C P Baker Reading amp Bates Drill barge Blowout in Gulf of Mexico vessel capsized 22 killed 1965 Trion Royal Dutch Shell Jackup Destroyed by blowout 1965 Paguro SNAM Jackup Destroyed by blowout and fire 1968 Little Bob Coral Jackup Blowout and fire killed 7 1969 Wodeco III Floor drilling Drilling barge Blowout1969 Sedco 135G Sedco Inc Semi submersible Blowout damage1969 Rimrick Tidelands ODECO Submersible Blowout in Gulf of Mexico1970 Stormdrill III Storm Drilling Jackup Blowout and fire damage 1970 Discoverer III Offshore Co Drillship Blowout S China Seas 1971 Big John Atwood Oceanics Drill barge Blowout and fire 1971 Wodeco II Floor Drilling Drill barge Blowout and fire off Peru 7 killed citation needed 1972 J Storm II Marine Drilling Co Jackup Blowout in Gulf of Mexico1972 M G Hulme Reading amp Bates Jackup Blowout and capsize in Java Sea 1972 Rig 20 Transworld Drilling Jackup Blowout in Gulf of Martaban 1973 Mariner I Santa Fe Drilling Semi sub Blowout off Trinidad 3 killed 1975 Mariner II Santa Fe Drilling Semi submersible Lost BOP during blowout 1975 J Storm II Marine Drilling Co Jackup Blowout in Gulf of Mexico citation needed 1976 Petrobras III Petrobras Jackup No info 1976 W D Kent Reading amp Bates Jackup Damage while drilling relief well citation needed 1977 Maersk Explorer Maersk Drilling Jackup Blowout and fire in North Sea citation needed 1977 Ekofisk Bravo Phillips Petroleum Platform Blowout during well workover 40 1978 Scan Bay Scan Drilling Jackup Blowout and fire in the Persion Gulf citation needed 1979 Salenergy II Salen Offshore Jackup Blowout in Gulf of Mexico1979 Sedco 135 Sedco Drilling Semi submersible Blowout and fire in Bay of Campeche Ixtoc I well 41 1980 Sedco 135C Sedco Drilling Semi submersible Blowout and fire of Nigeria 1980 Discoverer 534 Offshore Co Drillship Gas escape caught fire citation needed 1980 Ron Tappmeyer Reading amp Bates Jackup Blowout in Persian Gulf 5 killed citation needed 1980 Nanhai II People s Republic of China Jackup Blowout of Hainan Island citation needed 1980 Maersk Endurer Maersk Drilling Jackup Blowout in Red Sea 2 killed citation needed 1980 Ocean King ODECO Jackup Blowout and fire in Gulf of Mexico 5 killed 42 1980 Marlin 14 Marlin Drilling Jackup Blowout in Gulf of Mexico citation needed 1981 Penrod 50 Penrod Drilling Submersible Blowout and fire in Gulf of Mexico citation needed 1984 Plataforma Central de Enchova Petrobras fixed platform Blowout and fire in Campos Basin Rio de Janeiro Brazil 37 fatalities 1985 West Vanguard Smedvig Semi submersible Shallow gas blowout and fire in Norwegian sea 1 fatality 1981 Petromar V Petromar Drillship Gas blowout and capsize in S China seas citation needed 1983 Bull Run Atwood Oceanics Tender Oil and gas blowout Dubai 3 fatalities 1988 Ocean Odyssey Diamond Offshore Drilling Semi submersible Gas blowout at BOP and fire in the UK North Sea 1 killed 1988 Plataforma Central de Enchova Petrobras fixed platform Blowout and fire in Campos Basin Rio de Janeiro Brazil no fatality platform entirely destroyed 1989 Al Baz Santa Fe Jackup Shallow gas blowout and fire in Nigeria 5 killed 43 1993 M Naqib Khalid Naqib Co Naqib Drilling fire and explosion Returned to service 1993 Actinia Transocean Semi submersible Sub sea blowout in Vietnam 44 2001 Ensco 51 Ensco Jackup Gas blowout and fire Gulf of Mexico no casualties 45 2002 Arabdrill 19 Arabian Drilling Co Jackup Structural collapse blowout fire and sinking 46 2004 Adriatic IV Global Santa Fe Jackup Blowout and fire at Temsah platform Mediterranean Sea 47 2007 Usumacinta PEMEX Jackup Storm forced rig to move causing well blowout on Kab 101 platform 22 killed 48 2009 West Atlas Montara Seadrill Jackup Platform Blowout and fire on rig and platform in Australia 49 2010 Deepwater Horizon Transocean Semi submersible Blowout and fire on the rig subsea well blowout killed 11 in explosion 2010 Vermilion Block 380 Mariner Energy Platform Blowout and fire 13 survivors 1 injured 50 51 2012 KS Endeavour KS Energy Services Jack Up Blowout and fire on the rig collapsed killed 2 in explosion 2012 Elgin platform Total Platform Blowout and prolonged sour gas release no injuries See also editDrilling fluid Drilling rig List of oil spills Oil platform Oil well Oil well control Oil well fire Petroleum geology Underbalanced drillingReferences edit a b c d e All About Blowout R Westergaard Norwegian Oil Review 1987 ISBN 82 991533 0 1 a b www sjgs com www sjgs com Archived from the original on 2006 10 19 Retrieved 2016 01 30 Walsh Bryan 2010 05 19 Gulf Oil Spill Scientists Escalate Environmental Warnings Time Archived from the original on June 29 2010 Retrieved June 30 2010 Hughes McKie Oil Well Explosion Rootsweb com 1923 05 08 Archived from the original on 2008 02 25 Retrieved 2016 01 30 Ending Oil Gushers BOP Aoghs org Archived from the original on 2016 01 31 Retrieved 2016 01 30 Engineering History Asme org 1905 03 10 Archived from the original on 2010 12 26 Retrieved 2016 01 30 Douglass Ben 1878 Chapter XVI History of Wayne County Ohio from the Days of the First Settlers to the Present Time Indianapolis Ind Robert Douglass publisher pp 233 235 OCLC 4721800 Retrieved 2013 07 16 One of the greatest obstacles they met with when boring was the striking a strong vein of oil a spontaneous outburst which shot up high as the tops of the highest trees The Derrick s Hand Book of Petroleum Oil City Penn Derrick Publishing 1898 20 24 The Shaw Gusher The Village of Oil Springs Archived from the original on 2009 12 06 Retrieved 2011 02 23 www sjgs com www sjgs com Archived from the original on 2016 02 02 Retrieved 2016 01 30 Wooster Robert Sanders Christine Moor Spindletop Oilfield from the Handbook of Texas Online Retrieved October 18 2009 Texas State Historical Association Ian Ellis May 26 Today in Science History Scientists born on May 26th died and events Todayinsci com Archived from the original on 2015 05 29 Retrieved 2016 01 30 The City of Signal Hill Official Web Site Archived from the original on 2007 09 29 Retrieved 2010 05 18 http www propuestas reacciun ve Servidor Tematico Petroleo documentos articulos6 html petroleo7 permanent dead link Paragraphs Archived from the original on 2009 05 24 Retrieved 2010 05 18 Rundell Walter p 1982 Oil in West Texas and New Mexico a pictorial history of the Permian Basin 1st ed College Station Published for the Permian Basin Petroleum Museum Library and Hall of Fame Midland Texas by Texas A amp M University Press p 89 ISBN 0 89096 125 5 OCLC 8110608 Whipple Tom 2005 03 15 Full steam ahead for BC offshore oil drilling Energybulletin net Archived from the original on 2008 01 20 Retrieved 2016 01 30 East Texas Oil Museum at Kilgore College History Easttexasoilmuseum com 1930 10 03 Archived from the original on 2016 02 08 Retrieved 2016 01 30 Norris Mcwhirter Donald McFarlan 1989 the Guinness Book of Records 1990 Guinness Publishing Ltd ISBN 978 0 85112 341 7 Archived from the original on 2018 05 03 Christopher Pala 2001 10 23 Kazakhstan Field s Riches Come With a Price Vol 82 no 715 The St Petersburg Times Archived from the original on 2013 12 28 Retrieved 2009 10 12 Oil estimate raised to 35 000 60 000 barrels a day CNN 2010 06 15 Archived from the original on 2010 06 16 Retrieved 2010 06 15 Grace R Blowout and Well Control Handbook p 42 Gulf Professional Publishing 2003 Blowout Control Part 10 Surface Intervention Methods Jwco com Archived from the original on 2016 02 03 Retrieved 2016 01 30 Wild Oil Well Tamed by Scientific Trick Popular Mechanics July 1934 Archived 2018 05 03 at the Wayback Machine How Does Subsea Well Containment and Incident Response Work Rigzone Archived from the original on 2015 04 18 Drilling Blowout Preventers United States Department of Labor Archived from the original on 2015 06 30 NTL No 2010 N10 BSEE gov US Department of the Interior Bureau of Ocean Energy Management Regulation and Enforcement Archived from the original on 2015 09 30 Macondo Prospect Gulf of Mexico United States of America Offshore Technology Archived from the original on 2012 04 26 HWCG Expands Capabilities to Minimize Potential Impact of a Deepwater Incident HWCG org Archived from the original on 2016 03 04 Retrieved 2015 09 09 a b Boots amp Coots History Page Boots amp Coots International Well Control Inc Archived from the original on 2010 05 26 Retrieved 2010 05 21 redadair com www redadair com Archived from the original on 17 July 2008 Retrieved 3 May 2018 Guidance to Owners and Operators of Offshore Facilities Seaward of the Coast Line Concerning Regional Oil Spill Response Plans NTL No 2012 N06 PDF BSEE gov Bureau of Safety and Environmental Enforcement Archived from the original PDF on 2016 03 05 Madrid Mauricio Matson Anthony 2014 How Offshore Capping Stacks Work PDF Society of Petroleum Engineers The Way Ahead 10 1 Archived PDF from the original on 2015 11 29 How Does Subsea Well Containment and Incident Response Work Rigzone com Rigzone Archived from the original on 2015 09 09 Memoranda of Agreement Between the Bureau of Safety and Environmental Enforcement and U S Coast Guard MOA OCS 03 BSEE USCG Archived from the original on 2015 04 25 Deepwater Horizon Spurs Development of Spill Prevention Systems Rigzone April 20 2011 Archived from the original on September 8 2015 Google Translate Komsomoloskaya Pravda 3 May 2010 Retrieved 3 May 2018 CineGraphic 4 July 2009 An Atomic Bomb will stop the Gulf Oil Leak Archived from the original on 7 November 2017 Retrieved 3 May 2018 via YouTube Rig disaster Website Worst Offshore Blowouts Oil Rig Disasters Offshore Drilling Accidents Archived from the original on 2014 12 28 Retrieved 2013 04 05 Oil Rig Disasters Website IXTOC I Blowout and Sedco 135F Oil Rig Disasters Offshore Drilling Accidents Archived from the original on 2010 12 03 Retrieved 2010 05 23 Matter of Sedco Inc 543 F Supp 561 S D Tex 1982 justia com Archived from the original on 7 October 2017 Retrieved 3 May 2018 813 F2d 679 Incident Aboard D b Ocean King on August Cities Service Company v Ocean Drilling amp Exploration Co Getty Oil Co OpenJurist 1987 04 01 p 679 Archived from the original on 2016 03 03 Retrieved 2016 01 30 Rig Disaster Website Santa Fe al Baz Blowout Oil Rig Disasters Offshore Drilling Accidents Archived from the original on 2010 12 04 Retrieved 2010 05 23 Actinia Blowout Oil Rig Disasters Offshore Drilling Accidents Home versatel nl Archived from the original on 2016 03 03 Retrieved 2016 01 30 Oil Rig Disasters website Ensco 51 Blowout Oil Rig Disasters Offshore Drilling Accidents Archived from the original on 2010 06 19 Retrieved 2010 05 29 Oil Rig Disasters Website Arabdrill 19 AD19 Oil Rig Disasters Offshore Drilling Accidents Archived from the original on 2010 12 04 Retrieved 2010 09 21 Oil Rig Disasters Website GSF Adriatic IV Oil Rig Disasters Offshore Drilling Accidents Archived from the original on 2010 12 04 Retrieved 2010 05 23 Usumacinta website Usumacinta and Kab 101 Blowout Oil Rig Disasters Offshore Drilling Accidents Archived from the original on 2014 10 11 Retrieved 2014 10 11 ABC September 2 oil rig explosion Archived 2010 09 03 at the Wayback Machine CNN New oil rig explosion in Gulf of Mexico Archived 2010 09 05 at the Wayback Machine WFRVExternal links editSan Joaquin Geological Society article on famous Californian gushers Archived 2016 02 02 at the Wayback Machine Blowout Control Part 10 Surface Intervention Methods Retrieved 2010 06 19 Retrieved from https en wikipedia org w index php title Blowout well drilling amp oldid 1194790975, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.