Port Arthur, city, Jefferson county, southeastern Texas, U.S., 90 miles (145 km) east of Houston. It is a major deepwater port on Sabine Lake and the Sabine-Neches and Gulf Intracoastal waterways, 9 miles (14 km) from the Gulf of Mexico. With Beaumont and Orange, it forms the “Golden Triangle,” an important petrochemical complex. Atakapa Indians occupied the region before 1800. Several early settlements, including Aurora (1840), were unsuccessful. In 1895 Arthur E. Stilwell organized a town (which was named for him) as a port and terminus for the Kansas City, Pittsburg, and Gulf Railroad (now Kansas City Southern Railway). In 1899 a canal was dredged for oceangoing vessels. Two years later the gusher Spindletop blew a few miles away, and the port became a major outlet for oil and a wide range of other products.
Industrial activities in the city include oil refining, shipbuilding, and the manufacture of chemicals. CavOILcade is the city’s annual (October) salute to the petroleum industry. Lamar University at Port Arthur originated in 1909 as Port Arthur College; on the campus is the Gates Memorial Library (1916), an important repository of local history. Sea Rim State Park and Sabine Pass Battleground State Park and Historic Site are located just to the south, as are McFaddin and Texas Point national wildlife refuges. In 1988 the Janis Joplin Memorial, honouring the Port Arthur native and blues and rock-and-roll singer, was inaugurated, and the city now hosts an annual music festival that draws many visitors. Inc. 1898. Pop. (2000) 57,755; Beaumont–Port Arthur Metro Area, 385,090; (2010) 53,818; Beaumont–Port Arthur Metro Area, 388,745.
This article was most recently revised and updated by Kenneth Pletcher.
Deepwater Horizon oil rig: fireFireboat response crews attempting to extinguish the blaze aboard the Deepwater Horizon oil rig in the Gulf of Mexico, April 21, 2010.
The Deepwater Horizon oil spill began on April 20, 2010, when an explosion damaged the Deepwater Horizon oil rig. The rig’s sinking on April 22 began the discharge of oil into the Gulf of Mexico.
Who owned the rig responsible for the Deepwater Horizon oil spill?
The oil rig involved in the Deepwater Horizon oil spill was owned and operated by offshore oil-drilling company Transocean and leased by the oil company BP.
What caused the Deepwater Horizon oil spill?
The Deepwater Horizon oil spill occurred after a surge of natural gas blasted through a concrete core recently installed to seal an oil well for later use. Once released, the natural gas traveled up a riser to the platform of the Deepwater Horizon oil rig that was over the well, where it ignited, killing 11 workers and injuring 17.
How did the Deepwater Horizon oil spill affect birds?
Birds were particularly vulnerable to the effects of the Deepwater Horizon oil spill. Many died from ingesting oil or because it interfered with their ability to regulate their body temperatures. Brown pelicans and laughing gulls were among the species most affected. A study showed that up to 800,000 birds were thought to have died.
Deepwater Horizon oil spill, largest marine oil spill in history, caused by an April 20, 2010, explosion on the Deepwater Horizon oil rig—located in the Gulf of Mexico, approximately 41 miles (66 km) off the coast of Louisiana—and its subsequent sinking on April 22.
The explosion
Observe fireboat responding to crews battling the fire during the Deepwater Horizon oil spill of 2010Fireboat response crews battling the blazing remnants of the offshore oil rig Deepwater Horizon in the Gulf of Mexico, April 21, 2010.
The Deepwater Horizon rig, owned and operated by offshore-oil-drilling company Transocean and leased by oil company BP, was situated in the Macondo oil prospect in the Mississippi Canyon, a valley in the continental shelf. The oil well over which it was positioned was located on the seabed 4,993 feet (1,522 metres) below the surface and extended approximately 18,000 feet (5,486 metres) into the rock. On the night of April 20 a surge of natural gas blasted through a concrete core recently installed by contractor Halliburton in order to seal the well for later use. It later emerged through documents released by Wikileaks that a similar incident had occurred on a BP-owned rig in the Caspian Sea in September 2008. Both cores were likely too weak to withstand the pressure because they were composed of a concrete mixture that used nitrogen gas to accelerate curing.
Once released by the fracture of the core, the natural gas traveled up the Deepwater rig’s riser to the platform, where it ignited, killing 11 workers and injuring 17. The rig capsized and sank on the morning of April 22, rupturing the riser, through which drilling mud had been injected in order to counteract the upward pressure of oil and natural gas. Without any opposing force, oil began to discharge into the gulf. The volume of oil escaping the damaged well—originally estimated by BP to be about 1,000 barrels per day—was thought by U.S. government officials to have peaked at more than 60,000 barrels per day.
Deepwater Horizon oil spill of 2010: path of the oilMap depicting the effects of the Deepwater Horizon oil spill, caused by the explosion of an oil rig off the coast of Louisiana on April 20, 2010. Scientists noted that the prevailing paths of the Gulf of Mexico's Loop Current and a detached eddy located to the west kept much of the oil, which covered a sizable part of the gulf some three months after the accident, from reaching shore.
See how wire entanglement inside a well bore mitigates the effects of blowout preventer failure in an oil wellLearn about the experimental use of entangled wire as an obstruction to mitigate the effects of blowout preventer failure in an oil well.
Although BP attempted to activate the rig’s blowout preventer (BOP), a fail-safe mechanism designed to close the channel through which oil was drawn, the device malfunctioned. Forensic analysis of the BOP completed the following year determined that a set of massive blades known as blind shear rams—designed to slice through the pipe carrying oil—had malfunctioned because the pipe had bent under the pressure of the rising gas and oil. (A 2014 report by the U.S. Chemical Safety Board claimed that the blind shear rams had activated sooner than previously thought and may have actually punctured the pipe.)
Efforts in May to place a containment dome over the largest leak in the broken riser were thwarted by the buoyant action of gas hydrates—gas molecules in an ice matrix—formed by the reaction of natural gas and cold water. When an attempt to employ a “top kill,” whereby drilling mud was pumped into the well to stanch the flow of oil, also failed, BP in early June turned to an apparatus called the Lower Marine Riser Package (LMRP) cap. With the damaged riser shorn from the LMRP—the top segment of the BOP—the cap was lowered into place. Though fitted loosely over the BOP and allowing some oil to escape, the cap enabled BP to siphon approximately 15,000 barrels of oil per day to a tanker. The addition of an ancillary collection system comprising several devices, also tapped into the BOP, increased the collection rate to approximately 25,000 barrels of oil a day.
In early July the LMRP cap was removed for several days so that a more permanent seal could be installed; this capping stack was in place by July 12. Though the leak had slowed, it was estimated by a government-commissioned panel of scientists that 4,900,000 barrels of oil had already leaked into the gulf. Only about 800,000 barrels had been captured. On August 3 BP conducted a “static kill,” a procedure in which drilling mud was pumped into the well through the BOP. Though similar to the failed top kill, mud could be injected at much lower pressures during the static kill because of the stabilizing influence of the capping stack. The defective BOP and the capping stack were removed in early September and replaced by a functioning BOP.
The success of these procedures cleared the way for a “bottom kill,” considered to be the most likely means of permanently sealing the leak. This entailed pumping cement through a channel—known as a relief well—that paralleled and eventually intersected the original well. Construction of two such wells had begun in May. On September 17 the bottom kill maneuver was successfully executed through the first relief well. The second had been intended to serve as a backup and was not completed. Two days later, following a series of pressure tests, it was announced that the well was completely sealed.
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Claims by several research groups that subsurface plumes of dispersed hydrocarbons had been detected in May were initially dismissed by BP and the National Oceanic and Atmospheric Administration (NOAA). However, it was verified in June that the plumes were in fact from the Deepwater spill. The effect of the microscopic oil droplets on the ecosystem was unknown, though their presence, along with that of a layer of oil several inches thick discovered on portions of the seafloor in September, cast doubt on earlier predictions about the speed with which the discharged oil would dissipate. Bacteria that had adapted to consuming naturally occurring gas and oil seeping from the seabed were thought to have consumed a portion of it.
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