From: Inside Climate News
The
rupture in the ExxonMobil pipeline that sent a river of oil through a
suburban neighborhood in Mayflower, Ark. is now known to be 22
feet long and 2 inches wide. That's almost four times longer than the
six-foot pipeline tear that sent more than one million gallons of
Canadian dilbit into Michigan's Kalamazoo River in 2010, the worst
accident of its kind in U.S. History.
Exxon's 22-Foot Rupture Illustrates Tremendous Operating Pressure of Oil Pipelines
Exxon oil spill in Arkansas demonstrates how quickly pipeline accidents can turn into catastrophe.By Lisa Song, InsideClimate News
Picture of the tear, courtesy of the Duncan Firm, in ExxonMobil's Pegasus pipeline that spilled as many as 420,000 gallons in the town of Mayflower in central Arkansas. The Duncan Firm conducted a preliminary inspection of the ruptured pipeline on April 10, 2013.
The
rupture in the ExxonMobil pipeline that sent a river of oil through a
suburban neighborhood in Mayflower, Ark. is now known to be 22
feet long and 2 inches wide. That's almost four times longer than the
six-foot pipeline tear that sent more than one million gallons of
Canadian dilbit into Michigan's Kalamazoo River in 2010, the worst
accident of its kind in U.S. History.
The
size and speed of the release through a long opening, thin as a mail
slot, shines a spotlight on just how quickly oil pipeline accidents
can turn into catastrophes. Between 200,000 and 420,000 gallons
of heavy oil spewed out of the 65-year-old pipeline without warning
on March 29, Good Friday afternoon, forcing the evacuation of 22
suburban homes.
Few
Americans realize how much pressure is needed to operate a pipeline
like the Pegasus, which moves more than 90,000 barrels a day of crude
across four states, from Illinois to Texas. That's almost four
million gallons of heavy oil being pushed over an 850-mile distance
in a single day.
When
a rupture occurs, so much force is released that large amounts of oil
can pour through the breach in minutes.
"People
just don't gather how high these things can go," said Richard
Kuprewicz, president of the pipeline consulting firm Accufacts
Inc. "For the average person, they're just exotic
pressures." But if pipeline operators drop their guard, he said,
pipelines "can be highly destructive."
Exxon's
Pegasus pipeline rupture/Credit: Duncan Firm
At
the time of the rupture, the pipeline was operating at 708 psig
(pound-force per square inch gauge), about 14 percent below its
maximum operating pressure of 820 psig. That's more than twice the
pressure of a fire hose, which can spray water 30 floors into the
air. But a fire hose is a few inches in diameter, and the Pegasus is
20 inches wide.
Kuprewicz
said 708 psig is considered "moderate" for oil transmission
lines. Some pipelines can run at slightly above 1400 psig, he said,
"which is perfectly legal and technically sound if the pipe is
of high integrity."
However, the fact that the Pegasus ruptured while running below maximum pressure "is not good," Kuprewicz said, because it means something was wrong with the pipeline's integrity management. Pipelines are supposed to be safe even if they operate at slightly above the maximum operating pressure, he said, so the Pegasus line "failed at a negative safety margin."
However, the fact that the Pegasus ruptured while running below maximum pressure "is not good," Kuprewicz said, because it means something was wrong with the pipeline's integrity management. Pipelines are supposed to be safe even if they operate at slightly above the maximum operating pressure, he said, so the Pegasus line "failed at a negative safety margin."
Exxon
says it shut down the Arkansas pipeline within 16 minutes after a
pressure drop in the line was detected, although questions remain
about how the company detected the dip, and when.
According
to preliminary findings from the U.S. Department of
Transportation, Exxon closed two valves that were 18 miles apart
in order to isolate the section of pipe that had ruptured. If the
line was full when the break occurred, that 18-mile section of would
have contained more than 1.5 million gallons of oil.
Exxon
said it began work on Sunday to excavate the damaged, underground
pipe. It will be hauled away to a laboratory where scientists will
try to determine the precise cause of the rupture.
A
Corrective Action Order from the Department of Transportation said
Exxon would use "stopple valves" to aid in the excavation.
The process involves cutting into the pipeline and inserting a disk a
few feet from either end of the rupture site to isolate the failed
segment, Kuprewicz said. Because the pipeline is 20 inches in
diameter, he added, the equipment needed is fairly large and heavy,
so the process could take some time.
Exxon's
Pegasus pipeline rupture/Credit: Duncan Firm
Kuprewicz
described the tear as a small "fish mouth" opening that's
wider in the middle and narrow at the ends.
A fish
mouth opening is a "classic fingerprint" of a "typical
liquid pipeline rupture," he said. It rules out the possibility
that the rupture was caused by third-party damage such as
construction activity.
"A
metal lab analysis is now required to detail where in the
manufactured weld seam the failure originated, and why," he said
in an email. Fish mouth ruptures are "usually associated with
crack-like features" that develop in pipelines for a variety of
reasons.
Kuprewicz
said the size of the tear wasn't unusual.
"I've
seen longer, wider failures along or near certain manufacturing
seams," he said. "The opening is a fuction of fracture
mechanics and depends on a lot of factors."
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