Tag Archives: train derailment

Cleanup lingering after Alabama and North Dakota spills

Repost from TribTown.com, Seymour, Indiana

Oil mars Alabama swamp 4 months after crude train crash; critics raise questions about oil trains

By JAY REEVES  Associated Press – March 15, 2014

A mixture of crude and weathered oil floats atop water in a swamp near Aliceville, Ala., on Wednesday, May 5, 2014. A train carrying nearly 3 million gallons of oil crashed at the site in November 2013, resulting in the pollution. Environmental regultors say cleanup and containment work is continuing, but critics contend the Alabama accident and others show the danger of transporting large amounts of oil in tanker trains. (AP Photo/Jay Reeves)

ALICEVILLE, Alabama — Environmental regulators promised an aggressive cleanup after a tanker train hauling 2.9 million gallons of crude oil derailed and burned in a west Alabama swamp in early November amid a string of North American oil train crashes.

So why is dark, smelly crude oil still oozing into the water four months later?

The isolated wetland smelled like a garage when a reporter from The Associated Press visited last week, and the charred skeletons of burned trees rose out of water covered with an iridescent sheen and swirling, weathered oil. A snake and a few minnows were some of the few signs of life.

An environmental group now says it has found ominous traces of oil moving downstream along an unnamed tributary toward a big creek and the Tombigbee River, less than 3 miles away. And the mayor of a North Dakota town where a similar crash occurred in December fears ongoing oil pollution problems in his community, too.

As the nation considers new means of transporting fuel over long distances, critics of crude oil trains have cited the Alabama derailment as an example of what can go wrong when tanker cars carrying millions of gallons of so-called Bakken crude leave the tracks. Questions about the effectiveness of the Alabama cleanup come as the National Transportation Safety Board considers tighter rules for the rail transportation of Bakken oil, which is produced mainly by the fracking process in the Bakken region of North Dakota and Montana. Oil production is increasing there, boosting the amount of oil being transported across the country.

Environmentalist John Wathen, who has conducted tests and monitored the Alabama site for months for Waterkeeper Alliance, said Genesee & Wyoming railroad and regulators did the bare minimum to spruce up an isolated, rural site and left once the tracks were repaired so trains could run again.

“I believe they really thought that because it’s out of sight, out of mind, out in the middle of a swamp, that nobody was going to pay attention,” said Wathen.

Regulators and the company deny any such thing occurred, however.

The Environmental Protection Agency and the Alabama Department of Environmental Management, which oversaw the cleanup, say more than 10,700 gallons of oil were skimmed from the water after the derailment, and workers collected about 203,000 gallons of oil from damaged rail cars using pumps. Another 290 cubic yards of oily dirt was excavated with heavy equipment, or enough to cover a basketball court with soil nearly 2 feet deep.

Yet four months later, officials still say no one knows exactly how much oil was spilled. That’s mainly because an unknown amount of oil burned in a series of explosions and a huge fire that lasted for hours after the crash. Since no one knows how much oil burned, officials also can’t say how much oil may be in the swamp.

About a month after the crash, the head of Alabama’s environmental agency, Lance LeFleur, promised “aggressive recovery operations” in a written assessment for a state oversight commission. He said the oil had been contained in a “timely” manner and none had left the wetlands.

Michael Williams, a spokesman for the Connecticut-based Genesee & Wyoming, which owns the short-line Alabama & Gulf Coast Railway line where the crash occurred, said the company is still monitoring the site closely and maintaining a system of barriers meant to keep oil from spreading. The work is continuous, he said.

But regulators and the railroad confirm one of Wathen’s worst fears: That environmental agencies let the railroad repair the badly damaged rail bed and lay new tracks before all the spilled oil was removed. Wathen calls the move a mistake that’s behind the continuing seepage of oil into the water.

“I do agree that they needed to get the rail cars out. But there were other ways to do it,” said Wathen. “Those would have been more expensive.”

James Pinkney, an EPA spokesman in Atlanta, said the rail line had to be fixed quickly to remove oil and damaged rail cars that still contained crude from the wetland.

Agencies are now working with the company and its contractors to recover the remaining oil trapped in the rail bed, but it’s unclear when or how that might happen.

“The EPA and ADEM are continuing to work together to ensure all recoverable oil is removed from the site,” Pinkney said in a written response to questions.

Ed Overton, an environmental sciences professor at Louisiana State University, said spilled crude can linger at a site indefinitely if it’s buried in the ground. Depending on the amount of oil that remains, he said, containment devices may be needed in the swamp for at least a couple of years.

But Bakken crude evaporates quickly once exposed to air because of its composition, said Overton, so the fact that oil remains in the swamp isn’t “the end of the world.”

“It’s going to look bad for awhile,” he said. “It’s amazing how quickly Mother Nature can handle such things, but it will take time.”

The cause of the derailment — which happened at a wooden trestle that was destroyed by the flames and has since been replaced by buried culverts that let water flow underneath the tracks — remains under investigation by the Federal Railroad Administration.

The crash site appears in better shape now than right after the derailment, partly because burned tanker cars misshapen by explosions are gone. Much of the water surrounding the site appears clear, and the odor from the site isn’t bad enough to reach the home of Leila Hudgins, just a few hundred yards away.

“I haven’t smelled anything,” said Hudgins. “They did a good job. They hauled off truckload after truckload.”

The crash site, located off an old dirt road and a new one that was built during the response, is accessible both by car and foot, but Hudgins said she hasn’t looked closely at the spot where it happened.

The railroad said testing hasn’t detected any groundwater contamination, and EPA said air monitoring ended about a month after the crash when it became apparent there were no airborne health hazards.

Still, questions linger. Wathen said he has been taking water samples several hundred yards downstream from the crash site and has detected the chemical fingerprint of so-called Bakken crude, which the train was carrying when it derailed.

“There’s no question it is outside their containment area, and I think it’s even further away,” said Wathen. “This is an environmental disaster that could go on for years.”

The Alabama train was on a southbound run when it derailed less than 3 miles south of Aliceville, a town of about 2,400 people near the Mississippi line. Another oil train derailed and burned in December at Casselton, North Dakota, and 47 people died in July when a train carrying Bakken oil exploded and burned in Quebec.

The mayor of Casselton, Ed McConnell said he has been keeping up with the Alabama cleanup because spilled oil also was buried under the rebuilt railroad tracks near his town of 2,400 people. He worries that oil will reappear on the ground at Casselton as the spring thaw begins in coming weeks.

“It’s still in the ground here, too,” said McConnell. “They’ve hauled a lot of dirt and stuff out. But they covered up the (oily) dirt before getting it all up and rebuilt the track to get it going.”

Alabama’s environmental agency said it still regularly visits the wreck site, which is encircled with the same sort of absorbent fencing, oil-snaring pom-poms and plastic barriers that were used on the Gulf Coast after the BP well blowout in 2010.

Once the “emergency” phase ends, the state environmental agency will install wells to monitor groundwater, said spokesman Jerome Hand.

Government regulators will approve any plans for removing remaining oil from the site, he said.

Latest on Pennsylvania oil train derailment

Repost from Reuters

Train carrying Canadian oil derails, leaks in Pennsylvania

By Robert Gibbons and Elizabeth Dilts
NEW YORK  Thu Feb 13, 2014 3:17pm EST

The wreckage of a train derailment is seen in the snow near Vandergrift, Pennsylvania February 13, 2014. REUTERS/Jason Cohn

The wreckage of a train derailment is seen in the snow near Vandergrift, Pennsylvania February 13, 2014.  Credit: Reuters/Jason Cohn
NEW YORK (Reuters) – A 120-car Norfolk Southern Corp train carrying heavy Canadian crude oil derailed and spilled in western Pennsylvania on Thursday, adding to a string of recent accidents that have prompted calls for stronger safety standards.

There were no reports of injury or fire after 21 tank cars came off the track and crashed into a nearby industrial building at a bend by the Kiskiminetas River in the town of Vandergrift.

Nineteen of the derailed cars were carrying oil, four of which spilled between 3,000 and 4,000 gallons of oil, Norfolk Southern said. The leaks have since been plugged. The two other derailed tank cars held liquefied petroleum gas.

The train, which originated in Chicago, was destined for an asphalt plant in Paulsboro, New Jersey, owned by NuStar, a NuStar spokeswoman said.

The clean-up was under way on Thursday as a heavy winter storm gathered pace, leaving about 4 inches of snow on the ground by midday Thursday. An investigator from the Federal Railroad Administration was en route to the scene, the railroad regulator said.

“I heard a strange noise, a hollow, screeching sound,” said Ray Cochran, who watched the train derail from his home on a hill above the tracks. “I looked out the window and saw three or four tankers turn over and one of them ran into the building.”

The train, which was also carrying food products, crashed into a track-side building owned by MSI Corporation that makes metal products.

All employees had been accounted for, said Sandy Smythe, a public information officer with Westmoreland County’s public safety department, which includes Vandergrift borough.

MSI declined to comment.

Thursday’s accident is the latest in a spate of crude oil train derailments that has prompted calls for more stringent rules regulating crude by rail, shipments of which have soared in recent years as pipelines fail to keep up with growing supply.

It comes ahead of a Senate hearing concerning the safety of transporting crude by rail, which has become a major political issue as the incidents pile up. The hearing was scheduled for Thursday, but was delayed by the snow.

Thursday’s accident was the second in less than a month in Pennsylvania. A train hauling crude on a CSX Corp railroad jumped the tracks and nearly toppled over a bridge in Philadelphia on January 20. There were no injuries or fire in that incident.

A train carrying Bakken oil from North Dakota last July derailed and exploded in Lac-Megantic, Quebec, killing 47 people and decimating much of the small town.

U.S. and Canadian railroad companies, tank car owners and regulators are investigating ways to transport crude on the rails more safely. Much of the focus is on phasing out older tank cars, known as DOT-111s, that do not meet the latest safety standards.

DOT-111s built before 2011 are prone to puncture and fire during accidents, regulators say.

It is as yet unclear what type of cars were involved in Thursday’s accident.

New design for safer tank cars

Repost from The Department of Civil and Environmental Engineering, College of Engineering, University of Illinois at Urbana-Champaign

New method will optimize car design for safer hazmat transport by rail

07/23/2013
http://cee.illinois.edu/tankcardesign
By Leslie Sweet Myrick

Transportation and structural engineering researchers are teaming up to develop an analytical method to measure the safety performance of railroad tank cars. Their techniques will be used to establish new industry standards to ultimately reduce the risk of transporting hazardous materials (hazmat) by rail.

“Although 99.998 percent of rail hazmat shipments reach their destination without a release caused by a train accident, potential tank car releases from train accidents could lead to severe consequences, especially if they happen in highly populated areas,” said M. Rapik Saat (BS 03, MS 05, PHD 09), a research assistant professor in the Rail Transportation and Engineering Center (RailTEC).

Saat and his colleague Christopher P.L. Barkan, professor and executive director of RailTEC, are working with Junho Song and Paolo Gardoni, both associate professors in structural engineering, to understand how new tank car designs will perform in accidents.

“A series of catastrophic tank car accidents in the 1960s and early 1970s led to several new safety features and the compilation of databases of information to measure and predict the safety of cars in service,” Barkan said. “As these databases were expanded and refined, it became possible to assess which combinations of changes in tank car safety design were most likely to maximize safety benefits. As part of a project we are finishing up during summer 2013, we updated a statistical model to evaluate tank car safety design using all the new accident information gathered since 1995. We were able to provide significant insight into the effects of some train operational factors, such as speed, that may be related to potential safety improvements that were not previously recognized because of a lack of quantitative information.”

While statistical models have been useful to evaluate existing tank car designs, the ongoing interdisciplinary collaboration between CEE’s railroad and structural engineering groups will pave the way for development of an analytical model to bridge statistical and analytical modeling (i.e. finite element analysis) approaches. For example, the interdisciplinary approach adds the ability to assess potential benefits of using new steel materials and/or structural configurations.

Tank car safety design optimization needs to consider the tradeoff between safety and efficiency, Saat said.

“For example, if you increase a tank car’s thickness, you may make it safer, but you decrease its capacity, and therefore may need more tank cars to carry the same amount of material. Our goal is to help industry find the optimal designs,” he said.

The development of this new analytical model is driven by industry and will be used for policy making.

“For example, with a new tank car design, they will do physical testing and finite element modeling to come up with the puncture energy and then translate the puncture energy to determine potential rate of release with a certain level of uncertainty,” Saat said. “This will advance the industry’s risk-based decision making to ultimately reduce the risk of transporting hazmat by rail.”

The work is a collaborative effort between government agencies and private industries involved in hazmat transportation in North America and is sponsored by the Association of American Railroads, Railway Supply Institute, American Chemistry Council, Chlorine Institute and Fertilizer Institute. CEE graduate students Laura Ghosh and Xiaonan Zhou have contributed to the project as well as Stephen Kirkpatrick from Applied Research Associates and Todd Treichel of the RSI-AAR Railroad Tank Car Safety Research and Test Project. At least one structural engineering student will also join the project team this fall.

The first phase of the new analytical model is expected to be completed in 2014.

Photo: A tank car built by Trinity Industries to the new standards with thicker shell and head and lower-profile protective housing. Risk and optimization models from CEE researcher Rapik Saat’s Ph.D. dissertation work were used to identify potential enhanced tank car designs to transport toxic inhalation hazard materials. These were later used by the U.S. Department of Transportation to develop hazardous material tank car regulations in 2009.

Yet another derailment – in central Philadelphia

Repost from Philadelphia-based Protecting Our Waters.  Pay close attention to paragraph 2 … “Unlike in previous U.S. explosions, this is a densely-populated area…in close proximity to large institutions, among them Drexel University, the University of Pennsylvania medical complex, including Children’s Hospital; and the University of Pennsylvania.”

A Near Miss from Disaster: Oil Train Derails in Philadelphia

January 20, 2014

by

Bakken Shale oil train derailed over the Schuylkill River in Philadelphia on January 20th, 2014. Photo: NBC Chicago/SkyForce

Philadelphia’s wake-up call is here. A few months ago, Protecting Our Waters started warning people about the dangers of the fracked oil trains coming to Philadelphia from the Bakken Shale formation out west. We’ve reported on multiple oil train explosions and derailments across North America, one of which, in Lac Megantic, Canada killed 47 people. As of this morning, the threat of an accident here in Philadelphia is no longer hypothetical.

Just after 1 a.m. this morning, seven cars of a 101-car CSX train from Chicago derailed on the Schuylkill Arsenal Railroad bridge over the Schuylkill River. Six were carrying crude oil, and one was carrying sand. ABC 6 Action News and Fox Philadelphia have short videos on the derailment, although the AP story they include incorrectly states that the accident occurred around 1 p.m. The bridge runs just south of the South Street Bridge from University City to Grays Ferry. It also runs over the heavily-trafficked Schuylkill Expressway, which was shut for two hours following the derailment. Unlike in previous U.S. explosions, this is a densely-populated area. It’s also in close proximity to large institutions, among them Drexel University, the University of Pennsylvania medical complex, including Children’s Hospital; and the University of Pennsylvania.

The Schuylkill Arsenal Bridge over the University of Pennsylvania's fields, the Schuylkill Expressway, and the Schuylkill River. From Google Maps

As the trains were carrying oil from out west and following a route we know that the Bakken oil trains take on their way to the Philadelphia Energy Solutions refinery in South Philadelphia, it’s a safe bet that these were the same trains that have derailed and exploded four times in the last eight months and whose construction and contents are becoming notorious for their safety hazards. Of course, it doesn’t help that the trains were crossing a 100-year-old bridge that now sees two mile-long oil trains each day. Fortunately, none of the cars fell off the bridge, nor have authorities found any leaks. News photos show the cars almost dangling from the narrow two-track bridge, precariously close to falling into the river. As of 9 a.m. this morning, they were still there.

As with pipeline explosions and leaks, it seems like oil train derailments and explosions are becoming business as usual. Also as usual, authorities aren’t sure what may have caused the train to derail. That’s a question that needs to be answered before any more of these trains run. Will it be? That’s partly up to us– and to you.

So Philadelphians, or anyone else living in the path of these “bomb trains”: write and call your elected officials and ask them if they have an evacuation plan for if disaster occurs. Urge them to make sure the trains are stopped to ensure residents’ safety; join our regional letter-writing campaign (contact powinquiries@gmail for fact sheets and more information), and tell your neighbors about the threat chugging right through our backyards.