Tag Archives: Massive increase in crude-by-rail

NPR: A Hard Look At The Risks Of Transporting Oil On Rail Tanker Cars

Repost from National Public Radio
[Editor:  Everyone is talking about this one!  It’s a full-length episode of Fresh Air – 30 minutes, so settle back.  Investigative reporter Marcus Stern is thoughtful, solid and very well-informed.  Interviewer Dave Davies, filling in for Terry Gross, covers a lot of ground.  Listen (or read the transcript) below.  – RS]

A Hard Look At The Risks Of Transporting Oil On Rail Tanker Cars

February 25, 2015 2:12 PM ET

DAVE DAVIES, HOST:  This is FRESH AIR. I’m Dave Davies in for Terry Gross, who’s off this week. Earlier this month, a train carrying crude oil derailed in West Virginia, sending 27 cars off the track, spilling oil across the landscape and into a nearby creek, and causing explosions and fires that burned for days. And it isn’t the only such accident in recent years.

(SOUNDBITE OF EXPLOSION)

UNIDENTIFIED OPERATOR: Nine-one-one, what’s your emergency?

UNIDENTIFIED WOMAN #1: Oh, it just blew up. A train blew up. You need fire and ambulance – everything – right away.

DAVIES: That’s a 911 call from a derailment and explosion near Casselton, N.D., in December of 2013. Five months before that, a tank car derailment in Canada sparked fires that killed 47 people.

Our guest, investigative reporter Marcus Stern, has spent the past year looking into the risks of transporting oil on rail tanker cars, a practice which has expanded dramatically in the past eight years. His stories focus in particular on how regulators have responded, or failed to, following the tragedy in Canada. Marcus Stern won the 2006 Pulitzer Prize for National Reporting for his investigation of San Diego Congressman Randy “Duke” Cunningham. His reporting on the risks of rail transportation of crude oil was a joint effort of the environmental website InsideClimate News and The Weather Channel.  [Editor: See BOOM: North America’s Explosive Oil-by-Rail Problem]

Well, Marcus Stern, welcome to FRESH AIR. Let’s begin with this horrific accident that happened in the Canadian town of Lac-Megantic – or at least that’s how it’s pronounced in this country. I’m sure the French pronunciation’s different. This was July of 2013. Tell us what happened.

MARCUS STERN: There was a train that was hauling crude oil – about 2.6 million gallons – and it had a little bit of a mechanical problem. And so the railroad instructed the lone conductor – the lone crewmember -to leave it overnight with the engines running unattended. And he called a cab and went into town, into Lac-Megantic, to get sleep and spend the night at a hotel. And in the middle of the night, the brakes failed on the locomotives. And there were several locomotives. And it started down a long incline. And by the time it reached Lac-Megantic, seven miles down the hill, it was doing 60 miles an hour. It hit a curve there. It derailed and several of the railcars exploded. Fireballs went shooting several-hundred feet into the air. And a tide of flaming oil flowed in every direction, including the direction of a nearby bar/restaurant that was full of patrons. It was one o’clock in the morning on a Saturday night – a beautiful July night. And it immediately engulfed the bar/restaurant in flames. And 47 people were killed. The remains of five people – no remains were found of five of the people.

DAVIES: Because the heat was so intense?

STERN: Yes, it just vaporized these people.

DAVIES: Now, this accident was in Canada. But we’re seeing a lot more rail traffic of tanker cars in the United States. And I guess this oil actually had come from the United States. Why are we seeing so much more tanker traffic and crude oil being carried on railroads?

STERN: What happened is in 2005, roughly, there were advance – new developments in fracking technology that allowed the producers to pull light crude oil from about two miles beneath the ground in North Dakota. And suddenly that was available to them. And they could start pulling it out. They were pulling out hundreds of thousands of gallons of barrels a day. The problem is that, you know, while they suddenly became – you know, had this huge resource, and they now were Texas. They were Texas without pipelines. They had all the oil production of Texas – not quite as much, but they’re now number two to Texas – but they didn’t have any of the infrastructure in place. And so the – very cleverly, they turned to the rails because the rails were sitting sort of idle and not used very much except for by grain farmers. And also, you had refineries on the East Coast that were actually getting ready to shut down because they couldn’t compete with the Gulf Coast refineries that were using domestic crude oil because the East Coast refineries were using oil purchased on the world market at a higher price. So by pulling it out of the ground, putting it on the rails, and sending it to the East Coast refineries, it created a renaissance – an industrial renaissance, if you will – worth tens of billions of dollars, perhaps hundreds of billions of dollars. So it was a huge, big, good business story until the trains started to blow up.

DAVIES: So the fast solution to a lack of pipelines to get the crude to refineries was to put it on tanker cars. Give us a sense of how dramatically the rise is in, you know, crude oil being shipped by tanker car.

STERN: Yeah, the ramp up on crude by rail was just incredible. It’s why it caught so many people by surprise. In 2008, there were 9,500 rail cars that moved carrying crude oil. Last year, there were well over 400,000. So a lot of people mistakingly say that’s a 400 percent increase. It’s actually a 4,000 percent increase. They’re pulling more than a million barrels of oil out of the ground every day. And much of that is going – in North Dakota. And much of that’s going onto the rails.

DAVIES: OK. Now, we’ll talk about some of the issues in rail transport. But I gather there is also issues about the kind of oil that’s coming from these shale deposits in North Dakota that could make them more dangerous, right?

STERN: The oils from North Dakota come out of the ground. They come out – it’s called light oil. It’s not the viscous, black, gooey oil that we all think of from “The Beverly Hillbillies.” It’s more like gasoline. When it comes out of the ground, it’s a mixture of oil and also what are called natural gas liquids. These are methane, butane, propane. They’re gases that we all know, but they’re actually suspended in the oil. They’re suspended in the liquid when they come out of the ground. And if they aren’t processed properly – and they aren’t being processed properly – then a lot of those natural gas liquids go into the railcars. And during the journey to the refinery, which can be thousands of miles, the gases begin to separate from the liquid, and you have a blanket of propane essentially sitting on top of the oil.

DAVIES: Which is more explosive?

STERN: Yes, and what happens when you end up with this gaseous blanket sitting on top of the liquid oil, if there is a breach of the railcar and any of the gas – the propane or butane gases inside – come in contact with the outside air and there is a spark, then you have one of those huge explosions where you see the fireballs going into the air hundreds of feet and a flaming oil going in all directions. And the emergency responders have to just cordon off the area to wait for them to burn out. And they’ll – one will blow, and it’ll act like a blow torch on another railcar that didn’t rupture, and then it will blow. And so you have a series of explosions that can go over two or three days.

DAVIES: And the Lac-Megantic tragedy in Canada was of course widely reported. Are we seeing more accidents in the United States as well?

STERN: Yeah, and I think what we saw is it was a big wake-up call for the regulators in Canada. But I think for the regulators down here in the U.S., there was a sort of sense that that was a perfect storm of calamities; that was a fluke; that there was just so many things that happened that would never happen down here. And one of the things they would site in private conversations was leaving trains on the tracks unattended. Actually, it turns out we do that down here. And it wasn’t very long before there was an explosion in Aliceville, Ala., a few months later, and was not as widely reported by any means because there was nobody killed. But there were – but nine acres of wetland and timberland burned for three days. And everything was destroyed. The wildlife, the fish, the habitat was destroyed. And they were still cleaning that area – that wetland – up almost a year later.

DAVIES: And there was an accident in December, 2013 in – what? – Casselton, N.D., evacuated a town of 2,300. And there have been several others, right?

STERN: There was a very dramatic explosion in Casselton, N.D., where the images were captured, and they were pretty impressive, although they – you know, it was a one-day story. And then more recently, on April 30, there was an explosion. A train exploded in Lynchburg, Va., and set the James River on fire. And of course we have the very recent one with West Virginia.

DAVIES: Let’s talk a bit about the transport of crude oil in railcars. How long are the trains that haul this stuff – how many cars?

STERN: Well, they are running about 100 cars now. They can extend for more than a mile. They’re carrying 3 million gallons of this crude oil that’s very volatile. And it’s a new – it’s a very new phenomenon. It used to be if they had – hauling crude oil by rail, they would have a couple of crude oil rails and – railcars or tankers. Then they would have some other things. And they’d split them up, so there was only a few railcars in any one stretch of a train. Now they’re just setting up these trains where there – got more than a hundred tankers being hauled by two, three or four locomotives. And they stretch for more than a mile.

DAVIES: And do they go through population centers?

STERN: They go through population centers because many of the refineries are in population centers – Philadelphia, Mobile, you know. But they also go down rivers – the Hudson River. They go down the Mississippi. They go through very environmentally sensitive areas like the George Washington National Forest. And through the – through the Columbia River Gorge in the Pacific Northwest.

DAVIES: Our guest is investigative journalist Marcus Stern. We’ll continue our conversation in a moment. This is FRESH AIR.

(SOUNDBITE OF MUSIC)

DAVIES: This is FRESH AIR, and if you’re just joining us, our guest is investigative journalist Marcus Stern. He’s written recently about the risks of hauling crude oil in railroad tanker cars for Inside Climate News and The Weather Channel.

There’s been an issue of the particular model of railcar that is used to carry the crude oil. This is the DOT-111. What – how old are they? What were they designed for?

STERN: The DOT-111 – and that’s its designation, and that’s what it’s known by – simply it’s – some people call them the dot 111. But the DOT-111 was designed in the ’60s, and it was really designed for something not flammable. It was designed for corn syrup, for instance, and far less flammable products. And since 1991 – so for 23 or 24 years now – the National Transportation Safety Board has been saying that this is a very dangerous railcar to put anything volatile into because it has a tendency to rupture whenever there’s a derailment.

So but in – around 2005, we started producing a great deal of ethanol, and we put that onto the rails, and then beginning in 2008, we’ve started ramping-up with crude oil. And we – the producers and the refiners used the DOT-111 because it was really the only car that was available to them in the numbers they needed. They’re using about 100,000 – almost 100,000 DOT-111s right now. And it was the only – they were only really the carriage that was available, even though it was flawed. But they did that knowing the flaws with the DOT-111, and they’re still using the DOT-111.

DAVIES: And what are the flaws? Why is it problematic?

STERN: Well, it’s got a number of problems. One of the reasons it tends to rupture is that the shell is not thick enough. The opening of the top that they put the oil into breaks off in derailments. The valves don’t shut properly. At the bottom, there’s a fitting where they remove the oil. That, too, tends to break. And also, they need to be reinforced at both ends of the car. Now, over the years, there have been a number of petitions to the regulatory agency that oversees the movement of hazardous materials, and that’s called the Pipeline and Hazardous Materials Safety Administration, otherwise known as PHMSA – or pronounced phimsa (ph). And it never took up any of these petitions until after Lac-Megantic

DAVIES: In the recent accident in West Virginia, I read in one account that the cars that derailed and exploded there actually had some of the more advanced features. Is that true? Do you know?

STERN: That is true, and several of the incidents that have happened in the last year have involved these – the new car that was mandated beginning in October 2011. And again, let me be clear, this was mandated by the railroad industry, not by the government. The government hadn’t acted at all – still hasn’t acted on this question of what kind of cars would be good enough, but – so they began in October 2011 building tougher cars. They need to have thicker shells. They need to have half-inch shells and other improvements that go beyond what the railroad industry itself had laid down as the marker in 2011.

DAVIES: And just to clarify, you said that in 2011, the railroad industry mandated tougher cars. But a lot of the old ones – the old DOT-111s – are still on the rails, aren’t they?

STERN: Yes.

DAVIES: Is it really a requirement?

STERN: Well, the new cars have to be built to this higher standard, but there are still hundreds of thousands of the old cars. They’re called the legacy vehicles, and they’re still out there on the rail. And a lot of the discussion is about how quickly those old railcars will be – those legacy railcars will be phased out. And you know, many of the mayors in the communities along the roads – the rail routes – have argued for, immediately, they want those off the track now.

DAVIES: This is a fascinating part of the story, as you tell it, which is that the railroads themselves are concerned that these cars are dangerous. Who objects to replacing them then?

STERN: Well, the railroads don’t actually own the railcars. The railroads own the track, and they have the right-of-ways. They have the locomotives. But the people who own the railcars are the producers in North Dakota and the refineries that are taking them. They’re called the shippers. And so basically, the refineries and the producers own these railcars, and so the burden of upgrading the railcars falls on them. And they are the ones that are resisting the upgrades.

DAVIES: Right, I mean, we think of the railroads as managing this, but in fact, they’re – they, in effect, have to open their tracks to any cargo, right? They legally can’t refuse to carry this stuff, right?

STERN: That’s absolutely right. And also, when something happens on the tracks in a community, the community looks at the railroads. They don’t look at the producers. They don’t look at the refineries, but they look at the railroad. So the railroad really feels the burden of the liability. In Lac-Megantic, the railroad there caused what could be up to $2 billion worth of liabilities. It promptly went bankrupt because it only had $25 million worth of insurance. And very few of these railroads in the United States have significant amounts of insurance to cover the kinds of liabilities that they’ll face in these kinds explosions.

DAVIES: All right, but to come back to the issue of the tanker car. So the railroads want heavier, safer tanker cars. The shippers save money by using the older, inferior ones. How much would it cost to actually upgrade the fleet of tanker cars, and is anybody doing it?

STERN: Well, they say it’s about a $3 billion upgrade, and they’re – and the, you know, the oil producers and the refineries, the shippers are balking. But it’s a real – it’s a delicate kind of a dance. They don’t often come out and say that. What they say is that these upgrades are not necessary, that the oil is not so – as volatile as people say it is. So what happened is, the DOT – the Department of Transportation – initiated comprehensive review or a rewrite of the regulations right after Lac-Megantic. But we’re here – we’re a year and a half later, and those regulations haven’t emerged. It’s sort of is a very, very good example of how the regulatory process, in many cases, has fallen apart through the negotiated rulemaking process that gives the industry a very loud voice at the table. And they can delay, and they can dilute, and they can delete a lot of these provisions just simply by objecting.

It’s funny. We Americans are very familiar with the gridlock in Congress, but I don’t think they’re as familiar as a – with the similar gridlock that takes place in a lot of regulatory agencies, and certainly at the Department of Transportation when it comes to crude-by-rail. They have not been able to get these regulations out, and it’s been more than a year and a half.

DAVIES: You know, it’s interesting because, as you describe that, I think a lot of commercial interests say, you know, government regulatory agents are tyrants, imposing rules on us that they don’t really understand the impact of, and it’s really unfair. You say there is a negotiated rulemaking process. I mean, where’s that ordained? Why is it – you want to explain that a bit?

STERN: In the past couple of decades, it’s just really evolved that the rulemaking process is much more of a negotiated process. A lot of it happens in secret, behind closed doors. But essentially, the industry has a – is able to give a lot of input. So is the public. But the industry always has a little better access. Groups like the American Petroleum Institute have a budget of more than $200 million a year. The American Association – the Association of American Railroads has $50 to $60 million a year. And they do a lot of lobbying in Washington, so they get their voice heard a little better than the average person in the public.

DAVIES: We mentioned earlier that a lot of these trains do go through population centers. Are they going through the middle of big cities?

STERN: Philadelphia is probably a prime example where you’ve got oil refinery and infrastructure all around the downtown Philadelphia area, but you see it elsewhere as well. You know, they talked about rerouting oil trains around populated areas, which sounds good, but it doesn’t account for the fact that the destination for most of those railcars is refineries in very populated areas. So you’re getting a build-up of the rail infrastructure around populous areas, such as Philadelphia.

DAVIES: And there have been some derailments in Philly, haven’t there?

STERN: Yes, there was an incident that occurred in downtown Philadelphia. There was a train crossing the Schuylkill River, and it came off the track. And it was suspended, hanging from the bridge for almost three days before they were able to right it. Now, in this case, the train did not fall off the elevated track. Had it fallen off the elevated track, almost certainly you would have seen fireballs hundreds of feet into the air and flaming tides of crude oil on the whatever was below, whether it was the river or a roadway. It would have been quite dramatic and perhaps even cataclysmic.

DAVIES: Marcus Stern is an investigative reporter whose pieces on the rail transportation of crude oil are a joint effort of the environmental website Inside Climate News and The Weather Channel. After a break, he’ll talk about deteriorating railroad bridges and the practice of leaving trains running and unattended. Also, rock critic Ken Tucker, reviews the new album from the band The Mavericks. And tech correspondent Alexis Madrigal considers home appliances that are connected to the Internet. I’m Dave Davies, and this is FRESH AIR.

(SOUNDBITE OF MUSIC)

DAVIES: This is FRESH AIR. I’m Dave Davies in for Terry Gross, who’s off this week. We’re speaking with investigative reporter Marcus Stern, who’s looked into the dramatic increase in the transportation of crude oil on North American railroads and the growing number of derailments and fires that have followed. Stern won a Pulitzer Prize in 2006. His investigation into rail transportation of crude oil is a joint effort of the environmental website InsideClimate News and The Weather Channel.

We’ve talked about the problems with the design of tanker cars, but there are other factors which affect safety that you write about. One of them is bridges. These trains – big, heavy, long trains – go over a lot of bridges. And you describe one near Tuscaloosa, Ala. Just talk about this bridge – its age, its condition, what you saw.

STERN: Well, I went down to Tuscaloosa. And there’s a local environmentalist who was concerned about the bridge – walked me along the base of the bridge. And it goes for about a half-mile or more. It crosses from the downtown Northport, Ala., to downtown Tuscaloosa. It is a beautiful, old bridge. It’s 116 years old. It’s timber. It’s a big, elevated, timber-trestle bridge. So the trestles cross over a park on one side. They are elevated about 30 or 40 feet above the park. People bike underneath the trestles. They push baby strollers. They walk. They jog. Then you cross the river and you pass the Tuscaloosa Amphitheater, which has big concerts. And just down river from that is a major refinery. And they’re building condos right there.

So if a train derailed on that bridge, it would be catastrophic because there’s just so much there. Unlike Aliceville, Ala., or Lynchburg, Va., where – West Virginia – where it wasn’t a congested area, this could be a very high-consequence incident if it happened. So I walked along the base of this bridge, and a lot of the pilings that support the bridge were rotted. You could see all the way through them. You could put a stick through them. There were cross bars that were hanging off. And there was a portion of the bridge that was burned. It did not, upon close examination, look safe to me.

DAVIES: Right. And neither you nor I are qualified, I suppose, to judge the engineering structure of bridges. But tell us what the regulations say about how often these things are inspected, by whom, whether the reports are public.

STERN: Well, I started asking the local officials if they’ve had any assurance the bridge was safe. And they said that the railroad is responsible for that. I checked with the – at the State Department of Transportation in Montgomery, Ala. And they also told me that that’s the railroad’s responsibility, that they – it’s not on their radar at all. And I talked to the Federal Railroad Administration. And they told me, well, oh, you know, we get concerns about bridges; we get calls every day; we go out and we check them out, and invariably the bridges are just fine. And they assured me that was most likely the case here.

And I did a Freedom of Information Act and got some documents that showed that there was a very cursory inspection of the bridge in 2008 – I believe it was – and later in 2010. And the one in 2010 actually resulted in the bridge being closed immediately for repairs. But nobody could really tell me if the bridge in its current condition was safe. I talked to the railroad. And as it turns out, the railroad is the only party that can really tell you whether the bridge is safe or not because under our current regulations, the federal government does not inspect the bridges. It does not enforce any of the regulations. In fact, there are no engineering standards for railroad bridges – period. The federal government doesn’t even have an inventory of railroad bridges, although there’s estimated to be 70 to 100,000 of them across the country.

DAVIES: The inspections that the railroads themselves conduct are not publicly available, right? So whatever they do and whatever they decide is held secret – essentially is private information.

STERN: Yes, that’s one of the real problems here, I think, for local communities is that the only person who has this material, this information, this data are the railroads themselves. And I even tried to hire an engineer – a bridge safety engineer – to go look at this bridge. And I couldn’t because everybody I approached said, no, I won’t do it because to do it I would have to have access and permission from the railroad to not only their tracks, which, you know, if I don’t get permission from them, I’m trespassing. But also they’d have to give me all of their bridge design papers that they may have and maintenance records and other safety records, and that’s not going to happen. So really there is no way for a community to know whether the bridge is safe. They just have to take the railroad’s word for it.

DAVIES: I wanted to ask you about this practice of trains being left running and unattended. I mean, to those of us who don’t know anything about the industry, this sounds crazy. That’s what happened in this horrific accident in Canada. Now, tell us why that happens. I mean, why would anybody do that?

STERN: Well, I can’t for the life of me understand why they would do it. It seems bizarre. You know, as a layperson and even after talking with people around it, it seems insane. But, you know, right after Lac-Megantic, one of the first things that the Department of Transportation did in the United States was to issue an emergency order. It was probably the strongest single thing it’s done. It issued an emergency order that said that trains may not be left unattended with the engines running on tracks without specific permission. I think the coverage of that, and certainly my take away when I saw the press release, was OK, so that means they’re going to make sure there is no trains left on tracks with the engines running unattended in the United States. Well, it turns out not to be the case.

And I’ve discovered that because there was – I got in touch with somebody in a town called Plainville, Ill., who told me that there had been a train sitting idling on their track for seven hours in the middle of their downtown. And they called the railroad, and the railroad said they are allowed to do that. So months later, I called the railroad, talked to the same spokesperson for the railroad, and he said, we are allowed to do it. And he wouldn’t explain to me why they were allowed to do it or how it squared with the emergency order. It took additional reporting, and finally I was able to determine, by talking with people at the Federal Railroad Administration, that if you look at the actual regulation as it appears in the Federal Register – it appeared several days after the press release – it actually had some small print. It said they actually – the railroads – only had to have a plan for leaving the railroad cars unattended with the engines running. As long as they had a plan in a drawer somewhere, then they could continue to do it. And apparently they are continuing to do it.

DAVIES: You know, it’s a Democratic administration in Washington. I mean, one might think that they might be a little bit more willing to be tough on industry in these circumstances. Do they fear that if they enact a regulation that they’ll be taken to court?

STERN: Well, (laughter) I’m just going to say an aside here that – from being in Washington, I’ve learned there’s not so much a Democratic Party and a Republican Party as an incumbent party and a challenger party. But President Obama selected a person to head the Pipeline and Hazardous Materials Safety Administration in 2009. This is the person who would oversee the safety of the pipelines across America and also these – the crude-by-rail phenomenon that has just really exploded since 2009. And it was very interesting that his choice for this position was a woman named Cynthia Quarterman. And she came from a law firm where her job was to represent all of these industries that she’s now regulating. So she went from representing them against regulators to being the top regulator.

DAVIES: You know, one way to resolve the issue of transporting all this crude-by-tank car would be to build pipelines. Is that happening?

STERN: Well, one of the reasons I think that producers and refiners have turned to rail is because pipelines are just so difficult to get approved. You can look at the Keystone XL Pipeline – the big debate over it – and it’s become a lightning rod for this whole discussion. But building pipelines is very contentious. And in addition to that, it takes a lot of time to do it. There’s a big upfront expense. And by the time they were putting pipelines into North Dakota, the North Dakota play might be played out.

DAVIES: In a lot of cases, local officials are bewildered by the fact that these trains are running through their communities, and when a disaster occurs, they are often unprepared for the scale of it. Is there any requirement that local officials be informed that a crude oil train is coming through or that some disaster plan be ready to deal with an accident?

STERN: Well, the Railroad Safety Advisory Committee took up the question of emergency response plans and completely punted – they just – the industry would not go along with it. The National Transportation Safety Board and its counterpart in Canada, these safety agencies, have said there must be – they need to have response plans. The pipelines companies have response plans. They’re required to have response plans. At this point, the U.S. railroads are not required to have emergency response plans.

The one thing that has happened in the past year-and-a-half since Lac-Megantic and these other disasters is that the federal government has told the railroads that they must notify state emergency officials whenever they’re going to be sending a train through a state that has more than a million gallons. So the state emergency planners get a heads up that there will be trains moving through of more than a million gallons – individual trains more than a million gallons. Anything less they don’t get notified of, and it’s not guaranteed that that gets down to the community level. And when I talked with a lot of the local officials in Tuscaloosa, I was really struck by the fact that they seem to feel very comfortable that they can handle whatever happens. Yet also the people in Lac-Megantic, when you talk to them, they shake their heads. And they say to the people of America, you know, you really don’t want this to happen in your backyard. This happened here. We lost 47 people. It destroyed our downtown. There’s no way anybody is going to be prepared for this if it happens in your downtown area.

DAVIES: Marcus Stern, thanks so much for speaking with us.

STERN: Thank you.

DAVIES: Marcus Stern is an investigative reporter whose pieces on rail transportation of crude oil are a joint effort of the environmental website InsideClimate News and The Weather Channel. Coming up, Ken Tucker reviews the new album from the band The Mavericks. This is FRESH AIR.

MINNESOTA PUBLIC RADIO: Seven things you need to know about oil-by-rail safety

Repost from Minnesota Public Radio (MPR)

7 things you need to know about oil-by-rail safety

By Emily Kaiser, Feb 26, 2015
Derailment in Mount Carbon, West Virginia
This aerial Feb. 17, 2015 file photo photo made available by the Office of the Governor of West Virginia shows a derailed train in Mount Carbon, West Virginia. Steven Wayne Rotsch | AP file

Last week’s oil train derailment in West Virginia launched a national conversation about the safety of shipping oil by rail. It’s a topic we’ve been hearing about over the past couple years, especially here in Minnesota, where Bakken oil crisscrosses the state’s rail lines in large volume.

It’s a complex topic combining federal policy with scientific questions. The Wall Street Journal’s Russell Gold has been following the issue closely and spoke to MPR News’ Tom Weber to explain what you need to know.

Here are 7 things you should know about oil transport by rail:

1. The most misunderstood part of crude oil transport by train: It’s very explosive.

“The kind of oil that’s being taken out of the ground in North Dakota and put into these tanker cars is a much lighter oil,” Gold said. “It is a very gassy oil; it has a lot of ethanes, and butanes and propanes dissolved in it. It really does explode and that’s really what’s causing the problems.”

When a set of tanker cars goes up in flames, it can cause 20-story-tall fireballs.

Footage from the West Virigina derailment last week:

2. The amount of crude oil carried by train has increased exponentially in less than a decade.

According to the American Association of Railroads, there were 9,500 rail cars carrying crude in 2008. Last year is was 400,000.

We’ve been moving small amounts of crude by rail for years, but it was one or two cars in long train, Gold said. Now we see 100 to 120 tanker cars all filled with crude oil. That’s 70,000 barrels of crude per train, he said.

3. Once the crude oil is extracted in North Dakota, it has to be transported to the country’s major refineries on the coasts.

Refineries are built to utilize the gases removed from the product. If it was stabilized near the extraction site, North Dakota would have to find a way to use or dispose of the ethane and propane gases that make the oil explosive.

4. Railroads have become “virtual pipelines” for oil.

From a Gold WSJ article:

While these virtual pipelines can be created in months, traditional pipelines have become increasingly difficult to install as environmental groups seek to block permits for new energy infrastructure.

“What we are seeing on rail is largely due to opposition to and uncertainty around building pipelines,” said Brigham McCown, who was the chief pipeline regulator under President George W. Bush . Pipelines, he adds, are far safer than trains.

5. Pipeline leaks and spills are environmental problems. Oil train derailments are public safety issues.

When you have a tank car that derails and starts losing it’s very gassy oil, it’s going to burst into fire rather than leak into waterways, Gold said.

6. If you live close to these rail lines, get in touch with local first responders.

Gold recommends checking with emergency responders nearby and ask if they are properly trained to handle a crude oil train derailment. Make sure your fire chief is in contact with the rail companies to know when major shipments come through your area. Push for decreasing train speed limits and increased track inspection.

7. Can we make the tanker cars safer? Gold gave us the latest:

MPR News Producer Brigitta Greene contributed to this report.

AP EXCLUSIVE: DOT predicts fuel-hauling trains will derail 10 times a year; cost $4 billion; 100’s killed

Repost from Associated Press News
[Editor: Download the July, 2014 Department of Transportation analysis here.  A word of caution: a reputable source writes, “On a closer inspection, PHMSA conceded that the numbers it used for the analysis are flawed and that the scenarios lined out in the AP story are assuming no new regulations are enacted.”  That said, my source also wrote, “We didn’t need a study to tell us there was a problem.”- RS]

AP Exclusive: Fuel-hauling trains could derail at 10 a year

By Matthew Brown and Josh Funk, Feb. 22, 2015 12:00 PM ET

BILLINGS, Mont. (AP) – The federal government predicts that trains hauling crude oil or ethanol will derail an average of 10 times a year over the next two decades, causing more than $4 billion in damage and possibly killing hundreds of people if an accident happens in a densely populated part of the U.S.

The projection comes from a previously unreported analysis by the Department of Transportation that reviewed the risks of moving vast quantities of both fuels across the nation and through major cities. The study completed last July took on new relevance this week after a train loaded with crude derailed in West Virginia, sparked a spectacular fire and forced the evacuation of hundreds of families.

Monday’s accident was the latest in a spate of fiery derailments, and senior federal officials said it drives home the need for stronger tank cars, more effective braking systems and other safety improvements.

“This underscores why we need to move as quickly as possible getting these regulations in place,” said Tim Butters, acting administrator for the Transportation Department’s Pipeline and Hazardous Materials Safety Administration.

The volume of flammable liquids transported by rail has risen dramatically over the last decade, driven mostly by the oil shale boom in North Dakota and Montana. This year, rails are expected to move nearly 900,000 car loads of oil and ethanol in tankers. Each can hold 30,000 gallons of fuel.

Based on past accident trends, anticipated shipping volumes and known ethanol and crude rail routes, the analysis predicted about 15 derailments in 2015, declining to about five a year by 2034.

The 207 total derailments over the two-decade period would cause $4.5 billion in damage, according to the analysis, which predicts 10 “higher consequence events” causing more extensive damage and potential fatalities.

If just one of those more severe accidents occurred in a high-population area, it could kill more than 200 people and cause roughly $6 billion in damage.

“Such an event is unlikely, but such damages could occur when a substantial number of people are harmed or a particularly vulnerable environmental area is affected,” the analysis concluded.

The two fuels travel through communities with an average population density of 283 people per square kilometer, according to the federal analysis. That means about 16 million Americans live within a half-kilometer of one of the lines.

Such proximity is equivalent to the zone of destruction left by a July 2013 oil train explosion that killed 47 people and leveled much of downtown Lac-Megantic, Quebec, the analysis said.

Damage at Lac-Megantic has been estimated at $1.2 billion or higher.

A spokesman for the Association of American Railroads said the group was aware of the Department of Transportation analysis but had no comment on its derailment projections.

“Our focus is to continue looking at ways to enhance the safe movement of rail transportation,” AAR spokesman Ed Greenberg said.

Both the railroad group and the Railway Supply Institute, which represents tank car owners and manufacturers, said federal officials had inflated damage estimates and exaggerated risk by assuming an accident even worse than Lac-Megantic, which was already an outlier because it involved a runaway train traveling 65 mph, far faster than others that had accidents.

To get to refineries on the East and West coasts and the Gulf of Mexico, oil shipments travel through more than 400 counties, including major metropolitan areas such as Philadelphia, Seattle, Chicago, Newark and dozens of other cities, according to routing information obtained by The Associated Press through public record requests filed with more than two dozen states.

Since 2006, the U.S. and Canada have seen at least 21 oil-train accidents and 33 ethanol train accidents involving a fire, derailment or significant amount of fuel spilled, according to federal accident records reviewed by the AP.

At least nine of the trains, including the CSX train that derailed in West Virginia, were hauling oil from the Northern Plains’ Bakken region that is known for being highly volatile. Of those, seven resulted in fires.

Both the West Virginia accident and a Jan. 14 oil train derailment and fire in Ontario involved recently built tank cars that were supposed to be an improvement to a decades-old model in wide use that has proven susceptible to spills, fires and explosions.

Safety officials are pushing to make the tanker-car fleet even stronger and confronting opposition from energy companies and other tank car owners.

Industry representatives say it could take a decade to retrofit and modify more than 50,000 tank cars, not the three years anticipated by federal officials, who assumed many cars would be put to new use hauling less-volatile Canadian tar-sands oil.

The rail industry’s overall safety record steadily improved over the past decade, dropping from more than 3,000 accidents annually to fewer than 2,000 in 2013, the most recent year available, according to the Federal Railroad Administration.

But the historical record masks a spike in crude and ethanol accidents over the same time frame. Federal officials also say the sheer volume of ethanol and crude that is being transported – often in trains more than a mile long – sets the two fuels apart.

Most of the proposed rules that regulators are expected to release this spring are designed to prevent a spill, rupture or other failure during a derailment. But they will not affect the likelihood of a crash, said Allan Zarembski, who leads the railroad engineering and safety program at the University of Delaware.

Derailments can happen in many ways. A rail can break underneath a train. An axle can fail. A vehicle can block a crossing. Having a better tank car will not change that, but it should reduce the odds of a tank car leaking or rupturing, he said.

Railroads last year voluntarily agreed to reduce oil train speeds to 40 mph in urban areas. Regulators said they are considering lowering the speed limit to 30 mph for trains not equipped with advanced braking systems. Oil and rail industries say it could cost $21 billion to develop and install the brakes, with minimal benefits.

POPULAR MECHANICS: We Need Better Oil-Carrying Train Cars Now

Repost from Popular Mechanics

Why We Need Better Oil-Carrying Train Cars Now

U.S. has seen a 400 percent increase in crude oil transportation. So why don’t we have rail cars that are designed to carry it?

By William Herkewitz, Feb 20, 2015 @ 9:06 AM
The Register-Herald, Chris Jackson

On Monday, a train hauling 100 tankers of crude oil derailed in West Virginia. The violent crash punctured several of the tankers. Eventually 19 were engulfed in flames. Now, more questions are swirling about whether these tankers are safe enough to carry crude.

Old cars, new crude

Initially, the crash had many pointing to a seemingly similar accident in Lac-Mégantic, Quebec in 2013, in which crude oil tankers also ignited following a derailment. In the Quebecois crash, many of the tanker cars involved were DOT-111s—a train car not designed to transport flammable crude oil, but that regularly does so on North American rail lines.

Since 2005, the U.S. has seen a 400 percent increase in crude oil transportation

In 2009, four years before the Quebecois crash, the DOT-111 had been flagged by U.S. National Transportation Safety Board as inadequate to carry ethanol and crude oil, chiefly because of its inability to prevent a puncture in the event of a crash. But the NTSB’s recommendations are not legally binding anywhere in North America. More than 100,000 DOT-111s were transporting crude across American and Canadian rails when the Quebec accident occurred, and still are today.

View image on Twitter
TWITTER – The Hill ✔ @thehill Fires are still burning three days after the West Virginia oil train crash: http://ow.ly/Jlmlk 12:40 PM – 19 Feb 2015

The CSX Corporation, the railway company that owns Monday’s crashed tankers, was quick to point out that the tankers in use in the West Virginia crash were not DOT-111s, but CPC-1232s. But the fact is that a CPC-1232 tanker is just a reinforced, purportedly tougher version of the DOT-111—a redesign put in place after the NTSB’s 2009 warning. The biggest difference between the DOT-111 and the CPC-1232 is that the head shields (the puncture-prone ends of the cylindrical tankers) are more heavily protected.

Enough shielding?

These CPC-1232s are being increasingly used for crude oil transportation, and are planned to eventually phase out the older DOT-111 models. But as the West Virginia accident is shows, the CPC-1232 is also far from disaster-proof.

America needs a crude oil tanker that will not puncture in a crash

Why? Although the CPC-1232 boasts sturdier head shields, both it and the DOT-111 suffer from a much more basic problem: they simply aren’t thick enough overall. Both train cars have a steel shell that measures 7/16 inch thick. That width falls short of the 9/16 inch steel shell that U.S. regulators say would significantly reduce the likelihood of puncture during a derailment. (Granted, the regulators came to this conclusion in January 2014—long after the CPC-1232 redesign.)

View image on Twitter
TWITTER – Matt Heckel @WSAZmattheckel Another explosion just happened here at the train derailment: 8:29 PM – 16 Feb 2015

A real crude oil tanker

Rather than relying on insufficiently beefed-up old-style tankers — which, when first created, were not designed for crude oil anyway — America needs a crude oil tanker that will not puncture in a crash. It’s more important now than ever: Since 2005, thanks to a glut of oil production, the U.S. has seen a 400 percent increase in crude oil transportation. And that number looks to be rising.

Derailments are rare, and railroad techs and transporters do an impressive job of almost always avoiding them. But they will never be completely unavoidable.