Category Archives: Train weight

AP: Railroads beat back new safety rules after derailments

Repost from the Boston Herald

AP: Railroads beat back new safety rules after derailments

By Matthew Brown and Michael Kunzelman, December 05, 2015
FILE -In this Monday, Feb. 23, 2015, file photo, clean up continues near Mount Carbon, W.Va., where a train derailed and sent a tanker with crude oil into the Kanawha River. A little-known truth about North American railroads: No rules govern when rail becomes too worn down. Since 2000, U.S. officials blamed rail wear as the direct cause of 111 derailments causing $11 million in damage. (AP Photo/Chris Tilley, File)

A pair of train derailments in 2012 that killed two people in Maryland and triggered a fiery explosion in Ohio exposed a little-known and unsettling truth about railroads in the U.S. and Canada: No rules govern when rail becomes too worn down to be used for hauling hazardous chemicals, thousands of tons of freight or myriad other products on almost 170,000 miles of track.

U.S. transportation officials moved to establish universal standards for when such steel gets replaced, but resistance from major freight railroads killed that bid, according to Associated Press interviews with U.S. and Canadian transportation officials, industry representatives and safety investigators.

Now, following yet another major accident linked to worn-out rails — 27 tanker cars carrying crude oil that derailed and exploded in West Virginia earlier this year — regulators are reviving the prospect of new rules for worn rails and vowing they won’t allow the industry to sideline their efforts.

“We try to look at absolutely every place where we can affect and improve safety,” said Federal Railroad Administrator Sarah Feinberg. “Track generally is the place that we’re focusing at the moment, and it’s clearly overdue. Rail head wear is one place in particular that we feel like needs to be addressed as soon as possible.”

An official announcement on the agency’s intentions to revisit rail wear is expected by the end of the year.

In the meantime, federal regulators haven’t taken the positive steps that they need to, said Ronald Goldman, an attorney for the families of the two 19-year-old women who died in a 2012 derailment outside Baltimore.

“It’s a lack of will, not a lack of ability, in my opinion,” he added.

Industry supporters argue that the seven major freight railroads in the U.S. and Canada are in the best position to know what is going on with their lines, including when they need to be replaced or have the maximum speeds for trains traveling on them lowered. They also note a long-term decline in accidents that has reduced the frequency of derailments by more than 40 percent since 2000.

All sides agree it’s difficult to pinpoint how many accidents are tied to worn rail. Since 2000, U.S. officials blamed rail wear as the direct cause of 111 derailments causing $11 million in damage.

That’s less than 1 percent of all accidents, yet it masks a broader safety dilemma: Years of massive loads rolling over a rail will exacerbate defects in the steel, such as cracks or fractures. Investigators ultimately list the defect as the cause of a derailment, but it might never have been a problem if the rail had not been worn down.

“Rail defects are internal and rail wear is external, and when external meets internal, that’s when problems may arise,” said John Zuspan of Track Guy Consultants, a Pennsylvania firm that offers track inspections, safety training and other services for railroads.

Two accident causes in particular have the strongest correlation with worn-out rails: “detail fractures” that result from fatigued metal, and “vertical splits” in the head of the rail, where it makes contact with a train’s wheels, according to the FRA.

Those problems caused a combined 1,200 derailments with $300 million in damages, three deaths and 29 people injured in the U.S. between 2000 and the present, according to accident records reviewed by the AP.

Among them was the July 2012 derailment of a Norfolk Southern Railway train hauling ethanol and other products through Columbus, Ohio. Seventeen cars derailed, including three hauling highly flammable ethanol that exploded into flames, triggering an evacuation of surrounding neighborhoods.

A month later, another accident occurred involving a CSX Transportation train hauling coal over a bridge along Main Street in Ellicott City, Maryland, outside Baltimore. Twenty-one cars derailed when the company’s worn-down rail split beneath the weight of the coal cars. The two college students sitting on the bridge died, crushed by thousands of pounds of spilled coal.

The victims’ families reached a settlement with CSX last year for undisclosed terms. Goldman, the families’ attorney, said he pressed federal officials for a forum that would allow his clients to testify about the issue, but “nothing really happened.”

A month after the CSX derailment, federal regulators asked the Rail Safety Advisory Committee — a panel created by the Railroad Administration to include the industry and others in fashioning safety rules — to craft new standards to reduce the risks of worn-down rail. The committee set up a 116-person working group to tackle the problem, made up of industry representatives, government officials, consultants, researchers and railroad worker unions.

The group included 55 representatives from the major freight railroads and their industry organization, the Association of American Railroads. The FRA had 14 seats at the table and their counterparts from Transport Canada had five.

Following several meetings in 2012 and 2013, the group — which required consensus before recommending action — agreed on voluntary guidance for companies to manage rail wear, but no new regulations.

“There was certainly a lot of pushback and a lot of political pressure put on FRA not to adopt regulations for rail wear,” said Richard Inclima, director of safety for the union that represents track inspectors and a member of the working group. “Rail wear limits were on the table. The industry raised a lot of arguments against rail wear limits.”

“The industry doesn’t want to be regulated,” he added. “That’s no secret.”

The railroads’ opposition was confirmed by others involved with the group’s work including from the National Transportation Safety Board, the FRA and Transport Canada.

Association of American Railroads spokesman Ed Greenberg said the railroads were “unaware of any science-based data supporting rail wear limits.”

NTSB investigator Richard Hipskind, who took part in the Ellicott City and Columbus accident investigations and later served on the rail wear working group, said more research would be needed to establish universal standards.

Railroads have their own internal standards for rail wear, and have replaced more than 30,000 miles of rail since 2010, according to reports submitted by the major railroads to the U.S Surface Transportation Board, a semiautonomous agency under the umbrella of the U.S. Department of Transportation.

Standards vary among railroads and are complicated by differences in how much weight a given line bears, whether it’s in a wet or dry climate, and if the line goes through mountains or involves lots of turns. Those variables can make the difference between well-worn rail that’s still safe and routes that poses a heightened safety hazard, according to industry experts and safety officials.

Greenberg said the industry takes an aggressive approach to identifying and removing defective or worn sections of rail.

“Each railroad has its distinct operating environment and operating conditions that would be factored into this,” Greenberg said. He added that the industry was now interested in “renewed dialogue” with the FRA on the topic.

The AP requested details on rail wear standards from each of the seven major freight railroads — BNSF Railway, Union Pacific, Canadian Pacific, CSX, Canadian National, Norfolk Southern and Kansas City Southern. They either refused the request or referred questions to the railroad association, which also declined to release the standards.

Public attention to train derailments increased sharply after July 2013, when an out-of-control oil train derailed and exploded in Lac-Megantic, Quebec, killing 47 people. One of the most significant changes to emerge from that and other accidents involving crude and ethanol was a mandate for companies to phase out or upgrade tens of thousands of tank cars that are prone to rupture.

Those are important changes, said James Horbay, a rail safety engineer with Transport Canada. But what causes trains to come off the tracks in the first place needs to be resolved, he said.

“If you crash an airplane, are you going to say, ‘Let’s build an airplane that’s not going to fall apart when it hits the ground?'” he asked. “Whether rail wear is something that should be looked at is a good question to ask. You’re going right to the cause now.”


Matthew Brown reported from Billings, Montana.  Michael Kunzelman reported from Baton Rouge, Louisiana. 

MUST READ: Hauling crude oil may be causing train tracks to fail

Repost from the Los Angeles Times

Why are so many oil trains crashing? Track problems may be to blame

Ralph Vartabedian, October 7, 2015
Oil train derailment
Smoke and flames erupt from the scene of a train derailment March 5, 2015, near Galena, Ill. A BNSF Railway freight train loaded with crude oil derailed in a rural area where the Galena River meets the Mississippi. (Mike Burley / Associated Press)

The only sign of trouble aboard a Norfolk Southern train, hauling roughly 9,000 tons of Canadian crude in western Pennsylvania last year, was a moderate sway in the locomotive as it entered a bend on the Kiskiminetas River.

The first 66 cars had passed safely around the curve when the emergency brakes suddenly engaged, slamming the train to a stop. The conductor trudged back nearly a mile through newly fallen snow to see what happened.

Twenty-one cars had derailed, one slamming through the wall of a nearby factory. Four tank cars were punctured, sending 4,300 gallons of crude pouring out of the tangled wreckage.

Freight train derailment
Cars are seen from a freight train derailment on Feb. 13, 2014, in Vandergrift, Pa. (Darrell Sapp / Associated Press)

The cause of the accident in North Vandergrift was identified as a failure in the rails — not aging or poorly maintained tracks, but a relatively new section laid less than a year earlier.

The February 2014 crash fits into an alarming pattern across North America that helps explain the significant rise of derailments involving oil-hauling trains over the last three years, even as railroads are investing billions of dollars in improving the safety of their networks. A review of 31 crashes that have occurred on oil trains since 2013 puts track failure at the heart of the growing safety problem.

Track problems were blamed on 59% of the crashes, more than double the overall rate for freight train accidents, according to a Times analysis of accident reports. Investigators and rail safety experts are looking at how the weight and movements of oil trains may be causing higher than expected track failures.

The growing number of trains hauling crude oil from Canada and the Northern Plains are among the heaviest on the rails today, many extending more than 100 cars in length and weighing a cumulative 19,000 tons or more.

Not since the early days of John D. Rockefeller’s oil trust have railroads played such a central role in moving oil from wells to refineries. Oil shipments by rail have soared — an 18-fold increase between 2010 and 2014 — as domestic oil production has escalated faster than the construction of new pipelines to carry it to market.

Concerns about the safety of hauling crude began to rise after the horrific Lac-Megantic accident in Quebec in July 2013 that left 47 people dead and the city’s downtown in ruins.

The Federal Railroad Administration is preparing in coming weeks to issue a new set of initiatives to address the track problems, after previously clamping tighter restrictions on tank car designs and railroad operations. But solving the track problems could be a formidable challenge.

Oil train crashes since 2013
Infographic: Oil train crashes since 2013

Sarah Feinberg, chief of the Federal Railroad Administration, said the agency is working hard to improve safety, but preventing accidents that result from defective track involves finding a needle in every haystack along thousands of miles of track.

“We have been incredibly lucky that the accidents have happened mostly in rural areas,” she said. “Some of them have been very close calls.”

The crashes have occurred as the nation’s railroad system is being asked to do more than at any time in history, putting additional wear and tear on the tracks. Since 2001, railroads have seen a modest 12% increase in the number of cars they haul, but a 24% jump in the more comprehensive measurement of cargo that looks at the weight and train mileage the system has to bear, known as ton-miles, according to industry data.

Though railroads have significantly improved safety in general, the oil train accidents are a worrisome trend in the opposite direction and not fully understood.

Of the 31 crashes involving crude or ethanol since 2013, 17 were related to track problems and 12 a mix of other causes. The cause of the two other crashes remains unclear. The count is based on both final or preliminary government and railroad investigations that were collected by The Times under the Freedom of Information Act or in U.S., Canadian and railroad company filings.

About two-thirds of the accidents resulted in spills, fires or explosions, a record that has already prompted regulators to demand stronger tank cars and other safety measures.

Weight, oil sloshing and cold temperatures are among the issues that might be exacerbating the problem, according to rail safety experts.

Investigators at Safety Transportation Board Canada, which is investigating the eight accidents that have occurred in that country, are beginning to suspect that the oil trains are causing unusual track damage.

“Petroleum crude oil unit trains transporting heavily loaded tank cars will tend to impart higher than usual forces to the track infrastructure during their operation,” the safety board said in a report this year. “These higher forces expose any weaknesses that may be present in the track structure, making the track more susceptible to failure.”

Rick Inclima, safety director at the Brotherhood of Maintenance of Way Employees, also said that oil trains could be creating unique stresses on the track. “You can certainly get some rhythmic forces in … oil trains that you might not see on a mixed freight train with cars of different sizes, weights and commodities,” he said.

The nation’s major railroads are investing record amounts of money to upgrade their tracks and improve safety. The seven class-one railroads, which haul the majority of the nation’s freight, are spending $29 billion this year on their systems, nearly double the level of 2001, according to the American Assn. of Railroads. The trade group did not have any response to The Times analysis of oil train accidents, though it said its member companies exceed federal requirements for inspection and safety.

But that has not eliminated the problem. While all types of derailments dropped 17% over the last three years, there are still more than three every day across the nation, involving trains carrying a variety of freight, according to federal safety data. Bad track accounts for about 27% of overall accidents, less than half the rate that track problems are contributing to oil train accidents.

Though railroad technology may seem antiquated in a digital age, it relies on incredible precision to control monstrously heavy loads. The track in North Vandergrift, Pa., where the Norfolk Southern accident occurred, carries about 30 million tons of freight every year.

The relentless pounding plays havoc with any metallurgical flaw. Wooden ties deteriorate as they age. And other track components crack.

Investigators attributed the Pennsylvania derailment to a “wide gauge” failure, in which the rails were pushed too far apart to keep the wheels on the tracks.

The freight tracks in the U.S. and most of the world are supposed to be 56.5 inches apart, a width known as the gauge. Just three inches of movement can cause a derailment. And even if tracks conform to federal standards, they can separate under the force of a heavy train.

“Wide gauge” is the single largest cause of accidents involving track defects. In the case of the Pennsylvania derailment, it was broken spikes that caused the rail to widen, even though the track had been replaced in 2012, according to Federal Railroad Administration officials.

Private railroad experts have suggested that the sloshing of oil inside the cars may also be involved in the derailments.

Tank cars are only partially filled with oil, allowing for expansion if the temperature increases. The tanks have internal baffles, but the liquid can still slosh as the cars move, causing higher dynamic loads, said Bill Keppen, an independent rail safety expert. “Sloshing increases the stress on the track,” he said.

Federal safety experts said if sloshing does have an effect, they do not consider it significant.

The Times examination of accident reports also shows the large majority of derailments occurred in below freezing temperatures, ranging down to 23 below zero in a crash this year in Ontario.

As temperatures drop, steel rails progressively shrink, amplifying the potential for any existing defect to cause a failure, FRA safety experts said in interviews. Frozen ballast, the crushed rock that forms the rail bed, also causes rail to undergo greater shocks under the load of heavy trains.

Federal regulators and the industry are trying to improve safety, but opinions are sharply divided about exactly what measures are needed.

The Federal Railroad Administration, for example, has ordered that crude-carrying trains can travel at no more than 40 miles per hour in urban areas. But the North Vandergrift train was going only 36 mph. Nineteen of the trains whose speeds are known were moving 40 mph or slower, and no train was going faster than 50 mph, records show.

The railroad administration has increased its track inspections and railroads have agreed to increase their own inspections, according to Matthew Lehner, the agency’s communications director.

“In the coming weeks, the Federal Railroad Administration plans to announce additional steps to prevent crude oil train derailments,” Lehner said.

Critics say that many of the safety initiatives adopted so far reflect a policy aimed at mitigating the damage caused by derailments rather than preventing them.

“The attention has changed,” said Brigham McCown, former chief of the federal agency that sets tank car standards. “I hear people say, ‘It happens, they derail.’ I think that is an untenable position. As a safety regulator, I don’t think you can ever say, ‘Things blow up,’ or ‘Things crash.’ I believe the Department of Transportation has myopically focused on incident mitigation. Prevention should be the first question they should address.”

AUBURN CALIFORNIA: No to proposal that would bring oil through Auburn

Repost from the Auburn Journal

Another View: No to proposal that would bring oil through Auburn

By: Rosalie Wohlfromm / Guest Columnist

Rosalie WohlfrommDo you remember back in 2013, when there was a train derailment carrying crude oil in Lac-Megantic, Quebec? That incident resulted in a fiery explosion and caused the death of 47 people.

It has been reported that crude oil from North Dakota and Canada into California would be expected to rise from just 1 percent of total oil imports in 2013 to 25 percent by 2016, according to state energy officials.

This oil would travel by rail through densely populated areas to refineries on the coast. One of these routes is right through our town of Auburn.  We could see trains pulling 100 oil tanker cars going past our homes, schools and parks.

Since 2013, we have heard of numerous derailments causing evacuations of citizens from their homes. One of the latest was last February in Lynchburg, Virginia. It is now known that the cause of the derailment was  a broken rail, which was missed in two previous inspections.

Oil giant Valero wants to build a massive terminal for oil trains at its Benicia refinery. Union Pacific runs from Reno via Donner Pass, a dangerous route that, according to the Environmental Impact Report for Valero Crude by Rail Project, has only 3.5 percent of Class 4 or 5 track, the quality deemed by the U.S. Dept of Transportation necessary to support daily travel of extremely heavy unit trains made up of over 100 tank cars loaded with crude oil.

The City of Benicia is currently in the process of approving or rejecting the Valero Refinery’s proposed CBR project, which would permit Union Pacific to haul crude oil through Auburn.  If this project is approved, Auburn could see oil trains loaded with highly flammable oil from North Dakota running right through our town on their way to Benicia. I ask you to remember what happened in Lynchburg. That could happen here.

Concerned citizens of Benicia are asking for those of us along the rail lines to call or write the City of Benicia City Manager, Brad Kilger, 250 E.L. Street, Benicia CA 94510 or e-mail Planner Amy Million at amillion@ci.benicia.ca.us.   Please submit your comments by 5pm on Oct. 30.

Oil trains are too long and too heavy

Repost from The Oregonian
[Editor: A poignant opinion piece by an informed advocate.  Jared Margolis is an attorney working for the Center for Biological Diversity’s Portland office on issues related to energy and endangered species.  – RS]

Oil trains are too long and too heavy

By Jared Margolis, December 11, 2014
trains.JPG
In this Sept. 16 file photo, rail cars containing oil sit on tracks south of Seattle. (AP Photo/Ted S. Warren)

Even to the most reasonable among us here in the Northwest, the lonely cry of the train whistle in the night is no longer a very comforting sound. You can’t help but wonder if it’s announcing the arrival of one of the 20 or so trains of up to 100 tanker cars that pass through the region in an average week, each one carrying up to 3 million gallons of explosive crude oil.

The exponential increase in risk posed by these trains has been highlighted by an unprecedented wave of accidents, including the explosive derailment in Quebec that incinerated part of a town and killed 47 people, and another in downtown Lynchburg, Va., that set the James River on fire, putting wildlife habitat and drinking water supplies at risk.

More crude oil was spilled by rail in 2013 — in excess of 1 million gallons — than between all the years from 1975 to 2012, according to an analysis of data from the federal Pipeline and Hazardous Material Safety Administration (PHMSA).

Between 2008 and 2013 there was nearly a tenfold increase in crude-by-rail spills, from eight to 119.

Yet, as the amount of volatile crude oil hurtling through Oregon towns, cities and sensitive waterfront landscapes continues to increase, proposals to reduce the danger have failed to focus on what federal regulators acknowledge to be among the most important factors making crude oil trains more likely to derail than most trains: the length and weight of each train.

Instead, proposals from federal regulators have been limited to giving the rail industry five years to stop hauling explosive crude oil in the most puncture-prone tanker cars, which PHMSA has stated will actually lead to longer, heavier trains. The length and weight of tanker trains hauling crude oil has been singled out by regulators as one of the leading causes of several disastrous derailments in recent years. Those increased risks are demonstrated by the simple fact that while the number of overall train derailments is dropping, the number of oil train derailments is escalating.

PHMSA’s own analysis has determined oil trains “are longer, heavier in total, more challenging to control … [and] can be more prone to derailments when put in emergency braking.” That’s why I co-authored a legal petition, filed with PHMSA last month, asking the agency to establish rules limiting trains carrying crude oil and other hazardous liquids to 4,000 tons — the weight that the American Association of Railroads has determined to be a “no problem” train, considered much less likely to derail. This safety guideline is currently exceeded threefold by the 100-car crude oil trains rumbling through Oregon.

And the risks posed by these long, over-heavy oil trains are only expected to grow: Analysts project the amount of oil being transported to California refineries by train to increase more than tenfold by 2016, much of it moving through Oregon.

It only makes sense to take aggressive, reasonable precautions to protect people and wildlife against this escalating, unacceptable danger.

•  Jared Margolis is an attorney working for the Center for Biological Diversity’s Portland office on issues related to energy and endangered species.