Tag Archives: Derailment

Bakken Crude, Crude By Rail, Derailment, Emergency Readiness & Response, Explosion, Fire, Oil spill, Worst case scenario

Railroads Required to Plan for a Worst-Case Oil Train Spill in Washington State

Repost from Emergency Management

Railroads Required to Plan for a Worst-Case Oil Train Spill in Washington State

A new law requires railroads to plan for the “largest foreseeable spill in adverse weather conditions.”
Samantha Wohlfeil, The Bellingham Herald | May 17, 2015

(TNS) — Under a new state law signed by Gov. Jay Inslee on Thursday, May 14, large railroads will be required to plan with the state for “worst-case spills” from crude oil unit trains, but exactly what that worst-case scenario looks like is not yet clear.

The law requires railroads to plan for the “largest foreseeable spill in adverse weather conditions,” but doesn’t define “largest foreseeable spill.”

In April, BNSF railway employees told Washington emergency responders that the company currently considers 150,000 gallons of crude oil – enough to fill five rail tank cars – its worst-case scenario when planning for spills into waterways. Crude oil trains usually carry about 100 rail tank cars.

“We’ve already seen worse than that though, haven’t we?” asked Roger Christensen, Bellingham’s interim emergency manager, when asked about using that amount for worst-case planning. “It seems like a low number … I hate to respond without knowing where they’re coming from. It doesn’t seem like a worst-case scenario to me.”

The amount is lower than what has been spilled and partially burned off in several high-profile crude oil train derailments in the last three years:

    • Mount Carbon, West Virginia, Feb. 16, 2015: More than 362,000 gallons spilled in a CSX train derailment and fire.
    • Casselton, North Dakota, Dec. 30, 2013: Roughly 475,000 gallons spilled from a BNSF train that derailed and caught fire.
    • Aliceville, Alabama, Nov. 8, 2013: About 749,000 gallons spilled into a swampy area from a Genesee & Wyoming train after a derailment and fire.
    • Lac-Megantic, Quebec, July 5, 2013: Roughly 1.6 million gallons spilled from a Montreal, Maine & Atlantic train in a derailment that killed 47 people.

“Water spills require special equipment such as boom and skimmers. The worst case release is used to make sure we have enough of this special equipment,” BNSF spokesman Gus Melonas wrote in an email to The Bellingham Herald. “For land spills we use vacuum trucks and heavy equipment to dig up the contaminant. Both of which are readily available in most areas.”

Melonas said in an interview that the 150,000-gallon number was based on studying historical derailments in the industry.

When asked if the company uses other amounts to plan for spills like the fiery derailments outlined above, Melonas replied, “We consider all scenarios when developing our emergency response plans with utilizing resources of local, regional and nationwide experts and equipment to safely and efficiently mitigate any hazardous materials incident including crude oil.”

“Until we have further regulatory clarity from the U.S. Department of Transportation on how the agency will require railroads to calculate ‘worst-case discharges’ to waterways, BNSF is considering using 150,000 gallons,” Melonas wrote. “BNSF is open to discussing the justification of this quantity with Federal or State environmental agencies.”

BNSF would not outline what its worst-case scenarios are for other situations, or say whether the company would adjust its scenario based on the new state law.

 Planning for the Worst

The new law tasks the state Department of Ecology with crafting the worst-case scenario for railroad contingency plans in a process that could take a year or longer, and will include input from the railroads and the public, said Linda Pilkey-Jarvis, preparedness section manager for Ecology.

“Preparedness regulations are all about planning for a potential worst-case spill,” Pilkey-Jarvis said. “It (all starts) with defining a worst-case spill volume, then that drives the whole rest of your plan.”

The volume helps planners decide which equipment needs to be staged where, and how many people need to be trained members of a spill management team, she said.

“In (Washington) state the Legislature has defined the standard of what a worst-case spill volume should be, and in general it’s a pretty high bar,” Pilkey-Jarvis said.

Washington state requires marine ships that transport oil to plan for a spill of the entire cargo, including whatever fuel is aboard to operate the vessel.

Planning for that type of all-in worst case creates pushback from the industry, which sometimes says, “That could never happen,” Pilkey-Jarvis said.

“Well, that doesn’t matter from a planning perspective if you think that could happen or not,” she said. “From a planning perspective, we’re defining everything as a worst case.”

The Federal Emergency Management Agency (FEMA) recently ran through a worst-case crude oil train derailment scenario in Jersey City, New Jersey. The exercise took emergency planners through an imagined scenario that could potentially kill or injure more than 1,000 people, and displace even more from their homes near the incident.

The scenario started with five of 90 tank cars derailing and spilling roughly 100,000 gallons of crude oil, which caught on fire. The blaze heats up other tanks, which rupture and spill more oil. The scenario outlined 225,000 gallons being consumed by flames, with the other 225,000 left on the ground, for a total 450,000-gallon spill.

“This is consistent with other real world events, such as the Galena, (Illinois) tank car derailment,” FEMA spokeswoman Susan Hendrick wrote in an email to The Bellingham Herald. “Complex and progressive scenarios allow communities to prepare for a range of consequences they may be faced with, including the size, scope and severity of an incident.”

In Bellingham, planners have not yet decided what the worst-case scenario might look like, Christensen said.

However, planners have calculated that throughout the city, 27,000 Bellingham residents – about a third of the population – live within the half-mile evacuation zone of the railroad tracks, he said.

Whatcom County and Bellingham planners work with BNSF, BP Cherry Point and Phillips 66 refineries, and other involved partners, to plan for different emergencies in the county.

Last fall, planners ran through a tabletop discussion of what resources might be available if 60,000 gallons of crude oil spilled from a train near Squalicum Harbor, Christensen said.

“It was a tabletop so we never got to the point of actually ‘deploying’ resources, but we did get a handle on that there is a significant amount of resources in our community,” he said. “We’re much more prepared than a lot of them, because of industrial partnerships. They might be the reason the hazard is coming through … but at least in Whatcom County we do have the industrial partners that bring resources to the table as well.”

Whatcom County Fire District 7 Chief Gary Russell said he’s not worried about knowing BNSF’s worst-case scenario, as it doesn’t change how his firefighters would respond to a derailment. His district covers nine miles of mostly rural BNSF track, and includes the two Whatcom County refineries.

“If it was one tank car on fire, we’d address it the same if it was five, we’d just probably not have the ability to deal with it,” Russell said. “In a derailment out here, you’d be protecting the area while it eliminated its fuel source.

“We treat every day like it’s an all-risk hazard. It doesn’t matter if it’s a freight train or a passenger train, with a greater loss of life,” he continued. “I worry about the product I don’t know anything about that’s in a tank car. … I’d rather have oil going up and down the rails than I would acids, sulfurs, chlorine and other hazardous commodities, because they can harm people faster than oil.”

Different Reporting Requirements

Unlike stationary facilities that have hazardous materials or chemicals on hand, railroads are exempt from nearly all requirements of the Emergency Planning and Community Right-to-Know Act (EPCRA).

After a disastrous release of toxic gas at a Union Carbide pesticide plant in Bhopal, India, that killed thousands of people in 1984, the U.S. Congress passed EPCRA to try to prevent similar accidents.

While businesses such as certain gas stations, water treatment plants, and fish processors need to report what hazardous chemicals are on their properties to state and local officials, and to make that information available to the public, railroads do not. The act “does not apply to the transportation, including the storage incident to such transportation” of chemicals otherwise included in the act.

Railroads do need to submit their worst-case discharge calculations and plans to the U.S. Department of Transportation, but they are not available to the public.

“It’s un-American to withhold these documents from the public,” said Fred Millar, an independent rail consultant who worked for environmental groups that helped pass right-to-know rules in the 1980s and ’90s. “For the first 20 years or so, the railroads said to us, ‘No law forces us to give you this information, we consider it confidential.’ After 9/11, they said ‘We won’t give you the information because of terrorism, you know.’

“Keeping it secret is a little like elephants tiptoeing through the tulips,” he said.

Pipeline companies are required to submit their oil spill response plans to the DOT’s Pipeline and Hazardous Materials Safety Administration. They are published online, but the worst-case scenario numbers are redacted from the reports.

Last year, DOT required railroads to notify emergency response agencies of shipments of 1 million gallons or more of Bakken crude oil through their states, but the introduction of new regulations on May 1 ended that requirement.

Now, railroads will share that information directly with emergency responders, but it will be exempt from public records laws and the Freedom of Information Act, the way that other hazardous materials such as chlorine and anhydrous ammonia are currently protected.

The new Washington state oil safety law requires seven days’ advance notice from the facilities that receive crude oil, such as refineries, before trains are scheduled to come through the state. That information is supposed to be given to the state, which will make it available to emergency responders immediately, and will aggregate the numbers quarterly for release to the public.

McClatchy reporter Curtis Tate contributed to this report.

Blast zone, Crude By Rail, Derailment, Evacuation, Explosion, Federal Regulation (U.S.), Fire

NYU Institute for Policy Integrity: New oil train safety rules spell delay, leaving citizens at risk

Repost from The Hill

New oil train safety rules spell delay, leaving citizens at risk

By Jayni Hein, contributor, May 18, 2015, 10:00 am

Chicago, Philadelphia and Sacramento, Calif.: These are just a few of the cities within the “blast zones” of mile-long trains carrying flammable crude oil across the country. Twenty-five million Americans live in these vulnerable areas; yet it will be years until dangerous tank cars are retrofitted or retired from the rails, based on the U.S. Department of Transportation’s new safety standards.

The standards, released on May 1, cover railcars that carry the nation’s growing supply of volatile crude oil produced in the Bakken region of the northern United States and the Canadian tar sands. While the new rules mark incremental progress, they give residents little reason to rest easy. And more implementation delays could be coming — the American Petroleum Institute filed a petition in federal court on Monday challenging the new rules, and other legal challenges may be on the horizon.

When it comes to oil train derailments, it’s no longer a question of “if,” but “when.” Driven by growth in the production of oil in the U.S. and Canada, there has been a staggering increase in rail transportation of crude oil over the past five years, with a corresponding spike in the number of accidents — many causing explosions, oil spills and fatalities. The latest incident happened earlier this month, when a train carrying Bakken crude oil derailed and caught fire in central North Dakota, forcing the evacuation of a small town.

In 2008, only 9,500 tank car loads of crude were transported by rail in the United States. By 2013, that number rose to 400,000. In 2013, more oil spilled from U.S. trains than in the previous four decades combined. In addition to putting citizens directly at risk, these trains pass over important sources of drinking water — such as the Sacramento River in drought-stricken California — and share track with commuter rail in many urban areas, including Philadelphia.

The Department of Transportation initiated a rule-making last year to update railcar design standards, speed limits and routing requirements for trains carrying 20 carloads or more of flammable crude oil. The agency’s final rule maintains some of the positive aspects of its proposed rule: new electronically controlled pneumatic brake requirements, lower speed limits for older tank cars moving through “high-threat urban areas,” and new routing analysis requirements.

But, in other ways, the final rule represents a step backwards from the Department of Transportation’s initial proposal. And more fundamentally, the rule puts a Band-Aid on a chronic condition caused by booming fossil fuel production, ongoing reliance on oil and aging transportation infrastructure.

First, the final rule exempts many trains that would have been made safer under the initial proposal. Originally, any train carrying 20 or more cars with flammable oil or ethanol was defined as a “high-hazard flammable train” subject to these standards. The final rule applies only to trains carrying at least 35 tank cars of flammable oil or ethanol, or 20 cars of flammable liquid in a continuous block. This final definition, then, encompasses fewer trains.

Second, the rule suffers from a lengthy, five- to eight-year retrofit or phaseout of DOT-111 and CPC-1232 railcars that have been known to puncture upon derailment for many years. These are the same cars that were involved in the Lac Mégantic, Quebec tragedy in July 2013 that killed 47 people and in the five major accidents in 2015 (thus far) in West Virginia, Illinois, North Dakota and two locations in Ontario. The protracted phaseout means many additional years of dangerous tank cars sharing track with commuter rail, traveling through dense population centers, and crossing water bodies and other sensitive environmental habitats. The delay is especially striking, as National Transportation Safety Board reports dating back to 1991 detail the high failure and puncture rates of DOT-111 tank cars. However, the agency determined that a quicker phaseout of DOT-111 cars would cause negative effects by temporarily shifting oil transportation from rail to trucks, increasing hazardous air pollution and traffic-related fatalities.

Finally, while the rule imposes 40-mph speed limits for non-retrofitted trains traveling through “high threat urban areas,” only a few dozen cities around the nation have been so designated, leaving many towns, cities and drinking-water sources highly vulnerable.

In the next year, the Department of Transportation should prioritize additional measures, like increasing railcar and track inspections, lowering speed limits in additional urban areas, sharing risk reduction “best practices” among the railroads and potentially tightening design standards for retrofitted cars to align with the standards for new cars.

The department should also coordinate closely with the states to modernize communication systems, improve spill prevention and response planning, ensure that states are empowered to train and fund additional rail inspectors, and collaborate to identify high-priority infrastructure needs, such as bridge and track improvements.

Ideally, these safety improvements should be made as part of an “all of the above” strategy to reduce our reliance on fossil fuels while ensuring that domestic production and transportation are as safe as possible in the near-term. The new rail safety rules are a necessary first step on what looks to be a long, uncertain journey.

Hein is the policy director at the Institute for Policy Integrity, focusing on climate change, energy and transportation issues.

AMTRAK, Derailment, Positive Train Control, Rail infrastructure, Rail Safety

Amtrak crash highlights neglect of busy rail corridor

Repost from the Centre Daily Times, State College, PA

Amtrak crash highlights neglect of busy rail corridor

By Curtis Tate, McClatchy Washington Bureau, May 13, 2015
Amtrak Crash
An aerial photo Wednesday, May 13, 2015, in Philadelphia, shows the scene after a fatal Amtrak derailment Tuesday night, in the Port Richmond section of Philadelphia. PATRICK SEMANSKY — AP

WASHINGTON — The derailment of an Amtrak train in Philadelphia this week has renewed attention to the safety and infrastructure challenges facing the nation’s busiest passenger rail corridor.

As investigators began reviewing the data from the locomotive event recorder and collecting other key pieces of evidence to determine the cause of the derailment, information emerged Wednesday that the train had been traveling around a sharp curve at twice the posted speed when it left the tracks.

The accident coincided with a debate in Washington over funding for Amtrak. On Wednesday, the House of Representatives Appropriations Committee voted to cut Amtrak’s annual subsidy from $1.4 billion to $1.1 billion. Further, Amtrak’s authorizing legislation expired two years ago and hasn’t been renewed.

Congress funds Amtrak from year to year, making it difficult for the railroad to make needed improvements to aging bridges and tunnels and to the systems that power the trains and keep them out of one another’s way.

“Amtrak’s living on a shoestring,” said Steve Ditmeyer, a former associate administrator for research and development at the Federal Railroad Administration. “Some things are falling through the cracks.”

The seven-car train traveling from Washington to New York derailed after 9 p.m. EDT Tuesday in Northeast Philadelphia. Of the 238 passengers and five crew members on board, seven were confirmed dead Wednesday by Philadelphia Mayor Michael Nutter.

The fatalities included a U.S. naval midshipman and an employee of The Associated Press. The chief executive of an online startup company was missing.

As seen from TV news footage and pictures posted to social media, pieces of the train were strewed askew the track, which bends in a sharp curve in Northeast Philadelphia. Part of the train overturned, and one car was reduced to a twisted heap of shredded metal.

“It’s a devastating scene,” National Transportation Safety Board member Robert Sumwalt said Wednesday morning.

The NTSB confirmed Wednesday afternoon that the train had approached the location of the accident, Frankford Junction, at more than 100 mph. The speed limit there is 50 mph.

Ditmeyer said a Northeast Corridor improvement project in the late 1970s and early 1980s was supposed to straighten out curves, but that got cut from the budget.

Amtrak’s flagship Acela Express has a top speed of 150 mph but rarely reaches it. Numerous curves, bridges and tunnels restrict the speed of all trains on the Northeast Corridor. The speed limit through two tunnels under Baltimore, built in the 1870s, is 30 mph.

According to a five-year plan for the Northeast Corridor published last month, half the line’s bridges were built between 1900 and 1920, and it would take 300 years to replace them at current funding levels.

“These are ancient things,” Ditmeyer said. “They’re well over a hundred years old. They are decaying.”

The twin tunnels under the Hudson River in New York, built in 1910, sustained heavy flood damage from Hurricane Sandy in 2012. Tens of thousands of commuters depend on them every day, and Amtrak President and CEO Joe Boardman has said they need to be replaced soon.

“I don’t know if it’s seven (years). I don’t know if it’s four or less,” Boardman said in an interview last year. “We’ve got to do it. The nation has to do it. We have to find the money.”

Amtrak is in the process of installing a collision-avoidance system by year’s end on the Boston-to-Washington Northeast Corridor. The system, called positive train control, is designed to prevent trains from exceeding speed limits as they approach curves.

Ditmeyer said the Northeast Corridor was long ago equipped with a system called automatic train control. While that system prevents trains from running past stop signals, it doesn’t correct for excessive speed ahead of curves.

Congress mandated positive train control in 2008 for much of the nation’s rail network, and some lawmakers are floating a three- to five-year extension for its installation.

Unlike Amtrak’s long-distance trains, which are diesel powered, the Northeast Corridor is electrified. But the system of overhead wires and supports that supplies power to the trains dates to the Great Depression.

Amtrak’s five-year plan for the corridor says 62 percent of the overhead wires and 42 percent of the steel supports need to be replaced.

The plan also notes that the economic cost of losing service on the Northeast Corridor could reach $100 million a day. As of Wednesday afternoon, Amtrak service was still suspended between New York and Philadelphia.

AMTRAK, Crude By Rail, Derailment, Federal Regulation (U.S.), Positive Train Control, Rail Safety

After Passenger Train Derailment in Philadelphia Kills At Least 7, Attention Turns to Oil-by-Rail Hazards

Repost from DeSmogBlog
[Editor:  As of Thursday evening 5/14, the death toll was increased to eight.  – RS]

After Passenger Train Derailment in Philadelphia Kills At Least 7, Attention Turns to Oil-by-Rail Hazards

By Sharon Kelly, Thursday, May 14, 2015 – 10:23

This morning, investigators continue to search for missing Amtrak passengers, possibly thrown from a major train derailment and wreck in northeast Philadelphia Tuesday night. Already the casualty toll is one of the worst in recent memory, with at least seven people dead and over 200 injured after Amtrak’s Northeast Regional Train No. 188, carrying 258 passengers, derailed.

“I’ve never seen anything so devastating,” Philadelphia Fire Department Deputy Commissioner Jesse Wilson told NBC News yesterday.

For some of those living nearby, the Amtrak collision was also a grim reminder of another – even more dangerous – hazard on the rails.

“I feel lucky that wasn’t an oil train last night,” Joseph Godfrey, a retiree who lives two blocks from the crash site, told CNBC.

Between 45 and 80 oil trains – each a chain of tankers that can stretch over a mile long – roll through Philadelphia’s densely populated neighborhoods every week, mostly heading to a South Philadelphia refinery that is the nation’s biggest single consumer of the notoriously explosive crude oil from North Dakota’s Bakken shale. More than 400,000 Philadelphians, and an additional 300,000 in neighboring suburbs, live within a half-mile of tracks traveled by oil trains – and a half-mile represents the evacuation zone for an oil train derailment, according to federal regulators.

Alll told, over 25 million Americans nationwide live within a half-mile of oil train tracks, one 2014 analysis found.

Locals say that tanker cars carrying oil traverse the section of tracks where the Amtrak wreck occurred daily. The Amtrak train was travelling along the Northeast Corridor, where passenger trains often share the same rails as oil trains. At the site of the derailment, oil trains run on tracks parallel to Amtrak’s rails – and in fact, the Amtrak train may have come perilously close to striking oil tankers.

Photos from the time of the accident posted on Twitter appear to show the Amtrak train came within feet of tanker cars that were stopped on tracks parallel to the passenger rails.

“It missed that parked tanker by maybe 50 yards,” Scott Lauman, who lives near the wreck site, told CBS. “An Amtrak guy came by and he was telling me it turns out those tankers are full, and if that engine would’ve hit that tanker, it would’ve set off an explosion like no other.”

Robert Sumwalt, an official representing the National Transportation Safety Board, told reporters at a Wednesday press conference the agency was told the tankers were not completely full, but did not say whether that meant they carried no crude oil or whether they were only partially full. He added that he had not verified independently how full the cars were.

The issue drew the attention of the state’s top executive, as he visited the derailment site yesterday. Pennsylvania’s Governor Tom Wolf called the nearby tanker cars “a cause of additional concern.”

And oil train activists say that the Amtrak crash could potentially have been avoided if federal regulations requiring automated speed controls had gone into effect earlier – but instead, the federal government has allowed train companies to delay installing those controls.

Just one day after Tuesday’s wreck, the American Petroleum Institute filed a lawsuit challenging new federal safety standards for oil trains.

Although investigators are still combing through the wreckage looking for a full explanation of the cause of the wreck, speed seems to have been a major factor in the disaster. According to the National Transportation Safety Board, the Amtrak train that derailed was going 106 miles per hour, twice the speed limit, as it made its way around a curve that was the site of one of the deadliest railway accidents in U.S. history, a September 6, 1943 passenger train crash that killed 79 and injured 117.

The Amtrak train was equipped with Positive Train Control (PTC) equipment, that would use GPS data to automatically slow trains going over federal speed limits, but the section of track where the derailment occurred had not yet been upgraded to allow the PTC technology to work.

“A faster pace to implement federal rules requiring Positive Train Control systems on Class 1 tracks with commuter trains and high volumes of freight might have made the difference in this accident,” Matt Krogh, director of the Extreme Oil Campaign at ForestEthics, told DeSmog.

Already in Philadelphia, where a refinery surrounded by residential neighborhoods is the nation’s top destination for notoriously explosive Bakken crude, oil trains have derailed twice since January 2014. In one incident, cars filled with oil derailed on a bridge and dangled over the Schuylkill river and prompted the shutdown of a nearby expressway.

“The rapid rise of oil trains in Philadelphia and nationally parallels the rise in accidents and near misses,” Mr. Krogh told DeSmog.

“So far we’ve been lucky, but it’s just a matter of time until a major derailment happens in an urban center like Philadelphia.”

Flying Manhole Covers, Toxic Clouds

Suppose the Amtrak train that derailed had carried flammable material instead of passengers, and that flammable material ignited. An oil train explosion involves a series of escalating disasters, each posing unique dangers, particularly in urban environments.

According to the U.S. Department of Transportation, the potential impact zone of an oil train explosion includes a one mile radius around the blast site.

Around 47,000 people live within a one-mile radius of Amtrak 188’s derailment, according to five-year estimates from the 2013 American Communities Survey.

A few blocks to the northwest is Holy Innocents Area Catholic Elementary School, which reports an enrollment of 287. A few blocks further north and toward Frankford Ave. is St. Mark’s Episcopal Church.

Map Credit: Jack Grauer, Spirit News

Let’s say there was [hazardous material] in those rail cars,” Jim Blaze, an economist and railroad consultant told NPR.   “If the cars cracked open, it could have been an explosive force and caused a chain reaction. What would the casualty rate have been as a result? Could you imagine evacuating 750,000 people? What’s that going to cost? What’s the lost business revenue?”

The recent string of oil train derailments and fires – the Feb. 17 derailment in West Virginia , the March 9 derailment in Gogama, Ontario, the May 6 derailment in the 20-person town of Heimdal North Dakota – have occurred in rural areas, away not only from dense population centers but also from the infrastructure that undergirds cities and towns.

Because of the labyrinth of sewer systems and underground utility tunnels – not to mention other industrial sites – oil train explosions in a major US city would pose unique hazards. First responders would likely contend with a broad array of surprising dangers.

For example, in the 2013 oil train explosion in the Canadian town of Lac-Megantic, population 2,000, hazards were not limited to the fireball. Hundreds of thousands of gallons of Bakken crude oil – described not like the tar balls that washed onshore following the Deepwater Horizon disaster in the Gulf of Mexico, but as slightly less watery than vegetable oil – spilled through the streets and down into sewers.

Explosions from the fumes that built up in those tunnels blew manholes over 30 feet into the air, investigators found. Burning oil melted streetlamps, flowed into rivers and lakes, and soaked deep into the ground after it poured from the train.

Toxic clouds from the fumes also kept first responders at bay, limiting their ability to approach the wreck initially and then also keeping them from areas close to the crash site for days.

And then there’s the train car explosion itself – not only involving the burning of the 30,000 gallons of oil carried in each DOT-111 tanker car, but also what fire engineers call a BLEVE, standing for a Boiling Liquid Expanding Vapor Explosion. As liquids in a metal tank boil, gasses build up, pressurizing the tank even despite relief valves designed to vent fumes. Tanks finally explode, throwing shrapnel great distances, and spitting out burning liquids that can start secondary blazes.

In the Lac Megantic disaster, 30 buildings were leveled by the blast, and officials said they believed some of the missing could have been vaporized in the explosions and fires. Hospital officials reported that emergency rooms were eerily empty following the blast. “You have to understand: there are no wounded,” one Red Cross volunteer told the local press at the time. “They’re all dead.”

In light of these hazards and many others – the risk of a domino-like series of subsequent disasters and spills if an explosion occurred in an industrial area – emergency planners often focus on evacuation.

Philadelphia’s emergency response plans in the event of a derailment and explosion have not been made public, local activist groups complain, prompting fears that the plans may not be sufficiently detailed.

‘No Traffic Cops’

Meanwhile, an increasing amount of oil is moving by train through one of America’s largest cities, as Philadelphia Energy Solutions purchased an old Sunoco refinery – first established in 1866, long before regulations made it nearly impossible to build new refineries in urban centers – and added the East Coast’s largest railcar unloading facility.

“We’re now the single largest buyer of crude from the Bakken in North Dakota,” Philip Rinaldi, the refinery’s chief executive, told a Drexel University conference last December. “We bring in nearly six miles of train a day for unloading at our facility.”

Unlike passenger trains, heavy axel trains like oil trains can cause rails to flex ever so slightly – prompting concerns that rails used by both oil trains and passenger trails could be at greater risk of broken welds or rails.

And damaged welds and rails are the number one cause of train derailments nationwide, Federal Railroad Administration data shows, responsible for rought 40 percent of overall derailments. This means that the sharp increase in oil train traffic could make it more likely that passenger trains using the same rails could crash.

Oil trains travel on parallel rails on the section of track where Amtrak 188 crashed – but over Amtrak’s entire Northeast Corridor, the nation’s most heavily traveled passenger railways, oil trains at times travel on the same rails as passenger trains.

With risks like these in mind, Philadelphia’s railroad unions called for tougher rules in April.

“The industry arrogantly claims they cannot afford to maintain the tracks to a higher safety standard,” Freddie N. Simpson, president of the Maintenance of Way Brotherhood, which represents workers who inspect and maintain railroads, told the Philadelphia Inquirer. “My question to the nation is, Can we afford for them not to?”

Trains are generally required to run at slower speeds on tracks that are less frequently inspected.

But oil train activists point out that speed limit enforcement is left up to railroad companies themselves, meaning that there is no available data on how often trains exceed speed limits.

“There’s no tracking or recording,” Mr. Krogh told DeSmog, “there are no traffic cops on the rails.”

Public officials say that efforts to regulate oil trains locally to prevent explosions are hamstrung by the fact that train regulation up to the federal government. Philadelphia City Council passed a resolution in March urging the federal government to enact new rules – but can do little otherwise, local politicians say.

“It is very frustrating, because on a local level we have very limited powers to regulate the railways,”City Councilman Kenyatta Johnson told the Philadelphia Inquirer in February. “The federal government needs to step up. The Department of Transportation needs to do more to hold these railroads more accountable.”

Photo Credit: Joshua Albert, Spirit News