Category Archives: Derailment

Air pollution, Benzene emissions, Crude By Rail, Derailment, Emergency Readiness & Response, Ethanol, Hazard Class 3 flammable liquids, Hazardous emissions, Hazardous materials emergencies, Health and safety impacts, Health risk assessment (HRA), Heat stress, Hydrogen sulfide (H2S), Oil spill, Risk Assessment

How industrial hygienists anticipate, recognize, and respond to rail emergencies

From Occupational Health & Safety OHSonline
[Editor:   Most significant: “The U.S. Department of Transportation’s Pipeline and Hazardous Materials Safety Administration recently released a web-accessible Transportation Rail Incident Preparedness and Response training resource.”  – RS

How Industrial Hygienists Assist in Rail Emergencies

Speaking at an AIHce 2016 session, several experts said industrial hygienists are well suited to anticipate, recognize, and respond to the hazards and to control the risks using science-based methods.
By Jerry Laws, Jul 01, 2016

All hazardous material railcarsIndustrial hygienists are well prepared to perform an important role during the response to a railroad hazardous materials emergency, several experienced experts said during an AIHce 2016 session about rail crude oil spills on May 24. Risk assessment, data analysis, and plan preparation (such as the health and safety plan, respiratory protection plan, and air monitoring plan) are important early in the response to such emergency incidents, and CIHs are equipped to do all of these, they stressed.

“With our knowledge, skills, and abilities, the training and education that industrial hygienists get, we’re well prepared” to interpret data on the scope and nature of a hazmat spill following a derailment, said Billy Bullock, CIH, CSP, FAIHA, director of industrial hygiene with CSX Transportation. He mentioned several new roles the industrial hygienist can manage in such a situation: health and safety plan preparation, town hall meetings to inform the public, preparing news releases for area news media, interpreting data from air monitoring, working with the local health department, and serving as the liaison with area hospitals, which can improve their treatment of patients affected by the spill if they understand where exposures really are happening and where a gas plume from the spilled crude is moving, he said.

Bullock said the industrial hygienist’s role is primarily in evaluating chemical exposures:

    • assessing the risk for inhalation hazards
    • supporting operational decisions
    • gathering valid scientific information
    • managing data and ensuring data quality reporting and recordkeeping

“All of these things we do as part of our day job transfer to an emergency situation very, very well,” he said, explaining that it’s very important to gain the trust of local responders and officials, including fire department leaders, hazardous materials response teams, the health department, and city officials.

Another speaker, Laura Weems, CIH, CSP, CHMM, with the U.S. Army Corps of Engineers in Little Rock, Ark., agreed, saying industrial hygienists are well suited to anticipate, recognize, and respond to hazards and to control risks using science-based methods.

Cleanup Workers Face Inhalation, Fire, and Heat Stress Hazards

Scott Skelton, MS, CIH, senior industrial hygienist for CTEH, the Center for Toxicology and Environmental Health, LLC, and other speakers explained that the hazard assessment following a hazmat derailment begins by identifying the type of crude oil that has spilled. It’s critical to know its flammability and the status of the oil’s containment, he said, and if there is an active fire, officials in command of the response will have to decide whether cleanup personnel are wearing flame-resistant clothing or chemical-protective apparel and will default to protecting against the greater hazard, he explained.

Benzene exposure—a dermal and inhalation hazard—is a concern in the early hours of a crude oil spill following the derailment, Skelton said. He discussed a 2015 test spill into a tank measuring 100 feet by 65 feet, where the benzene was completely lost and other lighter compounds also were lost 24 hours after the spill occurred. But that type of large surface area for a crude oil spill is not typical at actual derailments, he said. Still, he said the inhalation risk for cleanup workers is of most concern during the initial 24 hours of a spill.

“It’s my opinion that heat stress is the most dangerous aspect,” Skelton said. “With these [cleanup] guys, heat stress risk is extraordinary.” The American Petroleum Institute (API)’s report on PPE use by workers involved in the cleanup of the Deepwater Horizon oil spill confirmed this, he added.

Patrick Brady, CIH, CSP, general director of hazardous materials safety for BNSF Railway Company, pointed out that crude oil spills from derailments are rare: 99.998 percent of the 1.7 million hazardous materials shipments moved by the railroad during 2015 were completed without an accidental release, he said.

Brady said the railroad pre-positions 253 first responders along with needed cleanup equipment at 60 locations along its rail network. “The best case planning for us is we don’t rely on any local resources to be there at all,” he said, so BNSF hires hazmat contractors for crude oil derailment response and brings in consultants from CTEH to interpret monitoring data. (Responding to a question from someone in the session’s audience, he touted the AskRail™ app, a tool that gives emergency responders information about the hazardous materials inside a railcar or the contents being transported on an entire train. http://www.askrail.us/)

Dyron Hamlin, MS, PE, a chemical engineer with GHD, said hydrogen sulfide is the primary acute hazard faced by responders after a spill occurs. While an H2S concentration below 50 ppm is irritating, 50-100 ppm causes loss of the individual’s sense of smell, and 100 ppm is immediately dangerous to life and health. If the crude oil in a railcar has 1 percent sulfur in the liquid, GHD personnel typically measure 300 ppm of H2S in the headspace inside the railcar, Hamlin said.

Echoing Skelton’s comments, Hamlin said API found that 50 percent of the mass of typical crude oils is lost in the first 48 hours following a spill; following the Deepwater Horizon spill, the volatile organic compounds measured in the air during the response were lower than expected because of water dissolution in the Gulf of Mexico, he said.

He cautioned the audience members to keep in mind that all hazardous material railcars’ contents are mixtures, which complicates the task of calculating boiling points and other factors important to responders and cleanup workers.

DOT Helps Out PHMSA Offers Rail Incident Training Resource

The U.S. Department of Transportation’s Pipeline and Hazardous Materials Safety Administration recently released a web-accessible Transportation Rail Incident Preparedness and Response training resource, saying it gives emergency responders critical information and best practices related to rail incidents involving Hazard Class 3 Flammable Liquids, such as crude oil and ethanol. It is off-the-shelf training that is available online and can be used anywhere throughout the country.

“TRIPR is the result of a concerted effort between federal agencies and rail safety stakeholders to improve emergency response organizations’ ability to prepare for and respond to rail incidents involving a release of flammable liquids like crude oil or ethanol,” said PHMSA Administrator Marie Therese Dominguez. “We are committed to safety and providing responders with flexible, cost-effective training and resources that help them respond to hazmat incidents safely.” The resource was developed in conjunction with other public safety agencies, such as the Federal Emergency Management Agency, the U.S. Coast Guard, and EPA, in order to prepare first responders to safely manage incidents involving flammable liquids.

“Some of the most important actions we have taken during the last two years to increase the safety of transporting crude oil by rail have been providing more resources, better information, and quality training for first responders. This web-based training is another tool to help first responders in communities large and small, urban and rural, quickly and effectively respond if a derailment happens,” said FRA Administrator Sarah E. Feinberg.

The TRIPR curriculum focuses on key hazmat response functions and incorporates three animated training scenarios and introductory videos to help instructors facilitate tabletop discussions. PHMSA announced that it plans to host a series of open houses nationwide to promote the curriculum. Visit http://dothazmat.vividlms.com/tools.asp to download the TRIPR materials.

About the Author: Jerry Laws is Editor of Occupational Health & Safety magazine, which is owned by 1105 Media Inc.
Crude By Rail, Derailment, Freight trains, Liquid propane gas, Petroleum

LATEST DERAILMENTS: 2 in Selkirk NY in a week, another same day in Selkirk, Manitoba

Repost from the Times-Union, Albany, NY
[Editor:  This June 29 derailment in the Selkirk Railroad Yard, Selkirk, NY (just south of Albany) should not be confused with derailment on the same day in Selkirk, Manitoba.  MORE IMPORTANTLY, this derailment should not be confused with another more serious derailment in the same Selkirk NY rail yard less than a week earlier, on June 24, involving six tanker cars — three of them filled with liquid propane . See also TWCnews, “SecondTrain Derailment in a Week.”  – RS]

Selkirk yard derailment minor, but concerns linger

Cars remain upright, but County Executive McCoy concerned about repeated incidents
Staff reports, June 30, 2016, 9:00 pm

TWC_Selkirk2ndDerailment2016-06-29No major problems resulted from a derailment of cars carrying petroleum gas Wednesday, but that didn’t appear to settle Albany County Executive Dan McCoy’s queasiness over such incidents.

“Those cars remained upright, but I have said it is just a matter of time before something serious, even deadly, could happen, due to the volume of trains transporting crude oil and other flammable and hazardous materials through our backyards, neighborhoods and right along the Hudson River,” he said in a statement.

McCoy renewed his call for stricter standards on rail lines and equipment in a press release sent out Wednesday evening — one that also included a list of several safety actions and recommendations he called for in 2014 and 2015.

Two cars containing the gas left the tracks at the Selkirk Rail Yard on Wednesday afternoon, according to McCoy’s office.

No leaks or spills were reported, and the cars remained upright. There also were no injuries, according to officials with CSX Corp., which owns the rail yard.

“The exact cause of the incident is still under review,” said Rob Doolittle, communications director for CSX’s Northeast Region. “I can say that CSX takes every derailment seriously. We review the cause to see if there are lessons we can learn to apply to prevent them from happening in the future.”

It took about five hours for rail crews to put the tankers back on the tracks, but since they derailed in the area where trains are assembled, it didn’t affect freight traffic, Doolittle said

Six cars, three carrying liquefied petroleum gas, derailed at the rail yard last week, though none leaked. The cars remained upright. Doolittle said the cause of that derailment also is under review. Investigations typically take several weeks to complete, he said.

Bakken Crude, Ban oil trains, Blast zone, Clean energy, Crude By Rail, Derailment, Evacuation, Federal Regulation (U.S.), Fire, Fossil fuels, Let it burn, Oil spill, Stop Oil Trains Week of Action #StopOilTrains, Tank car design, Tar sands crude

HUFFINGTON POST: Top 5 Reasons To Ban Oil Trains Immediately

Repost from the Huffington Post

Top 5 Reasons To Ban Oil Trains Immediately

By Todd Paglia, Executive Director, Stand.Earth (formerly ForestEthics), 06/29/2016 01:32 pm ET

On Friday, June 3rd, a crude oil train traveled through the scenic Columbia River Gorge, a national treasure and one of the most beautiful spots in a country blessed with some of the most stunning places on Earth. It went slowly through the small town of Mosier, Ore. Children sat in class, no doubt looking forward to the weekend, people stopped by the post office, enjoying the rituals of small town life. Then the ground shook. Explosions rocked the area and a plume of thick black smoke snaked its way into the sky. The oil train had derailed a few hundred yards from that school, a few hundred yards from the city center. Four railcars spilled and caught fire — and tens of thousands of gallons of burning North Dakota Bakken crude created an inferno.

This disaster occurred as Stand and our many allies in the Crude Awakening Network were preparing for the third annual Stop Oil Trains Week of Action, planning dozens of events across the US and Canada between July 6-12 to mark the solemn anniversary of the tragic Lac Megantic oil train disaster on July 6, 2013. The Mosier derailment drove home, once again, why oil trains are too dangerous for the rails. And why Stand is asking President Obama for an immediate ban on oil trains.

Here are the top five reasons Stand, joined by hundreds of groups, community leaders, and elected officials, are calling for a ban on deadly oil trains.

1. 25 million Americans live in the oil train “blast zone”.
The US rail system was built to connect population centers, not move millions of gallons of toxic, flammable crude oil. But the oil industry is doing exactly that, sending explosive crude down the tracks right through our cities and by the homes of 25 million Americans. At Stand, we have mapped oil train routes with our Blast Zone map. You can use the map to see if your home, school, or office is inside the dangerous one-mile evacuation area. One clear finding from analyzing America’s blast zone: vulnerable populations like environmental justice communities and school children are clearly in harm’s way.

2. Oil trains can’t be operated safely.
Federal safety standards won’t improve oil train safety. Federal legislation, promises by the railroads, and federal regulations- weakened by years of interagency battles between the Federal Railroad Administration and the National Transportation Safety Board — have all come to very little. Former chairman of the National Transportation Safety Board Jim Hall, in a June 2016 op-ed advocating a ban on crude oil trains, put it simply: “Carrying crude oil by rail is just not a good idea.” That’s because it cannot be done safely. Period.

Thorough reporting by DeSmog Blog on the weak existing federal regulatory standards and the oil and rail industry’s failure to meet them demonstrates there have been no improvements on the safety of the 100,000 unsafe tank cars in the US fleet. Only a few hundred of these 100,000 dangerous tank cars have been retrofitted, and cars updated to the newest tank car standard will still puncture at just a few miles an hour faster than the current tank cars.

After 2025, there may be marginal improvements in the tank cars and procedures associated with oil trains. But trains will still derail, and crude will still leak and ignite.

3. Oil train fires can’t be controlled.
When an oil train derails at any speed over the puncture velocity of roughly 10 miles an hour a dozen or so cars typically come off the tracks, decouple and are thrown from their wheels. Tank cars are easily punctured, and the crude (either Bakken or diluted tar sands, both highly volatile) can either self-ignite or be sparked by a nearby ignition source.

Once the spilled oil from an oil train disaster ignites, the primary task of emergency responders is to evacuate the area due to toxic plumes, fire, and potential explosions. We write more about the difficulties here, but Bruce Goetsch, a county emergency manager in Iowa, had this advice: “Make sure your tennis shoes are on and start running.” Or listen to the Washington State Council of Fire Fighters, which delivered a letter to Washington Governor Inslee on June 8 demanding an immediate halt to crude rail movement and stating that, “these fires are exceedingly difficult to extinguish, even under unusually ideal circumstances.”

4. We don’t need the oil these dangerous trains carry.
Oil trains in North America carry extreme fracked crude oil from the Bakken formation in North Dakota and Saskatchewan, or diluted bitumen from tar sands deposits in Alberta. We don’t need any of this crude oil. According to the most recent information from the US Energy Information Administration, shipments of crude by rail represent only 2.5 percent of the 19 million barrel daily US oil demand. At the same time, the US exports more than five million barrels of oil per day. So the US is exporting ten times more than the 513,000 barrels of crude that is moving by rail each day. The crude moving by train contributes nothing to our energy supply. If we stopped all oil trains tomorrow Americans would never notice the difference at the gas pumps – but we would all be safer, especially the 25 million Americans living in the blast-zone.

5. Oil trains are taking us in the wrong direction.
The dangerous, unnecessary, carbon-intensive crude oil moving by train through North American cities and towns is a new phenomenon. Before 2008, crude oil rarely, if ever, moved by train. Oil companies see this oil as the future. We see a future where we leave extreme crude oil in the ground and use decreasing amounts of conventional oil as we transition to 100 percent clean energy.

The climate accords in Paris followed by the April 2016 United Nations resolution put the United States and the rest of the world on a clear, inevitable path toward reducing fossil fuels from our energy supply. These dangerous oil trains carrying extreme oil are, quite simply, not part of that future: they fail the public safety test, the energy security test, and the climate test.

Forty-seven people died in the Lac Megantic oil train disaster three years ago. Only incredible luck prevented Mosier, OR from being another Lac Megantic. It was a dead-calm day in one of the windiest part of the US, otherwise the fire could have spread quickly to more derailed cars, to surrounding forests, homes, and even to the nearby school. This was another close call, one of more than a dozen major oil train disasters over the last three years that could have been much worse. We need to end this unnecessary and unacceptable threat before our luck runs out.

This is not a radical request. In fact, the Governors of Oregon and Washington have asked for a moratorium on oil trains. Join them — and Stand: Please join us in asking President Obama for an immediate ban on oil trains.

Bakken Crude, Crude By Rail, Derailment, Explosion, Fire, Rail defect, Rail inspection, Spill, Water contamination

Mosier OR after the crash: Sheared screws blamed in train derailment

Repost from Hood River News
[Editor:  A well-written account, lots of detail not found elsewhere.  – RS]

Sheared screws blamed in train derailment

By Neita Cecil, The Dalles Chronicle, June 14, 2016

CHIEF ENGINEER Jason Rea of Union Pacific Railroad’s western region, holds a lag screw like one of several that were sheared off on the track through Mosier, causing the June 3 train derailment.

The Mosier train derailment was caused when an unknown number of large screws, used to provide extra stabilization to rail ties on curves, sheared off — something a railroad official said he’d never seen before in a derailment.

Jason Rea, chief engineer for the western region of Union Pacific Railroad, described at a community meeting Friday in Mosier what had caused the June 3 derailment of 16 oil cars.

The so-called lag screws, which are threaded, are used on curves instead of a straight track spike. And while the lag screws had been severed about two and a half inches below the head of the screw, the top of the screw did not dislodge, which would have been detected by visible inspection, Rea said.

Rather, the sheared screw or screws remained in place.

“I don’t know of any that it has ever happened to,” Rea told the Chronicle after the meeting. “I’ve never experienced this kind of derailment.” He said he’s seen dozens of derailments in his many years with the railroad.

The lag screws were implemented in 1999, he said.

Each rail tie has eight spikes or screws in it. The spikes or screws – four on each end — hold in plates that secure the rail to the tie.

The railroad doesn’t know how many were sheared before the derailment, but some were sheared after a wheel was derailed.

The wheel derailed about 3/10 of a mile east of where the crash actually occurred. Technically, the derailment is where the wheel leaves the rail, and the crash site is called the point of rest.

When the derailment site was inspected, Rea said some of the lags didn’t pop off, but some did.

Rea said the chance that the derailment was the result of sabotage was “very, very, very unlikely.” He said he was confident of that “just because of the way the lag broke. There’s no way somebody could do that, only the train is heavy enough to” do that.

Railroad officials told the audience Friday that the Mosier Community School, which became the command center for the response, would get new carpeting and flooring, and a new floor in the gym. Students were evacuated from the school after the noontime derailment, and the decision was later made to end the school year a week early, so students did not have their final week of school.

In the wake of the derailment, which caused an evacuation of 100 residents and took the city’s sewer treatment plant offline, the railroad is sharply increasing its inspection schedule of the rails through the gorge.

A panel of UP officials who spoke at the community meeting each apologized for the derailment.

Robert Ellis, superintendent of the Portland service unit of the railroad, said it took until about 2 a.m. on Saturday, June 4, to safely put out the fire that erupted from four of the derailed cars. The cars were carrying Bakken crude oil, an unusually volatile oil.
Most of Saturday was spent getting the oil out of the derailed cars and loaded onto trucks. Each car took three to five truckloads of oil. They were able to remove the train that was not derailed, and rerail cars that were not in the immediate point of rest, Ellis said.

It was late Saturday evening by the time they were able to clear cars “from the pile” and move them off the right of way. Early Sunday crews began remediating the soil at the crash site and by mid-morning Sunday they had backfilled the soil and relaid new track.

By late Sunday, they reopened the line.

The community has expressed outrage that the railroad restarted the trains two days before the oil cars were removed from the right of way. Officials with the railroad and other officials who were part of the emergency response have said they made a joint decision to resume traffic because it was safe to do so.

On Monday through Wednesday, crews continued to “transload” oil from the rail cars to tanker trucks. The oil was taken to rail cars in The Dalles, where it will at some point resume its trip to its destination of Tacoma, Wash.

By Wednesday night, all the tank cars were gone, and Thursday and Friday workers continued with remediation and replanting of the Rock Creek Sail Park.

Tim O’Brien, director of hazardous materials for UP, said the backfill work will continue until mid-week this week.

All the parts and pieces needed to rebuild damaged parts of the sewer treatment plant – and 600 feet of pipe leading to and from the sewage plant — have been ordered, O’Brien said, and the rebuilding will begin Tuesday or Wednesday.

The crash happened right on top of a manhole leading to the treatment plant, and oil seeped in through the manhole and “killed” the treatment plant, a city official said earlier. The oil killed the bacteria that fueled the biological process used to treat sewage.

Oil also got to the Columbia River through the treatment plant’s pipes, which dump treated waste water into the river.

Officials are still maintaining booms in the water to capture any oil, although a small oil sheen was only visible for a few days on the river. The railroad continues water and air testing.

O’Brien said that, after enough water was put on the fire to cool it down, it took only 10 gallons of foam to douse the fire. He said six foam trailers will be deployed in July throughout Oregon.

He said the fire had to be cooled down first, because if the tank cars weren’t cool enough, the fire would simply reignite if it was still too hot.

O’Brien said this derailment was the first time that an offensive action was taken to put out an oil car fire.

As for increased inspections, Rea said the new track used the newest, third-generation, lag screws. Crews walked every “lag curve” on the rail line from Hinkle to Portland. There are 71 such curves, which are any bend in the railroad that is a three-degree curve and above.

The railroad has a number of safety devices to test the railroad. A geometry car can test to ensure the rails are their exact 56.5 inches apart, and are at the same level, without any dips on either side.

Visual rail inspections that were previously done two times a week will be done three times a week.

Enhanced rail inspections, which were not done at all before the derailment, will be done three times a week, on “hyrail” vehicles – which can operate either on tracks or on roads or earthen surfaces.

Another vehicle does an ultrasonic test, which sends sonar into the elements of the railroad track and can detect defects.

The Gauge Restraint Measurement System (GRMS) car tests railroad track strength and finds weaknesses. Where that was previously used every 18 months, it will now be used four times a year.

Another device mimics the pressure that a railcar puts on the rail tracks to see how they fare.

Walking inspections of the lag curves in the gorge will be done monthly, where they were not done at all previously.

Chuck Salber, director of risk management for the railroad, is overseeing claims filed by those affected by the derailment. He said residents should see checks from their filed claims in about two weeks. Businesses are more complex, and they can expect a response in two to four weeks, he said.

One woman asked the railroad to consider the needs of residents who do not have the means to pay for a motel room. The woman said she slept in her car for two nights, and was finally put in a motel room that the railroad paid for up front.

She also asked that Red Cross centers be established in the nearest town to an emergency. She said the Red Cross shelter was in The Dalles, when Hood River would have been more convenient.

He said the claim office that was located in Mosier has closed, and now claims can be made at 877-877-2567, option 6.

While rail traffic is only moving at 10 miles per hour through Mosier, it will eventually resume to normal rail speeds through town of about 30 mph. Typical rail speed on a straight-of-way is 55-60 mph.

Wes Lujan, western region vice president of public affairs for UP, said it wasn’t safe to keep rail speeds low, because people get impatient at crossings and try to beat the train, or people try to jump onto slow trains. He said all the people on the panel had seen the bad outcomes of such incidents.

Lujan also spoke to the decision to resume rail traffic even when derailed cars were still lining the tracks.

He said the whole Northwest economy relied on rail traffic, and without it moving, commodities couldn’t get to market, and governments couldn’t operate.

He said the railroad could not refuse to haul oil. He said the railroad was like a parcel service: customers prepare their goods in rail cars that are owned by the customer, and the railroad is obligated to transport the rail cars to the customer’s desired destination.

He said the railroad owns the locomotives, the tracks and the land beneath them.

Rodger Nichols, a reporter for Haystack Broadcasting, asked several questions about whether there was a financial aspect to the decision to resume rail traffic, but Lujan told him repeatedly he could not comment or speculate on it.

He said the railroad will be back in a week for another meeting if need be, or they may just keep office hours at city hall for people to come in with their concerns.

Another man asked if the proposed project to add four miles of double line through Mosier to reduce wait times on the rail line was still going forward. “I think there’s a lot of undercurrent and tension” because of it, he said. “You guys did a great job all around, but the risk is still inherent” with hauling oil trains, and there’s still lots of anxiety.

He said trust was important, and UP “lost it when trains started rolling through immediately.”

Lujan said that was still a matter for internal discussion and it hadn’t been determined if the project would go forward. He said there would be a clear answer a week from Monday.