Category Archives: Lac-Mégantic

Lac-Mégantic: How to get rid of a town’s oil stain

Repost from The Toronto Star
[Editor: Firefighters and emergency first responders should all read this, a detailed recounting of efforts to contain the oil and clean the land following the disaster in Lac-Megantic, Quebec.  First published in December, 2013, this is still an important read for all who would understand the decisions made and lessons learned by first responders following a massive clean-up effort.  – RS]

Lac-Mégantic: How to get rid of a town’s oil stain

Six million litres of light crude spilled over, under and through Lac-Mégantic. Quick thinking and heroic efforts by a team of environmental experts and others kept things from getting a whole lot worse. Now they’re trying to make downtown habitable again.
By: Wendy Gillis News reporter, Published on Sat Dec 14 2013
Note: This story has been nominated for a National Newspaper Award .

LAC-MÉGANTIC, QUE.—Sherbrooke fire chief Gaétan Drouin stood on the bridge spanning the Chaudière River, the winding tributary that divides Lac-Mégantic . The town burned violently before him. Noxious smoke, thick and pungent, filled the air. Even stronger was the faintly sweet smell of light crude.

His flashlight beam cut through the darkness, down to the water cascading from the town’s namesake lake into the river it feeds.

Green-yellow oil, slick and bright, had overtaken the river, and was gushing downstream.

When a 72-car train of explosive crude barrelled into the town early on Saturday, July 6, it killed 47 people, levelled buildings, ripped away livelihoods, and annihilated the heart of the downtown.

It also unleashed nearly six million litres of oil.

The deluge glugged out of punctured tanker cars and ran down city streets ablaze, a river of burning oil. It seeped into the ground, gushed down manholes into the sewers and stormwater pipes, causing powerful explosions underground. It spilled into crystal waters of the lake, clung to boats in the marina, and rushed down the winding Chaudière, a 185-kilometre river that empties into the St. Lawrence.

As firefighters battled the blaze, a growing army of environmental emergency experts descended on the town to stop the spread of the volatile Bakken crude, a substance slightly thicker than vegetable oil. With every minute, it extended its reach deeper, further, threatening to sicken communities, poison the air, and ruin ecosystems.

They have been on the ground ever since, fighting a toxic villain that, even now, is on the move.

The spill in an urban setting has destroyed buildings untouched by flame, prompted a mass exodus of contaminated soil, and forced crews to rebuild even as they decontaminate, with the aim of jumpstarting the faltering economy.

Those leading the clean-up sum it up simply: There has never been anything like it.

Stop the bleeding

By the time Jean Campagna arrived in Lac-Mégantic from his home outside Sherbrooke, the fire had been raging for eight hours. Like so many others, he had been summoned by a dead-of-night call. The day before, he had clocked out at 4:30 p.m., ready for his vacation.

The technician with the Quebec environment ministry’s emergency team approached the blaze at the mouth of the river, near the bridge, when he arrived at 9:45 a.m. His eyes were drawn to a torrent of crude gushing into the river from a two-foot storm pipe.

“The first thing we had to do was absolutely stop that as quickly as possible,” he said. “I knew that there were drinking water intakes downstream, and I knew that it was running strong through the pipe. It was practically pure oil.”

Scanning the scene, he saw allies in municipal workers and environmental emergency employees, and began co-ordinating — a role he has played ever since, as a clean-up project technician. He held a five-minute meeting near the bridge, planning a joint assault.

Everywhere, there was work to do.

When oil escaped from the tankers beginning at 1:14 a.m., some of it immediately burned. The rest travelled in two main directions: on the surface of the ground, towards the lake; and underground, infiltrating soil and pipe networks.

On the surface, burning oil moved downhill from the derailment, shooting with flames as it flowed towards the lake. Streetlamps melted and shoreline rocks fractured as the fiery crude entered the water. The oil was still burning as a strong wind sent it back to land, where it hit the rocky shore of downtown’s Parc des Vétérans.

Oil seeping into the ground gravitated towards the highly permeable material known as backfill, usually a mixture of sand and gravel. Backfill blankets parts of the town and lines the underground infrastructure, including pipes. In some areas, it travelled three metres deep, until it hit a thick, mostly impenetrable layer of natural clay. Like water on a table, it spread out horizontally.

Hot crude infiltrated Lac-Mégantic’s sewer pipes by seeping into the foundations of the destroyed buildings that led to the basement floor drains, which are connected to the sewage network. It found entry through connecting joints, or simply melted the pipes, on some streets made of plastic known as PVC. From there, it travelled to the water treatment plant, inundating it with oil.

Finally, hundreds of thousands of litres ran down the streets into storm drains, where fumes caused explosions. On the residential street Rue des Vétérans, the underground blasts sent manholes flying up to 10 metres high. At a storm pipe that empties into the river more than a kilometre away from the impact zone, burning oil went shooting out, like a rocket blasting off.

Emergency actions by quick-thinking first responders stopped the contamination from becoming much worse.

Firefighters, municipal workers and police watching the oil flowing down manholes and storm drains desperately shovelled soil into its path. Firefighters heaped gravel into the gap underneath the marina quay, trapping the oil before it could run to the mouth of the river. Others frantically shovelled earth down a manhole, trying to stop the oil from travelling to the sewage treatment plant.

In one important move, a crew of volunteer firefighters, workers from the nearby factory, and Tom Harding, the train’s engineer, removed nine tanker cars that remained on the tracks, on the north end of the blaze, close to the town’s church and blocks of residential streets. So close to the fire, the cars were ticking time bombs.

Sylvain Grégoire, an employee from the nearby particleboard plant, rushed to the factory at 3:25 a.m. to get the company’s rail car mover, called a Trackmobile. At the factory, it moves small rail cars filled with wood. He hoped it would pull tankers far larger and heavier. An hour later, he was steering down the sloping track, towards the blaze.

“I thought of my kids,” he said. “I wondered, what if it explodes?”

At 8 a.m., all nine cars, together containing 961,000 litres of crude, had been moved to safety, several hundred metres away from the blaze.

By the time Campagna and his ministry colleagues arrived, Eastern Canada Response Corporation (ECRC), a company specializing in marine oil-spill response, was setting up booms — long, thin and buoyant tools that catch oil on the surface of the river and lake.

The strong current meant crews could not simply string booms across the river, because the oil would just flow underneath. They configured some in alternating rungs, deflecting the oil from one to the next until it reached a collection point. From there, the oily water was vacuumed up with surface skimmers, and collected in tanker trucks.

Back at the bridge, Campagna and others tried to stop the flow of oil gushing from the storm pipe into the river.

They decided to place an inflatable plug directly into the pipe, trapping the oil and stopping the hemorrhage. But the oil was gushing so strongly it was difficult to put in place.

A vacuum truck was sent to a manhole further up the pipe, closer to the impact zone, where it began pumping to intercept the oil flowing downpipe. The level of oil significantly lowered, a worker descended into a manhole to place the plug. Because of the toxic vapours inside the sewers, he was strapped into a harness, so the crew could pull him up quickly if he was hurt.

Another truck was brought in to suck up the oil collecting at the plug. There would be a constant procession of 15 tanker trucks — filling up, leaving, coming back — for the next three days.

Campagna and dozens of others worked into the night, plugging other pipes, sucking up thousands of litres of oily water from the lake and river, and setting up what would ultimately total more than three kilometres of boom.

Overnight Saturday, fire crews considered simply letting the inferno burn out on its own, a tactic sometimes used to reduce air contamination. The higher the temperature of the fire, the less smoke it produces, meaning that when you blast a fire with water and foam to cool it off, air pollution is increased.

But the amount of oil they knew was left in the tankers could mean the fire would burn 10 more days. All the while, oil would continue to gush into the ground.

“The faster we were able to put out the fire, the faster we would be able to work on the migration of the oil in the soil,” said Drouin, the Sherbrooke fire chief.

Fire crews chose to attack the blaze, trucking in specialized foam. Just before noon on Sunday, 36 hours after the derailment, the blaze was extinguished. Firefighters were still cooling the charred, steaming ground well past sundown.

Rehabbing the river

The helicopter rotors thudded as the survey team flew along the winding Chaudière River on July 7, the day after the derailment. A blue metallic sheen, spanning the width of the river for 80 kilometres downstream of Lac-Mégantic, confirmed serious contamination.

In total, 100,000 litres of oil spilled into the Chaudière.

For the first few days after the derailment, Sonia Laforest, a shoreline restoration scientist with Environment Canada, documented the oil’s travel from the helicopter window, part of a team brought in to evaluate the contamination of the lake and river, and provide scientific and technical advice to ECRC, the marine oil spill company, and other first responders.

The fly-overs determined the contamination had been mostly confined to 120 kilometres of shoreline. But crews would have to walk the riverbanks to understand what areas were hardest hit.

The crude that spilled in Lac-Mégantic had more light fractions than heavy, which from a clean-up perspective has significant advantages. While heavier crude may have sunk slightly in the water, this crude has floated on the surface, making it easier to trap with booms. It also meant there would be no black, tarry residue on wildlife and plants because it is not sticky enough to form large clumps — think molasses versus vegetable oil.

The danger is that lighter oil is more prone to penetrating sediment, which can set off a chain reaction, contaminating vegetation and wildlife.

A week after the disaster, the parties tasked with cleaning the river launched a clean-up process called SCAT, Shoreline Clean-up Assessment Technique. The exercise is simple but tedious: workers travel on foot, methodically documenting signs of oil on the shoreline’s banks, beaches and vegetation. The process is like environmental triage.

Four teams were formed, made up of officials from Environment Canada, Quebec’s environment ministry, clean-up company ECRC and the municipal government. They began at the mouth of the river, near the town, looking for oily sheen on the water, green residue on banks, slimy vegetation — anything indicating contamination.

Days usually began at 5 a.m. Even then, the July sun quickly made sweat run down their necks. They wore rubber gloves, boots, pants, life jackets, hats, and lugged backpacks filled with a day’s worth of water, lunch and bug repellant. Some days, temperatures reached the mid-30s. Others, intense rain beat down.

Laforest, who has spent her career trudging along contaminated shorelines, including in South Korea after a devastating spill, found the heat, rain and the problems accessing the shoreline overwhelming at times.

“It was the most difficult I’ve ever walked.”

The SCAT evaluation continued through August and September, crews walking a total of 275 kilometres. The results showed that approximately 40 kilometres of both rocky and sandy banks needed immediate cleaning.

Armed with these results, Quebec’s environment ministry sent out a crew of 200 workers in September and October. On rocky shores, they used rakes or low-pressure hoses to roust oil residue from the shoreline. It then floated on the surface of the water, downstream to absorbent booms.

On sandy embankments, there was a risk of erosion, which can be traumatic to the shoreline ecosystem. Rather than the harsh rakes or low-pressure hose treatment, crews ran water down the bank using a perforated pipe, simulating rainfall, which then sent oil in the sediment back into the river, again to be caught by booms.

More shoreline clean-up may continue in the spring. Experts await test results of water organisms to reveal if contaminants have infiltrated the food chain.

Intakes for the three towns that source drinking water from the Chaudière were reopened in September after being closed since July 7.

In August, clean-up crews also had to tackle the marina, where oil had clung to 101 boats. One by one, the boats and the marina’s quays were removed to be pressure-washed inside a massive basin built nearby, which collected the contaminated run-off so it could be treated. Rocks that line the marina bank were washed the same way, booms catching oil re-entering the lake.

Attacking the air

In the initial days, the focus was on investigation and victim recovery. Access to the “red zone,” the impact area, was mostly restricted to Transportation Safety Board officials, police, firefighters and forensic experts searching for human remains.

For them, the danger had shifted from fire to the toxins in the air.

From the early hours of the disaster, a team of air contamination experts had arrived from Quebec’s environment ministry, driving a Trace Atmospheric Gas Analyzer. The blue bus the size of a motorhome is a lab on wheels, called upon in environmental emergencies. Air intakes placed outside the bus allow technicians to detect toxic components of ambient air.

The Center for Toxicology and Environmental Health, an American firm, was also on hand, one toxicologist flying in from Little Rock, Ark.

Among the major dangers that experts watched for was carbon monoxide, which can be produced when organic materials burn. They also looked for volatile organic compounds (VOCs) — chemicals that get into the air when they evaporate from the oil. Common VOCs produced by petroleum products are benzene, toluene, ethylbenzene and xylene. All are damaging, and benzene is carcinogenic.

Those investigating or searching in the area wore masks that filter out dangerous chemicals, while air contamination experts ensured toxins did not surpass a level the respirators could purify.

Air experts were also monitoring vapours that could explode, a risk that was highest when workers began removing oil left over in the derailed tankers beginning July 14. Crews knew dangerous, potentially explosive vapours could be built up inside, and conducted a series of tests before tanks were opened.

Once in the clear, the carcasses were cut with a water drill, to avoid dangerous hot spots. A temporary road was built through the impact zone to allow machinery to come and go. After the tankers were emptied and clean, Transportation Safety Board officials removed sections of the tankers they needed for analysis in the board’s Ottawa lab.

Throughout the process, firefighters were on hand to keep the tankers and the oil cool with Class B foam, used on flammable liquids to smother vapours that could ignite.

By the end of July, 740,000 litres of oil was collected from the tankers.

Trench warfare

By August, the “red zone” more closely resembled a construction site than a disaster area.

All the tank cars had been destroyed, the carcasses cut down and recycled. Gone, too, was debris that had littered the impact zone — railroad ties, warped tracks, concrete foundations of ruined buildings. All had been removed by heavy machinery, then recycled or burned.

Now dotting the landscape were dozens of oil recuperation trenches, dug by excavators carving deep troughs into the soil. The trenches collected the oil already in the soil, and stopped its possible spread to other areas; they were placed strategically to divert the crude from entering sewer or storm pipes.

Tanker trucks were in constant motion, sucking up the oily water the trenches spat up, then bringing it to a mobile water filtration facility set up near the sewage treatment plant.

Throughout the summer, crews had also been concerned about rainwater passing through the contaminated pipes, sending oil through once more. They installed plugs throughout the network beneath the disaster zone, then stationed tanker trucks at manholes to vacuum up water collected inside.

They had to keep an eye on the weather. If rain was forecast, they had to make sure extra vacuums and tanker trucks were at the ready to suck up the water gathering inside the pipes.

“We were afraid of storms, because we weren’t sure we would be in control,” said Campagna. “The water goes in, it has to be able to go somewhere.”

To prepare for the rain and snow beginning to fall through winter into spring, crews created a collection system that directs water flowing through the downtown soil into one of five wells situated around the site. Water gathered inside is then pumped into a massive recuperation basin, located in the heart of the impact zone, capable of holding as much as four Olympic swimming pools’ worth of liquid.

From there, the water is drawn into a small white portable that contains a filtration system. The treated water is tested daily, then released into the river.

Throughout the five months since the disaster, environmental consultants have been extracting samples all over the downtown. Their results give analysts two vital pieces of information: where the oil had spread, and the level of contamination.

In Quebec, soil contamination by oil is categorized by potential use. Mildly contaminated soil can still be used for residences and recreational facilities, while moderately contaminated soil can be used for commercial and industrial use.

Much of the 69,000 cubic metres of soil contaminated in the impact zone alone, however, is beyond use in its current state. Preliminary tests revealed higher than accepted levels of benzene, as well as metals including copper, arsenic and lead.

Two other low-lying downtown areas were also deeply contaminated. Oil had seeped into the soil underneath a restaurant near the marina, and an ice cream store close to the river. Both buildings had to be demolished.

As testing went on, oil-rich earth was heaped in piles that just kept growing.

Building a toxic mountain

As a harsh November wind whipped gusts of snow back and forth, Campagna stood next to vast mountain of Lac-Mégantic’s sickest earth. The compact pile stood two storeys tall, spanned a platform larger than a football field, and held 25,000 cubic metres of toxic soil.

It is the first of three mounds that will soon form a contaminated mountain range on the outskirts of town.

The decision to store dirty soil off site was clinched after government leaders decided the town’s economic heart needed to be jolted, as soon as possible.

That meant two things: rebuilding the railroad track, and constructing four commercial condo buildings that would host some of the destroyed impact zone businesses , allowing them to reopen as early as February. Both sites now lie in or around the impact zone.

Their construction prompted a “big, big adaptation” of oil clean-up procedure, said Paul Benoit, a deputy director with Quebec’s environment ministry. He arrived to manage the clean-up shortly after the Quebec government appointed Pomerleau, a construction firm, to take over responsibility for cleanup from the insolvent rail company Montreal, Maine & Atlantic.

“Usually, what we do is we decontaminate, we treat the soil, and then reconstruct,” he said. “That’s the logical sequence.”

To ensure the track and the future commercial buildings were not built on polluted land, crews had to thoroughly test the ground underneath.

Beginning in August, the tests revealed the presence of more oil than anticipated. As it turned out, Lac-Mégantic had a series of abandoned underground pipes, long since forgotten by the city. Oil had congregated inside.

It was only the first surprise. Later in the month, crews found an intact car underground that they believe had been there for at least 25 years.

Not long after, the town’s old railway roundhouse, which is a service building for locomotives, was found two metres underground. Decades ago, Benoit said, it was thought to be easier to simply bury unwanted structures than to dismantle or dispose of them.

Crews decided construction in the disaster zone would be easier if the vast amounts of soil were kept on containment pads. They were equally concerned about contamination spreading if the oil-soaked earth stayed put.

At the end of August, they began building three containment platforms on a vast swath of unused land next to Tafisa, Lac-Mégantic’s particleboard factory two kilometres from downtown.

The forested ground was razed, then made into a layer cake of protective measures: an impermeable membrane, underneath an impenetrable cloth reinforcement, underneath an asphalt platform.

Soon, a cavalcade of dump trucks was ferrying soil from the downtown to the platforms, beeping as they unloaded before going back for more.

For now, the platforms are simply for storage. But the soil may also be treated here, depending on the decontamination method chosen. Among the options to remove the oil is injecting bacteria or chemicals into the piles, promoting oxidization that cleanses soil. This could be done on site.

This week, the Quebec government closed its call for tenders for the decontamination of 558,000 cubic metres of soil, which includes the contents of the pads as well as soil that has not yet been removed.

Whatever treatment is chosen for the piles, the aim is to have the cleaned soil return to fill the downtown’s holes by next winter.

The Star’s Wendy Gillis reports on the monumental cleanup and decontanimation following the disastrous MMA train derailment.

Those working to restore the core hope that timeline sticks. Throughout the clean-up, they have been under intense public scrutiny.

Each day since the disaster, locals and visitors have observed their actions closely, eager for signs of progress. Criticism lately is that crews are just moving around piles of soil.

“They watch us work, they ask questions. And us, on the other side of the fence, we would look at them,” Campagna said. “For some of us, it’s encouraging. For others, it’s irritating.”

He looked downhill, towards the downtown, then reached gloved fingers into the base of the contaminated mound, raised a fistful of the soil to his nose and nodded. He could still smell the oil.

Into the unknown

At night, lampposts light the surviving stretch of quaint storefronts on Rue Frontenac, inside the disaster zone. The buildings appear unscathed, frozen in time at the moment before the disaster destroyed some 40 buildings steps away.

A children’s store advertises new and used clothing. A sign on a green, three-storey apartment building announces furnished rooms for rent. On Rue des Vétérans, a residential waterfront street two blocks south, pretty bungalows bear no obvious signs that a river of burning oil had run down one street over. Inside one home, a dining room lamp shines bright, suggesting someone’s inside.

No one is, of course. When work here ends for the day, it becomes a ghost town. The contamination and ongoing construction has blocked public access until at least June 2014. A security firm guards the tall fence that surrounds the restricted area.

The damage to some buildings here goes unseen, but could prove just as devastating as explosions and flames. If enough oil seeps into the foundation of a building, it becomes too dangerous to inhabit. Over time, it will release toxic vapours, such as benzene, or methane, an explosive gas.

The province and city are still deciding what to do with these buildings. Playing a role will be whether insurance companies will pay to decontaminate the foundations of buildings — something that can be done with major renovation or prolonged cleaning . Some buildings, however, may be beyond repair.

Denis Bolduc, the owner of a shoe and clothing store on Frontenac, isn’t sure he wants to move back into his three-storey building. If it can be saved, it could be three years before he re-enters. By then, he will be well established in his new location in the commercial condos, which opens in February.

He is concerned, too, about an unease that lingers above the once-beloved downtown. He feels that some people want a fresh start — they don’t even want him bringing stock from the Frontenac store to the new location.

“There is a psychological problem in the region,” he said.

In late November, as the final sections of railway were put into place in the distance, residents peered through the fence.

Soon, they will see the train re-enter town, travel down the same stretch, pass through the area its predecessor destroyed. It will be hard to watch. It will also be the first sign this sick land will heal.

Clean-up, by the numbers

5.9  Millions of litres of oil spilled

$200M   Estimated cost to clean river and downtown

558,000  Cubic metres of soil the Quebec government determined needs decontamination

3,369  Metres of boom set up on the river, lake and marina at height of clean-up

275  Kilometres walked conducting the Shoreline Clean-up Assessment Technique process

500  Number of workers on site at height of clean-up

 

Benicia Congressman Mike Thompson has long record of concern over hazmat rail safety

[Editor: In an exclusive interview, the Benicia Herald details the historical background on Thompson’s response to the catastrophic derailment and spill in Dunsmuir, CA in 1991.  Note that Thompson is reported to have met with Valero and other area refinery and train safety officials.  He has proposed legislation that would involve federal intelligence oversight to guard against security threats on hazmat tank cars.  – RS]

Repost from The Benicia Herald

Congressman on Crude-by-Rail plan: ‘Make sure it’s done safely’

May 25, 2014 by Donna Beth Weilenman
MIKE THOMPSON. watchsonomacounty.comMIKE THOMPSON – watchsonomacounty.com

When it comes to looking at the dangers posed by transport of hazardous materials, “it’s not just Benicia,” U.S. Rep. Mike Thompson said Friday in an exclusive interview with The Herald.

And it’s not just since the opening of the Bakken oil fields made a light, sweet and more combustible crude oil available domestically, particularly by rail delivery.

Nor has Thompson been following these developments only since the the deadly train explosion last year that killed 47 in Lac-Megantic, Quebec, Canada, or the April 30 derailment in Lynchburg, Va., that poured 30,000 gallons of crude into the James River.

His interest was sparked nearly a quarter century ago, and it’s why he said the proposed Valero Crude By Rail project “must be done right.”

In 1991, the small California resort town of Dunsmuir experienced its own toxic spill when a Southern Pacific train derailed nearby, spilling 19,000 gallons of a soil fumigant that killed more than a million fish and millions of other animals, from crayfish and amphibians to insects and mollusks.

Hundreds of thousands of trees were killed as well, and the chemical metam sodium left a 41-mile plume from the spill site to where the river enters Shasta Lake.

The disaster still ranks as California’s largest hazardous chemical spill. Many species still haven’t recovered from the spill, though fish populations have returned to normal.

At the time of the spill, Thompson was a state senator. Dunsmuir, in Siskiyou County, was in his district.

As a result of the devastating spill, he drafted legislation, Senate Bill 48, that became Chapter 766 of California’s Statutes of 1991. The bill founded the Railroad Accident Prevention and Immediate Deployment (RAPID) Force, which cooperates with existing agencies to respond to large-scale releases of toxic materials after surface transportation accidents.

The statute also ordered the California Environmental Protection Agency (CalEPA) to develop a statewide plan in cooperation with the state fire marshal, businesses that would be impacted by the requirement and agencies in the RAPID Force. For a time, it also raised money through fees to supply responders with necessary equipment to tackle such emergencies.

Under the statute, the Department of Toxic Substances Control, CalFire, the Department of Fish and Wildlife and the Governor’s Office of Emergency Services made interagency agreements so resources could be managed efficiently in preparing for or acting during an emergency.

That RAPID plan has multiple policies and directions to any agency or business in the event of a railroad accident, so the damage to public health and the environment is minimized.

Hazardous materials (hazmat) teams were formed, and regional training centers were established to provide certificate-level education, specifically in hazmat railcar safety and other specialist training to emergency responders.

“My legislation set the standard for railroad safety,” said Thompson, Benicia’s representative in the House. “It included grant money so safety officials would have the equipment for spill cleanup.”

More than a year ago, Valero Benicia Refinery applied to extend Union Pacific rail lines on its property so crude could be brought in by rail. This isn’t additional oil; it would replace some of the oil that currently is brought in by tanker ships or other methods.

A draft Environmental Impact Report on the project is due to be released June 10.

But trains already bring hazardous materials through other areas of the San Francisco Bay Area.

Thompson said he has met not only with officials from Valero, but other area refineries about rail delivery of oil.

“They’re here,” he said about the refineries. “Their employees live in the community.”

That doesn’t mean the safety factors aren’t being reviewed, he said. One is the design of the oil containers that are drawn by locomotives.

Though BNSF Railway has announced it’s seeking contractors to provide tanker cars that exceed federal safety standards, that’s an unusual step for a railroad company to take because of how contracting with a railroad works.

Normally railroads don’t own their own cars, according to rail officials for both BNSF and Union Pacific Railroad: Customers either lease or own them, then contract railroad lines to move their products.

Thompson said he has had conversations about construction of those cars, with one person telling him that if rail cars are carrying products that can harm people or the environment, they should be strong enough to fall off a cliff and not break.

It isn’t practical to armor a car or make its walls so thick it can carry little inside, he conceded. But he added, “They do need to be as safe as they possibly can, to protect public safety and the environment and wildlife.”

The Association of American Railroads and its Tank Car Committee has issued a statement saying that it petitioned the U.S. Department of Transportation Pipeline and Hazardous Materials Safety Administration (PHMSA) in 2011 to strengthen the standard, non-pressure tanker car, called a DOT-111.

Those cars make up 228,000 of the 335,000 active fleet tank cars, and AAR’s statement said about 92,000 DOT-111s carry flammable liquids, including crude and ethanol.

When no federal action was taken on its request, AAR itself adopted higher standards for reinforcing flammable liquid-carrying tank cars that are ordered after Oct. 1, 2011.

AAR then reiterated in 2013 its request for the federal government to enact stricter regulations, and has said the oil companies that contract with railroads have resisted spending money on the stronger rail cars.

“There’s always pushback,” said Thompson, referring to any new or strengthening of regulations or raising of standards, and not just concerning tanker cars.

As for Valero’s specific Benicia project as well as crude delivery by rail in general, Thompson said, “I want to make sure it’s done safely, so damage is minimal, if not nonexistent.

“There is risk in everything,” he said, noting that there are risks as well when trucks, ships and pipelines transport oil.

He cited as examples such ship spills as the Exxon Valdez in Alaska and the Shell Oil pipeline break that sent oil into the Gulf of Mexico in April. He described how he went to inspect the latter incident.

He said he’s also met with area train safety officials, who told him about the safety detectors designed to spot irregularities on the rails.

“We walked the track,” he said.

But there still are questions whether such transport is safe enough, and Thompson said he’s submitted to rail safety officials questions posed by Benicia Mayor Elizabeth Patterson.

As a member of the U.S. House, Thompson said he has also authored an amendment to a recent bill that also addresses rail safety.

He cited an example of one of his “walk the track” visits, when he saw rail tanker cars that were parked on a siding.

The cars were illustrated in graffiti.

Thompson said he has discussed this with federal rail safety officials, not as a vandalism problem, but as evidence of a lapse in security.

His legislation requires intelligence experts to be involved in looking at refineries, too, so that shipments by rail are secure against such violent activity.

While some refinery staff members have told Thompson that safety is being handled internally, without the need for federal involvement, he countered their objection by telling them about the tagged tankers.

“If there’s time to put graffiti on them, there’s time to put a bomb on them,” he said.

CEO hopes town where 47 died will OK oil trains

Repost from The San Francisco Chronicle, Biz & Tech

CEO hopes town where 47 died will OK oil trains

David Sharp, Associated Press  |  May 16, 2014

FILE - In this July 6, 2013 photo, smoke rises from flaming railway cars that were carrying crude oil after it a train derailed in downtown Lac Megantic, Quebec, Canada. A large swath of the town was destroyed after the derailment, sparking several explosions and fires that claimed 47 lives. John Giles, top executive of Central Maine and Quebec Railway, that purchased the railroad responsible for the derailment, said Friday, May 16, 2014 that they plan to resume oil shipments after track safety improvements are made.

Paul Chiasson, AP  – FILE – In this July 6, 2013 photo, smoke rises from flaming railway cars that were carrying crude oil after it a train derailed in downtown Lac Megantic, Quebec, Canada. A large swath of the town was destroyed after the derailment, sparking several explosions and fires that claimed 47 lives. John Giles, top executive of Central Maine and Quebec Railway, that purchased the railroad responsible for the derailment, said Friday, May 16, 2014 that they plan to resume oil shipments after track safety improvements are made.

PORTLAND, Maine (AP) — The company buying the assets of a railroad responsible for a fiery oil train derailment that claimed 47 lives in Quebec plans to resume oil shipments once track safety improvements are made, its top executive said Friday.

John Giles, CEO of Central Maine and Quebec Railway, said he hopes to have an agreement with officials in Lac Megantic, Quebec, within 10 days that would allow the railroad to ship nonhazardous goods, restoring the vital link between the railroad’s operations to the east and west of the community.

The company plans to spend $10 million on rail improvements in Canada over the next two years with a goal of resuming oil shipments in 18 months, he said.

“In the interest of safety, and I think being sensitive toward a social contract with Lac Megantic, we have chosen not to handle crude oil and dangerous goods through the city until we’ve got the railroad infrastructure improved and made more reliable,” he told The Associated Press.

The oil industry is relying heavily on trains to transport crude in part because of oil booms in North Dakota’s Bakken region and Alberta’s oil sands.

In July, a train transporting Bakken oil was left unattended by its lone crew member while parked near Lac Megantic. The train began rolling and sped downhill into the town, where more than 60 tank cars derailed and several exploded. The accident killed 47 people and destroyed much of the town. Three workers were charged this week in Canada with criminal negligence.

Canadian Prime Minister Stephen Harper wants the railroad and Lac Megantic residents to work together on a final plan.

“Any plan the company has should take into account the tragedy the people of Lac Megantic have gone through and should be done in collaboration with the administration of the city,” said Carl Vallee, a spokesman for the prime minister.

Transportation Minister Lisa Raitt said only that she was monitoring the situation.

Mayor Colette Roy-Laroche, who had no comment on Friday, previously told the new operator that she wanted the railroad to be re-routed around the downtown.

News that the new railroad is already talking about resuming operations upset Yannick Gagne, owner of the cafe-bar that was at ground zero of the tragedy.

“People are still in distress, in pain, facing financial problems, and we’re talking about the train company starting up,” the Musi-Cafe owner said.

Giles said he intends to move slowly and understands the community’s concerns. He said he hopes to convince the people of Lac Megantic that the rail is safe enough for shipments of dangerous goods by this fall. He said he wouldn’t press for crude oil shipments until later.

“I want to get the railroad in position that by January 2016 that I can at least begin to compete for potential crude business moving east-west,” Giles said.

What business may be available at that point is unclear, the company said.

New York-based Fortress Investment Group was the winning bidder for the assets of Hermon, Maine-based Montreal, Maine and Atlantic Railway, which declared bankruptcy after the disaster. Central Maine and Quebec Railway closed on the sale of U.S. assets on Thursday and is expected to close of the Canadian assets in a couple of weeks.

Giles made his comments Friday in a telephone interview from Bangor, where his company had called former Montreal, Maine and Atlantic workers for a two-day meeting to talk about safety and operations.

He said the rail is in rough shape, with speeds reduced to 10 mph in many sections in Canada. He said the goal is to improve the track to safely increase train speeds to 25 mph. He also said he has no plans to operate trains with a single crew member.

With repairs, the company can transport crude safely, Giles said.

“The railway is important to the community, people, jobs and commerce,” he said. “We believe and we’ve proven … that we can handle every type of commodity safely and efficiently.”

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Associated Press writer Rob Gillies contributed to this report from Toronto.

Lac Mégantic “bomb train” employees arrested: criminal negligence

Repost from the Boston Herald

Men charged in Quebec railway disaster in court

May 14, 2014  |  Associated Press
Photo by: The Associated Press  FILE – Smoke rises from railway cars that were carrying crude oil after derailing in downtown Lac Megantic, Quebec, Canada, Saturday, July 6, 2013. (AP Photo/The Canadian Press, Paul Chiasson, File)

MONTREAL — Three railway employees arrested in the runaway oil train explosion that killed 47 people were arraigned and released on bail Tuesday. They face criminal negligence charges in the small Quebec town that was devastated by the horrific inferno, which led to calls for making oil trains safer across North America.

The men were arrested late Monday afternoon, about 10 months after more than 60 tankers carrying oil from North Dakota came loose in the middle of the night, sped downhill for nearly seven miles (11 kilometers) and derailed in the lakeside town of Lac-Megantic in eastern Quebec, near the border with Maine. At least five of the tankers exploded, leveling about 30 buildings, including a popular bar that was filled with revelers enjoying a summer Friday night.

Quebec provincial prosecutor’s office laid 47 counts of criminal negligence, one for each person who died, against engineer Thomas Harding, manager of train operations Jean Demaitre, and Richard Labrie, the railway’s traffic controller. Montreal, Maine and Atlantic Railway Ltd., the defunct railway at the heart of the disaster, faces the same charges. Criminal negligence that causes death can result in a sentence of up to life imprisonment in Canada.

The three men entered the packed courthouse before a crowd of journalists and onlookers, including some residents who had lost family and friends.

No pleas were entered but Thomas Walsh, Harding’s lawyer, said his client will plead not guilty. The defendants were due to return to court in September.

Walsh said he had written to prosecutors several times asking that Harding to be allowed to turn himself if he was charged. Instead, Walsh said Harding was arrested by a SWAT team that swooped through his home and into his backyard, where he was working on his boat with a son and a friend. Police forced all three to drop to the ground.

“It was a complete piece of theatre that was totally unnecessary,” Walsh told The Associated Press.

Edward Burkhardt, who was chairman of MM&A, declined to comment.

The railroad blamed the engineer for failing to set enough brakes, allowing the train to begin rolling toward the town of 6,000.

Harding had left the train unattended overnight to sleep at an inn shortly before it barreled into Lac-Megantic.

The crash, the worst railway accident in Canada in nearly 150 years, prompted intense public pressure to make oil trains safer. Canada’s transport minister said in April that the type of tankers involved in the disaster must be retired or retrofitted within three years because they are prone to rupturing. The oil industry has rapidly moved to using trains to transport oil in part because of oil booms in North Dakota’s Bakken region and Alberta’s oil sands, and because of a lack of pipelines.

The arrests came just days before the bankrupt railroad’s sale closes.

The $15.85 million sale of MM&A is expected to close on Thursday in the U.S., but there could be a delay of a few days on a parallel proceeding in Canada. Most of the proceeds will be used to repay creditors. Eventually, there will be a settlement fund to compensate victims and repay cleanup costs.

The railroad’s buyer, a subsidiary of New York-based Fortress Investment Group, is changing the railroad’s name to Central Maine and Quebec Railway. The company said it hopes to recapture lost business but has no plans to try to bring back oil shipments.

Yannick Gagne, the owner of the Musi-Cafe, the establishment in the heart of town where many people were incinerated, has promised to make the new cafe a community gathering place as the town tries to move forward.

“You can understand, for me it’s a day full of emotion,” Gagne said.

Karine Blanchette, an employee who lost friends and colleagues, said she’s happy about the charges but nothing can erase the tragedy.

“Finally, there’s justice,” Blanchette said. “But it does not bring back the people we lost.”

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Associated Press Writer Rob Gillies contributed to this report from Toronto. David Sharp in Portland, Maine also contributed.