Railroad tank-car safety woes date decades before crude oil concerns

McClatchy Washington BureauJanuary 27, 2014 

— Long before crude oil and ethanol were transported by railroads in large quantities in minimally reinforced tank cars, other flammable and poisonous materials were riding around the country in the same cars, threatening major cities and waterways.

Federal regulators might be weeks away from issuing new safety guidelines for tank cars carrying flammable liquids, after a series of frightening rail accidents over the past six months.

But the type of general-service tank car involved in recent incidents with crude oil trains in Quebec, Alabama and North Dakota – the DOT-111-A – has a poor safety record with hazardous cargoes that goes back decades, raising questions about why it took so long for the railroad industry and its federal regulators to address a problem they knew how to fix.

Other, more specialized types of tank cars received safety upgrades in the 1980s, and the industry’s own research shows they were effective at reducing the severity of accidents.

Tank car manufacturers have built new DOT-111A cars to a higher standard since 2011, but the improvements haven’t caught up to tens of thousands of older cars.

To be sure, improper railroad operations or defective track cause many accidents involving tank cars. But the National Transportation Safety Board, which makes recommendations but has no regulatory authority, has cited the DOT-111A’s deficiencies many times over the years for making accidents worse than they could have been.

“Moving as quickly as possible to upgrade the tank cars is critical,” said Peter Goelz, a former managing director of the NTSB who’s now a transportation safety consultant. “No one wants to see it happen again.”

A review of federal reports and documents going back four decades shows that the DOT-111A tank car factored into a wide range of calamities, including:

  • A 1981 rail yard accident that shut down a portion of Newark International Airport and blocked traffic from reaching the Holland Tunnel into Manhattan until a punctured tank car finally burned out its contents of flammable ethylene oxide after 40 hours.
  • A 1983 rail yard accident that triggered the evacuation of 9,000 people in Denver when corrosive nitric acid escaped through a puncture in a tank car, forming a large vapor cloud.
  • A 1991 derailment – the worst chemical spill in California history – that sent a tank car loaded with a toxic pesticide tumbling into the Sacramento River, poisoning a 40-mile stretch of one of the state’s most important water supplies and fishing areas.
  • A 1992 spill near Superior, Wis., that resulted in the release of benzene into the Nemadji River, leading to the evacuation of 40,000 people in Superior and nearby Duluth, Minn., and the deaths of 16 species of wild animals near the accident site.
  • A 2001 derailment midway through a 1.7-mile, century-old rail tunnel beneath downtown Baltimore in which a punctured tank car carrying flammable tripropylene fed a raging fire that burned for five days, ruptured a 40-inch water main and prompted the evacuation of the Camden Yards baseball park.

Many tank cars that were built starting in the 1960s were designed to carry as much cargo as possible, which meant thin shells that could easily puncture or rupture in a derailment. While economical, the designs proved disastrous in a number of horrific incidents involving toxic and flammable gases.

The deaths of numerous railroad workers and emergency responders in the 1970s spurred regulators and the industry to improve the safety of the pressurized tank cars used to transport “all kinds of exotic materials that cause battlefield-like damage,” NTSB official Edward Slattery told The Associated Press in 1978.

Six weeks after 16 people were killed in Waverly, Tenn., including the town’s police and fire chiefs, when a tank car filled with propane exploded following a train derailment, the NTSB convened an emergency hearing in Washington. Nearly 50 witnesses testified, including mayors, emergency responders, railroad executives, private citizens and a young state attorney general from Arkansas named Bill Clinton.

“Every month in which unprotected tank cars ride the rails increases the chances of another catastrophic hazardous-materials accident,” said James King, then the NTSB’s chairman, in opening the hearing on April 4, 1978.

By the early 1980s, pressurized cars were equipped with puncture-resistant shields, fire-resistant thermal insulation and devices to help the cars stay coupled in derailments, reducing the risk that they could strike and puncture each other.

An industry study found that the retrofits made a big difference within six years. Punctures of the car’s heads – the round shields at each end of the car – fell by 94 percent. Punctures in the car’s shell – its cylindrical body – fell 67 percent. Ruptures due to fire exposure fell by 93 percent.

Additional changes in railroad operating practices, track maintenance and training for emergency response personnel reduced the frequency and severity of accidents.

The non-pressurized DOT-111A, however, was left mostly unaltered. Upgrades probably weren’t necessary when the cars were carrying benign products such as corn syrup or vegetable oils, but regulators also allowed the cars to transport flammable and corrosive materials.

In accident after accident over the next three decades, the NTSB repeatedly referred to the cars’ shortcomings.

“The inadequacy of the protection provided by DOT-111A tank cars for certain dangerous products has been evident for many years,” the NTSB wrote the Federal Railroad Administration in a letter dated July 1, 1991.

Two weeks later, a Southern Pacific train came off the tracks in a sharp curve at Cantara Loop, near Dunsmuir, Calif. A DOT-111A tank car leaked 19,000 gallons of metam sodium into the Sacramento River from a relatively small puncture. That outcome could possibly been improved by installing a half-inch-thick shield over each car’s end, or head, a location vulnerable to punctures.

In 1994, the railroad paid a $38 million settlement for a spill from just one tank car.

A decade later, the DOT-111A fleet began hauling vast quantities of ethanol as a federal renewable-fuel standard, mandated in the 2005 Energy Policy Act, began to take effect.

The cars’ vulnerability became evident more once, this time with a highly flammable liquid. The 2006 derailment of a Norfolk Southern ethanol train in New Brighton, Pa., about 30 miles northwest of Pittsburgh, got the attention of the NTSB again on tank car safety.

The ethanol boom took its toll in several other derailments, including a 2009 accident in Cherry Valley, Ill., near Rockford, that took the life of a motorist who was waiting for a train at a road crossing. Nine other people, including two firefighters, were injured. The NTSB, in its 2012 report on the accident, again cited the deficiencies of the DOT-111A.

“If enhanced tank head and shell puncture-resistance systems such as head shields, tank jackets and increased shell thicknesses had been features of the DOT-111 tank cars involved in this accident,” the agency wrote, “the release of hazardous materials likely would have been significantly reduced, mitigating the severity of the accident.”

Now Bakken crude oil, extracted from shale rock through hydraulic fracturing, has factored in at least three catastrophic derailments since July, including one that killed 47 people in Lac-Megantic, Quebec.

Another large crude-oil fire erupted near Aliceville, Ala., in November, when a train left the tracks in an unpopulated wetland area. Nearly 750,000 gallons were spilled in that incident, according to federal data.

In a preliminary report from its investigation of the December derailment of a BNSF crude oil train in Casselton, N.D., the NTSB said 18 of the 20 DOT-111A tank cars that derailed sustained punctures. The crash ignited a fire that billowed hundreds of feet into the frigid air, keeping two-thirds of the town’s 2,400 residents away from their homes for a day. The NTSB estimates that more than 400,000 gallons of crude oil spilled.

“When it starts to become a pattern, it becomes a problem,” said Larry Kaufman, a retired railroad-industry public relations official who worked for BNSF predecessor Burlington Northern, as well as Southern Pacific, which has since merged into Union Pacific.

In his budget plan this month, Democratic California Gov. Jerry Brown modified the state’s oil-spill response plan to anticipate the increased risk of an inland incident involving crude oil transported by train, including any near rivers and streams that supply the state with water.

Steve Evans, who coordinates the wild and scenic rivers program at Friends of the River, a group in Sacramento, Calif., was involved in settlement talks after the 1991 California spill.

“We’re bound to have a disaster sooner or later,” he said.

Email: ctate@mcclatchydc.com; Twitter: @tatecurtis

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