Category Archives: Oil stabilization

Davis Enterprise Editorial: Benicia washes its hands of us

Repost from the Davis Enterprise

Our view: Benicia washes its hands of us

By Our View | November 15, 2015

The issue: Bay Area city can’t see past its own back yard on refinery project

The city of Benicia — the only entity capable of exerting any control over the crude-oil shipments set to arrive at a planned expansion of a Valero oil terminal — has shown in a draft environmental impact report that any impact the terminal has on communities farther up the train tracks is none of its business.

THE PROPOSED project would allow Valero to transport crude oil to its Benicia refinery on two 50-car freight trains daily on Union Pacific tracks that come right through Davis, Dixon, Fairfield and Suisun City on their way to Benicia. The rail shipments would replace up to 70,000 barrels per day of crude oil currently transported to the refinery by ship, according to city documents.

The original draft EIR, released in 2014, didn’t adequately address safety and environmental concerns. Local governments — including the city of Davis, Yolo County and the Sacramento Area Council of Governments — weighed in on the draft, urging Benicia to take a second look.

Benicia withdrew the draft and went back to work, and the new document acknowledges the risks of pollution, noise and, oh yes, catastrophic explosions from oil trains, the likes of which leveled Lac-Mégantic, Quebec, in 2013.

Disappointingly, having recognized the issues involved, the report simply says there’s no way to mitigate them and recommends moving ahead. With a bureaucratic shrug of the shoulders, the concerns of communities from Roseville to Suisun City are dismissed.

NATURALLY, SACOG disagrees, and so do we. While it’s true that there’s not a lot Benicia can do itself to mitigate the impact of its project, it can force Valero to do something about it.

SACOG urges a raft of measures that are within Valero’s control: advanced notification to local emergency personnel of all shipments, limits on storage of crude-oil tanks in urban areas, funding to train emergency responders, cars with electronically controlled pneumatic brakes, money for rail-safety improvements, implementation of Positive Train Control protocols and, most importantly, a prohibition on shipments of unstabilized crude oil that hasn’t been stripped of the volatile elements that made Lac-Mégantic and other derailments so catastrophic.

Due to federal laws, cities along the railway lines have no ability to control what goes through. Only Benicia, now, while the project is still on the drawing board, has the authority to set reasonable limits and conditions on a project that puts millions of people along the railroad in harm’s way.

We urge the Benicia City Council to use its discretionary authority in this matter to protect those of us who have no say in the process.

VIDEO: Government, Industry Ignore Scientific Case For Improving Crude By Rail Safety, Let Bomb Trains Roll On

Repost from DeSmogBlog

VIDEO: Government, Industry Ignore Scientific Case For Improving Crude By Rail Safety, Let Bomb Trains Roll On

By Brendan DeMelle, September 17, 2015 – 03:58


Since the tragic Bakken oil train accident that extinguished 47 lives in Lac-Megantic, Quebec in July 2013, seven more Bakken oil trains have derailed, resulting in accidents involving large fires and explosions. We now know that oil produced in North Dakota’s Bakken Shale formation is extremely volatile due to its high natural gas liquid content — resulting in the “bomb train” phenomenon.

DeSmog’s new investigative video, written and produced by Justin Mikulka, details a coordinated effort by the oil industry, members of the U.S. Congress, regulators and the Department of Energy to challenge the known science of crude oil characteristics with the goal of delaying or avoiding any regulatory changes requiring Bakken crude oil stabilization, a safety measure that would protect the millions of people currently living in bomb train blast zones.

Stabilization is the process that removes the volatile natural gas liquids from the crude oil, resulting in a “stable” petroleum product with greatly reduced volatility and flammability.

DeSmog has reported extensively on the oil-by-rail policy battle, including an investigation that revealed the direct role of the White House in working with North Dakota regulators to avoid any requirements for oil stabilization for the Bakken crude.

The success of their misdirection campaign is evident — the mainstream media is largely overlooking this critical issue when the public needs referees to ask the tough questions on this vulnerability in our crude oil by rail protocols. Yet a Wall Street Journal article this week on how to make oil safe to transport didn’t even mention stabilization.

The video uses archival information from American Petroleum Institute videos, Congressional hearing testimony, news clips and more to reveal how the oil industry has avoided regulation in order to continue transporting dangerous Bakken crude by rail at maximum profit.

Warning: This video contains science, humor and political theater all in one — a volatile mix indeed!

WATCH: DeSmogCAST: The Science of Bomb Trains

Half Million California Students Attend School In Oil Train Blast Evacuation Zones

Repost from DeSmogBlog
[Editor:  See the more detailed interactive map of schools by the Center for Biological Diversity.  Note Benicia’s Robert Semple Elementary School on the Center’s map, located just 0.88 miles from a Union Pacific train route which currently carries hazardous materials and is proposed for Valero Refinery’s Crude By Rail project.  Here’s a map of Robert Semple school and the tracks.  – RS] 

Half a Million California Students Attend School In Oil Train Blast Evacuation Zones

By Justin Mikulka, September 7, 2015 – 04:58

A new analysis by the Center for Biological Diversity finds that 500,000 students in California attend schools within a half-mile of rail tracks used by oil trains, and more than another 500,000 are within a mile of the tracks.

“Railroad disasters shouldn’t be one of the ‘three Rs’ on the minds of California school kids and their parents,” said Valerie Love with the Center. “Oil trains have jumped the tracks and exploded in communities across the country. These dangerous bomb trains don’t belong anywhere near California’s schools or our children.”

Click for larger image

Current safety regulations for first responders dealing with oil trains recommend evacuating everyone within a half-mile of any incident with an oil train. This wasn’t much of a problem for the most recent oil train accident in July in Culbertson, Montana because there were only 30 people within the half-mile radius area. However, in populated areas like California, potential scenarios could involve large-scale evacuations and casualties.

In addition to the threat posed to California’s students, the report Crude Injustice on the Rails released earlier this year by ForestEthics and Communities for a Better Environment, pointed out that in California the communities within the half-mile blast zones were also more likely to be low-income minority neighborhoods.

As more communities across the country become aware of the very real risks these oil trains pose, opposition is mounting to new oil-by-rail projects as well as challenges to existing facilities.

This past week in California, the Santa Clara County board of supervisors voted to keep oil trains out, citing an “unacceptable risk to our community.”

In Minnesota, Sen. Al Franken (D-MN) held a hearing on the subject and heard from concerned residents like Catherine Dorr, as reported by the local CBS station.

We’re in the 100 foot blast zone,” Dorr said. “My house and 60 townhouse residents are going to be toast if there’s an explosion.”

In Albany, New York which is the largest oil-by-rail hub on the East coast, this week a coalition of groups announced their intentions to sue the oil company transporting Bakken crude through Albany and challenge the validity of the air quality permit the company received in 2012.

And even in remote places like North Dakota, where much of the oil originates, the U.S. military is concerned about the proximity of the oil train tracks to nuclear missile facilities.

With all of this concern about the dangers of oil trains, a new report by the Associated Press (AP) paints a troubling picture about the preparedness of populated areas to respond to an oil-by-rail incident. The report was based on interviews with emergency management professionals in 12 large cities across the U.S.

It concludes, “The responses show emergency planning remains a work in progress even as crude has become one of the nation’s most common hazardous materials transported by rail.”

As noted on DeSmog, one of the reasons that the oil trains pose such a high risk is that the oil industry refuses to stabilize the oil to make it safe to transport. And the new regulations for oil-by-rail transport released this year allow for older unsafe tank cars to be used for another 8-10 years.

While the regulations require modernized braking systems on oil trains in future years, the rail industry is fighting this and a Senate committee recently voted to remove this from the regulations.

The reality is that unless there are drastic changes made, anyone living within a half mile of these tracks will be at risk for years to come.

And while oil production isn’t increasing in the U.S. right now due to the low price of oil, industry efforts to lift the current ban on exporting crude oil could result in a huge increase in fracked oil production. In turn, that oil will be put on trains that will head to coastal facilities and be loaded on tankers and sent to Asia.

Despite all of the opposition and the years-long process to complete new regulations, as the Associated Press notes, it isn’t like the emergency first responders are comfortable with the current situation.

“There could be a huge loss of life if we have a derailment, spill and fire next to a heavily populated area or event,” said Wayne Senter, executive director of the Washington state association of fire chiefs. “That’s what keeps us up at night.”

And even the federal regulators expect there are going to be catastrophic accidents. As reported by the AP earlier this year, the Department of Transportation expects oil and ethanol trains “will derail an average of 10 times a year over the next two decades, causing more than $4 billion in damage and possibly killing hundreds of people if an accident happens in a densely populated part of the U.S.”

With the known risks and the number of accidents, so far communities in the U.S have avoided disaster. But as Senator Franken pointed out, that has just been a matter of luck.

We’ve been lucky here in Minnesota and North Dakota and Wisconsin that we’ve not seen that kind of fatalities, but we don’t want this to be all about luck,” Sen. Franken said.

As over 1,000,000 students in California start a new school year in schools where they can easily hear the train whistles from the oil trains passing through their communities, let’s all hope we keep this lucky streak going.

Railway Age Magazine: The importance of little accidents

Repost from Railway Age Magazine
[Editor: At every turn, when an article mentions the North Dakota requirement for crude oil “stabilization,” I must remind the reader that North Dakota does NOT require crude oil “conditioning” as is required in Texas.  Conditioning would make the oil much safer.  – RS]

The importance of little accidents

By  David Schanoes, July 20, 2015 
You know the kind I mean: the ones where nobody gets hurt, nothing blows up, and nobody shows up, except you.

You get there. There’s no press, no NTSB “go team,” no competing reflectorized vests with initials like FBI, DHS, ATF, PHMSA, DEA, FRA, NTSB. No senators expressing shock and dismay and demanding that heads will—as the cameras do—roll.

There’s just you. The wreckmaster is on the way. The track supervisor too. The local fire department is there, and the cops. Everybody is thinking, “What a mess.” And looking at you.

And you know what? It’s better this way. We might actually be able to learn something. Less noise, more signal.

We’ve had a couple of the little ones recently.

First, on July 16, a BNSF unit crude oil train derailed 22 cars near Culbertson, Mont. Three tank cars ruptured, spilling approximately 35,000 gallons of crude. No fire, no explosion, no headlines, none of that stuff I listed above and that I would be happy to never list again.

Now, if I were BNSF, or the NTSB, or FRA, or DOT, or PHMSA, I’d be very interested in this no-fire, no-explosion derailment. BNSF hasn’t identified the source of the crude, but since the train was loaded by Savage Bakken Oil Services in Trenton, N. Dak., I think it’s safe to assume that the contents of this train was Bakken crude.

Last April, North Dakota required that Bakken crude be stabilized (reducing its volatility) prior to transport. So I’d be very interested in knowing if this train was transporting the stabilized crude.

Even more recently, USDOT has established new specs for tank cars handling unpressurized flammable materials, replacing DOT 111 and 111A specs for those cars with the new 117 classification. Another “interim” car, CPC 1232, is currently in service.

So I’d be very interested in knowing if the three cars that ruptured were 111, 111A, or 1232 models. ’d also be very interested in knowing if other cars that did derail but did not rupture are 111, 111A, or 1232 models.

DOT has also stipulated that CBR trains be fitted for ECP, electro-pneumatic braking, meaning of course, that the CBR tank cars must be fitted for ECP braking.

ECP braking is not a new concept. It’s been around for at least, what, 60 years? Instead of using changes in air pressure traveling throughout the entire length of the train to signal for the application of brakes, electro-pneumatic braking sends an electronic signal to receivers on each car’s air brake apparatus to initiate braking. “Lag time” is virtually eliminated; brakes set up simultaneously, smoothly, with dramatic reduction of in-train forces. Great idea—for passenger trains, where all the cars share common electrical connections with the locomotive.

ECP may be a great idea for freight trains. It’s definitely an expensive one, as the 90,000 or so tank cars currently more or less captured in hazmat/CBR transport have no electrical connections to anything.

So I’d be interested in knowing, with ECP braking, how many of the 22 cars that did derail would not have derailed. I’d be interested in knowing if the three tank cars that ruptured after derailing (a) wouldn’t have derailed to begin with and (b) would not have been subject to “rupture forces” due to additional impact from following cars if ECP braking had been installed.

Sounds like a job for TTCI, if you ask me.

And we had a second little accident on Friday, July 17, 2015, right here in New York City. Initially reported as a “sideswipe,” it was in fact a collision between two LIRR passenger trains. A westbound train was stopped at an interlocking signal at HALL. An eastbound train violated a signal displaying “stop,” and proceeded to collide with the stopped train. You can see a summary of the accident on, where else? YouTube. The summary begins around 3:31 into the video.

Again, no injuries, no fires, no explosions. But a lot to learn, because at 13:50 into the video, the president of the LIRR says that because this stop signal violation and resulting collision took place in the interlocking, “PTC isn’t going to help.”

This is startling news, and I hope it’s just a misunderstanding, as LIRR’s approved PTCIP (PTC Implementation Plan), available in public docket FRA-2010-0031, states:

The LIRR PTC system will enforce a stop at every Home Signal displaying a Stop aspect. Transponders provide the onboard computer with the information that the train is approaching a Home Signal and the distance to that Home Signal. The onboard system uses this data to generate a speed profile with a 0 mph target speed at a target point in approach to the signal. . . .

Now, back in the day, “home signals” meant the extreme outer opposing signals of an interlocking. Signals within the interlocking might be referred to as intermediate signals, although the requirements for complying with a stop indication from such a signal within the interlocking limits was exactly the same as that for the home signal.

The distinction between “home” and “intermediate” interlocking signals has operating significance only in defining the geographical boundaries of the interlocking in which all the interlocking rules apply, including stop at every signal displaying stop.

In addition 49 CFR 236.1005(a)(1)(i) (“Requirements for Positive Train Control systems) requires at interlockings where PTC routes intersect that PTC enforce “the stop on all routes.”

It’s the little things that mean the most, sometimes, so I’m looking forward to the little answers.