Tag Archives: U.S. Environmental Protection Agency

Lessons from Lynchburg – Get ready for the next one!

Repost from The Daily Press, Newport News VA
[Editor:  This article turns into a promo for CSX with too-easy suggestions of safer times ahead, but it details a good overview of events immediately following a major derailment with explosion and fire.  See “Responders had to…” highlighted below.   – RS]

Virginia, CSX offer advice for crude-by-rail accidents

Symposium session addresses preventing, responding to train derailments

By Tamara Dietrich, March 21, 2015

A big lesson from the crude oil train that derailed in Lynchburg last April, sparked a raging fire and spilled fuel into the James River is this: Get ready for the next one.

Not that emergency response experts are predicting another derailment in Virginia, but since up to five CSX trains each week carry Bakken crude across the width of the state to a fuel terminal in Yorktown, the possibility exists.

And residents should understand the risks, how to mitigate them and how to respond.

“I would think they would engage with their emergency manager for that region and say, ‘Hey, what do we need to know?’ ” said Wade Collins, hazardous materials supervisor with the Virginia Department of Emergency Management (VDEM). ” ‘What do we need to do? How are we prepared for that?’ ”

Collins regaled first-responders from around the area with a blow-by-blow of the combined emergency response to the Lynchburg derailment, part of a presentation Friday morning at the 2015 Virginia Emergency Management Symposium in Hampton. The symposium ran from Wednesday through Friday.

Appearing with him was Bryan Rhode, vice president for state government affairs for the Mid-Atlantic region for CSX Transportation. Rhode spoke on measures that CSX and the industry are taking to prevent derailments, the safety training they offer and the ways they assist in the response when an accident occurs.

Those measures include reducing maximum train speeds, enhancing braking systems, conducting more track inspections, offering training for first-responders around the country, pressing for improved tank car regulations and better testing and classification for Bakken crude oil, which is more volatile than typical crude.

“Safety is our absolutely No. 1 priority,” said Rhode, a former Virginia secretary for public safety. “Nothing takes a back seat to safety.

Lynchburg was lucky

The Lynchburg derailment made national headlines when 17 cars out of a 105-car tanker train carrying about 3 million gallons of crude suddenly jumped the tracks in the downtown area.

Three tankers careened down the banks of the James River and into the water. One tanker burst open, spilling its fuel.

Something sparked, setting off a fireball so intense it burned itself out after 49 minutes, Collins said.

But Lynchburg was lucky.

“If we had to have a crude oil derailment in Virginia, everything was in our favor that day, actually,” Collins said.

Two days of rain had put the James at flood stage, which helped douse the flames and cool the tankers.

The weather was bad, so residents weren’t milling at the riverside park. No anglers were hanging out at popular fishing holes.

And the tankers ran into the river rather than crash into the commercial area.

Of the 30,000 gallons of fuel contained in the broken tanker, Collins said 29,245 gallons were consumed by the fire. Another 390 gallons were released to the river, and less than 200 gallons into the soil. What little remained was recovered.

And no one was hurt.

Emergency responders at the scene ranged from the local fire department to state hazardous materials teams, the National Guard to the U.S. Environmental Protection Agency. CSX immediately deployed its own group of hazardous materials professionals and special agents to set up an outreach center for local residents and business owners impacted by the accident.

“We bring an enormous amount of resources to the table,” Rhode said. “If we have an incident, we’re going to be there from that point until it is effectively resolved. And we’re going to get the job done.”

Responders had to evacuate the area, notify local municipalities, identify water intakes downstream and access points on the river for vehicles and boats. Booms were spread across the river to stop the flow of residual oil.

The toppled tanker cars still on the tracks were up-righted, put on flatbed cars and shipped off. The ones in the water were drained of fuel, then hauled from the river.

Contractors hired by state and federal authorities as well as CSX began testing the water and soil. Collins said monthly tests are still conducted.

“They monitored it very closely,” Collins said. “They looked for fish kill or damage or injury, and we found nothing.”

The initial response took nine days and has cost about $4 million, he said. The investigation into the cause of the derailment is still ongoing.

Be prepared

Among the lessons learned, Collins said, is the value of relationships, partnerships and training. And keeping up on current issues.

“Know what’s coming through your community,” he said.

And know if you have the resources to respond to a rail emergency.

“As we look along that crude oil route, many of those jurisdictions are rural,” Collins said. “They have volunteer emergency services. They may or may not have the capability to do an effective response. If you know you don’t have that capability, then be planning — where can I get that?”

CSX offers hazardous materials safety training at the local level, and hosts a trainer training facility in Pueblo, Colo., that handles 4,000 first-responders a year, said Rhode. Tuition and travel costs are covered.

The company hosted a three-day safety training event in Richmond last year and will try to conduct another in Virginia next year. It also offers online training opportunities on its website.

On Thursday, Rhode said, CSX presented a $25,000 donation to the Virginia Hazardous Materials Training Facility in York County.

The rail company also offers a system “unique” in the industry, that provides emergency response officials near real-time information on what’s on a particular train, he said. The company is also piloting a mobile app for first-responders to get that information “when you need it.”

Letting the public know what’s being carried on a train, however, is more problematic.

“Railroads are not allowed to disseminate customer information, but are able to do it in terms of our emergency response,” Rhode said. “It’s a security matter. You don’t want real-time information about very hazardous materials necessarily out there in the wrong hands.”

CSX operates in 23 states and two provinces of Canada. It runs 13,000 trains a day, two of which carry crude oil.

In Virginia, it operates 2,000 miles of track and four major rail yards, including one in Newport News. The company employs 1,200 people in the state. About 40 percent of the cargo unloaded at the Port of Virginia is transported on CSX trains, Rhode said.

EPA: Illinois oil train derailment threatens Mississippi River

Repost from McClatchy DC News
[Editor: In addition to breaking news about the EPA’s order of “imminent and substantial danger,” this article is an excellent summary of five recent hazmat derailments in as many weeks.  – RS]

EPA: Illinois oil train derailment threatens Mississippi River

By Curtis Tate, McClatchy Washington Bureau, March 7, 2015
Oil Train Derailment Illinois
Smoke and flames erupt when a train derailed Thursday, March 5, 2015, near where the Galena River meets the Mississippi in Illinois. On Saturday, March 7, the Environmental Protection Agency said the spill posed an environmental threat to the region. MIKE BURLEY — AP/Telegraph Herald

— An oil train derailment and spill in northwest Illinois poses an “imminent and substantial danger” of contaminating the Mississippi River, the U.S. Environmental Protection Agency said Saturday.

The spill from the derailment, which occurred Thursday, also threatens the Galena River, a tributary of the Mississippi, and the Upper Mississippi National Wildlife and Fish Refuge, one of the most complex ecosystems in North America.

The EPA said it couldn’t estimate how much oil was spilled, but that the 21 cars of the 105-car BNSF Railway train that derailed contained 630,000 gallons of Bakken crude from North Dakota. Small fires from the wreckage continued to burn Saturday.

Earlier Saturday, another oil train derailed and caught fire near Gogama, Ontario, bringing to five the total number of fiery derailments in the U.S. and Canada in as many weeks.

The safety of trains carrying flammable materials has become an issue as the introduction of new drilling technology has allowed the development of crude oil deposits far from traditional pipelines, particularly in the so-called Bakken formation in North Dakota. Rail has become the preferred way to transport that crude to refineries, with railroads moving about 500,000 carloads of oil last year, according to industry estimates, up from 9,500 in 2008. One tank car holds 30,000 gallons.

But recent derailments have cast doubt on the effectiveness of safety efforts and suggest that no tank car currently in service on the North American rail system is tough enough to resist damage in relatively low-speed derailments.

According to the Federal Railroad Administration, which is investigating the Illinois derailment, the train was traveling at just 23 miles per hour when it left the tracks, well below the maximum speed allowed. The damaged tank cars were newer CPC-1232 tank cars, which are supposed to be safer than previous ones, but have failed in at least four derailments this year and at least two in 2014.

Saturday’s derailment of a Canadian National Railway train took place about 23 miles from where another oil train derailed on the same rail line three weeks ago. The railroad said on Twitter Saturday afternoon that five cars were in a local waterway, some of them on fire. About 264,000 gallons of oil were released in the Feb. 14 derailment. The Transportation Safety Board of Canada is investigating both accidents.

The Illinois derailment is the second in three weeks on U.S. rails. On Feb. 16, 28 cars of a 107-car CSX train derailed in Mount Carbon, W.Va., and 19 caught fire. One house was destroyed and more than 100 residents were evacuated for four days. Many residents and first responders witnessed columns of fire rising hundreds of feet in the air as several of the tank cars ruptured from heat exposure.

A Canadian Pacific train carrying ethanol derailed on Feb. 4 along the Upper Mississippi north of Dubuque, Iowa. The EPA estimates about 55,000 gallons spilled, some of which burned and some of which was recovered from the icy river.

In a statement Saturday, BNSF said a temporary road was being built to the Illinois site, about four miles south of Galena, to help extinguish remaining fires and remove damaged cars. The railroad said it “sincerely regrets” the impact of the derailment.

“Protection of the communities we serve, the safety of our employees and protection of the environment are our highest priorities,” the railroad said.

The role of the newer CPC-1232 tank cars in recent derailments and fires raises new worries about the risk shipments of oil pose to the cities and towns through which they travel. The rail industry adopted the CPC-1232 tank cars as standard in 2011 for oil shipments, saying they were an improvement over the DOT-111 tank car, which had been in use for decades to haul a variety of commodities, including ethanol and crude.

But in spite of special reinforcement of exposed areas, the new cars are still prone to spilling their contents, even at relatively low speeds.

On Jan. 30, the U.S. Department of Transportation sent new regulations for oil and ethanol trains to the White House Office of Management and Budget for review. The rule-making package is expected to include a new tank car design that exceeds the CPC-1232 standard.

According to the department’s February report on significant rule-makings, the final rule is scheduled for publication on May 12.

 

EPA: Tar sands oil, Keystone XL means “Significant Increase” in Climate Pollution

Repost from Center for Biological Diversity

EPA: Keystone XL Means “Significant Increase” in Climate Pollution

Endangered Earth Online, Feb. 5, 2015

refinery_emissionsHere’s a no-brainer: The U.S. Environmental Protection Agency said this week that the development of tar sands oil that would be carried by the Keystone XL pipeline “represents a significant increase in greenhouse gas emissions” — the pollution equivalent of fumes spewing from 5.7 million passenger vehicles over the next 50 years.

Extraction and refinement of tar sands oil produces twice as much greenhouse gas per barrel as conventional oil. In June 2013 President Obama warned of the dangers of climate change and said Keystone would only be in the national interest if it “does not significantly exacerbate the problem of carbon pollution.”

“The ball’s in President Obama’s court,” said Bill Snape, senior counsel with the Center for Biological Diversity. “He said he wouldn’t approve this disastrous pipeline if it significantly exacerbates the problem of carbon pollution. It’s time for him to keep his word.”

Get more from Bloomberg Business.

 

20 By 2020: A Pledge To Reduce Bay Area Refinery Pollution

Repost from SWITCHBOARD, Natural Resources Defense Council Staff Blog

20 By 2020: A Pledge To Reduce Refinery Pollution

By Diane Bailey, October 9, 2014

Diane Bailey

The Bay Area Air District has been working for the past two years to craft regulations that track and limit refinery pollution as oil companies begin bringing in extreme new types of crude oil that put workers and refinery fenceline communities at risk.  Facing much more pollution from refining extreme crude oil, like tar sands and Bakken crude, and in the aftermath of the massive August 2012 fire at Chevron Richmond, a number of community and environmental advocates got together with refinery workers at the start of the rulemaking effort.  (below, the Chevron refinery and tanks loom large over North Richmond; Photo Credit: Environmental Health News)

Chevron richmond homes.jpgWe came up with the Worker-Community Approach to not only ensure that pollution would not increase from refineries but to track crude oil used and achieve continual progress on air quality by reducing 20 percent of refinery pollution by 2020.

Our challenge to the Bay Area Air District and to all Chevron tankfarm homes.jpgfive oil companies with refineries in the region is that given the tremendous amounts of pollution pumped out by refineries and impacting the health of fenceline communities every day, will they work together to commit to cutting pollution by 20 percent by 2020?  Here are five things you need to know about refinery pollution in the Bay Area that help explain why Refineries in the Bay Area are much more polluting than other refineries and can easily reduce 20 percent of their toxic emissions over the next five years:

1)      According to US EPA Toxics Release Inventory (TRI) Data: Bay Area refineries, on average, report more than twice the toxic chemical releases reported by Los Angeles Area refineries.

2)      According to the California Air Resources Board, emissions inventory data, Bay Area refinery emissions are estimated to decrease by 50 percent or more by 2020, making a 20 percent reduction by 2020 seem easy.  But projections are one thing; we need a reliable commitment in writing.

3)      The CARB emissions inventory data also shows that Bay Area Refineries currently emit 7 times more nitrogen oxides (NOx), 3 times more sulfur dioxide and at least a third more organic hydrocarbons (like benzene) than Southern CA refineries, yet Southern California refineries collectively have over a third more capacity.

4)      According to regional air district data, the Chevron Richmond refinery is much more polluting than its El Segundo “twin” that has the same design; Chevron Richmond emitted more than twice as much organic hydrocarbon and particulate matter (PM) and eight times more toxic benzene than the El Segundo refinery in 2012.  Going back to TRI emissions, Chevron Richmond released over 80 percent more toxic air pollution than Chevron El Segundo in 2011.

5)      According to a 2013 Statewide Audit, on a rough per gallon of gasoline basis, Bay Area Refineries are 50 percent more climate polluting, twice as polluting for organic hydrocarbons and NOx, almost 20 percent more polluting for PM and leak over three times as much benzene and almost five times as much formaldehyde relative to gasoline produced in Southern California.

Wouldn’t it be great if Bay Area refineries – Valero, Chevron, Tesoro, Phillips 66 and Shell – took the 20 by 2020 pledge?  They could use the same modern pollution controls that refineries in Southern California have installed.  This kind of commitment to clean air, is not only doable technologically, it is a smart approach to being a good neighbor and supporting community health.  The proactive Worker-community Approach to improving air quality also ensures that we won’t see an increase in pollution as oil companies bring more extreme crude oil into the region.  In fact, we would like to see refiners take a good neighbor pledge not to bring any extreme, dangerous crude oil into the Bay Area at all.  At the very least, they should pledge a 20 percent reduction of toxic pollution by 2020.  They did it in Southern California; Bay Area communities deserve no less.

THE PLEDGE:  A Worker-Community Approach to Emission ReductionsIn order to address the ongoing health hazards in refinery-impacted communities and prevent any increases in pollution caused by changing crude oil, the refinery rule should require:

1)  Each refinery is required to decrease refinery-wide emissions of pollutants that create environmental health hazards by at least 20 percent below the refinery’s baseline by 2020, showing adequate incremental progress of at least two percent each year;

OR

2)  If these reductions aren’t possible, a refinery needs to show that they are using the best available emission control technology (BACT) throughout the refinery (i.e., eliminate “grandfathered,” “non-BACT” and “exempted” sources in the refinery).


Sources & Notes:
  1. Refinery Capacity vs. Throughput: Refinery comparisons were adjusted by capacity as reported to US EPA and to the California Energy Commission.  Although annual crude oil throughput would be a better comparison point, it is not publicly available.  Thus an imperfect assumption that most refineries utilize most of their capacity must be made in order to compare emissions.  According to CEC, Southern California has roughly 1 million BPD refining capacity and the Bay Area has roughly 700,000 BPD capacity.  “A rough per gallon” refined basis is relative to reported capacity not throughput or production.
  2. CARB emissions inventory queries were run for 2012 and the future projection year of 2020 for industrial sources, taking the sum of the Emissions Inventory Categories: 040-Petroleum Refining (Combustion) and 320-Petroleum Refineries.
  3. BAAQMD Emissions Inventory Data for each refinery was transmitted to NRDC via Public Records Request, August 28, 2014 for years 2011 through 2013.