CSB Releases Final Report into 2019 PES Fire and Explosion in Philadelphia

 
before_and_after_incident

Agency Calls on Industry to Require Improved Safeguards and US EPA to Require Analysis of Safer Technologies to Hydrofluoric Acid (HF) Alkylation and Conduct a TSCA Risk Evaluation of HF

Washington, D.C. October 11, 2022 – Today, the U.S. Chemical Safety and Hazard Investigation Board (CSB) released its final investigative report into a massive fire and explosions at the Philadelphia Energy Solutions (PES) Refinery in Philadelphia, Pennsylvania that occurred in June 2019. The incident occurred when a corroded pipe elbow ruptured, releasing process fluid into the refinery’s hydrofluoric acid (HF) alkylation unit. During the incident, over 5,000 pounds of highly toxic hydrofluoric acid (HF) were released, a 38,000-pound vessel fragment launched off-site and landed on the other side of the Schuylkill River, and an estimated property damage loss of $750 million resulted.

CSB Interim Executive Authority Steve Owens said, “This is one of the largest refinery disasters worldwide in decades in terms of cost.  the local community in Philadelphia fortunately was not seriously harmed, but given the refinery’s location, it could have been much worse. This incident should be a wake-up call to industry to prevent a similar event from occurring in the future.”

The CSB’s investigation determined that over 117,000 people reside within a mile of the PES Refinery, according to U.S. Census data.

The CSB’s investigation identified several safety issues which contributed to the incident.

  • Mechanical integrity: The CSB determined that the pipe elbow that failed had corroded faster than other piping in the HF alkylation unit. That is because the steel pipe elbow contained a higher content of nickel and copper than other piping in the unit.
  • Verifying safety of equipment after changes to good practice guidance: When the pipe elbow was initially installed in 1973, the standard set by American Society for Testing and Materials (ASTM) for carbon steel piping did not specify limits on nickel or copper content. Over the next decades that standard changed, and by 1995, the ASTM standard had been revised enough that the pipe elbow no longer met ASTM’s requirements due to the elbow’s high levels of nickel and copper.

CSB Supervisory Investigator Lauren Grim said, “A comprehensive evaluation of unit piping never occurred despite regulations from both the Occupational Safety and Health Administration (OSHA) and the Environmental Protection Agency (EPA) requiring companies to determine that their equipment is safe to operate after industry standards are updated. To prevent catastrophic incidents companies and industry trade groups must ensure process safety when new knowledge on hazards is published.”

  • Remotely operated emergency isolation valves: The CSB found that there were no remotely operated emergency isolation valves installed in the HF alkylation unit to isolate nearby hydrocarbon sources that could then flow through the failed elbow.  Although these valves are not explicitly required by the current American Petroleum Institute (API) standard on Safe Operation of Hydrofluoric Acid Alkylation Units, if PES had installed such valves, the release from the pipe elbow could have been minimized and the subsequent explosions could have been prevented. As a result, the CSB is recommending to API to update its standard on Safe Operation of Hydrofluoric Acid Alkylation Units to require installation of remotely operated emergency isolation valves on the inlets and outlets of all hydrofluoric acid containing vessels, and any hydrocarbon containing vessels meeting defined threshold quantities.
  • Safeguard reliability in HF alkylation units:   On the day of the incident, pumps designed to spray large volumes of water to suppress an HF release failed to activate early in the incident as the elements to remotely operate the pumps were damaged by the fire and explosions. Forty minutes elapsed from the time the release began before a worker was able to manually turn on a water pump. In the meantime, highly toxic HF escaped from equipment and vaporized into the air. As a result, the CSB is recommending to API to update its standard on Safe Operation of Hydrofluoric Acid Alkylation Units to require that critical safeguards and associated control system components be protected from fire and explosion hazards, including radiant heat and flying projectiles.
  • Inherently safer design: Of the 155 U.S. petroleum refineries currently in operation in the United States, 46 operate HF alkylation units. Hydrofluoric acid is highly toxic and is one of the eight most hazardous chemicals regulated by EPA’s Risk Management Program (RMP). Alternative alkylation technologies have been developed, such as a solid acid catalyst and new ionic liquid acid catalyst alkylation technology. Replacing highly toxic chemicals with less hazardous chemicals is an “inherently safer design” approach. Additionally, some refinery alkylation units use sulfuric acid as a catalyst instead of HF. Although sulfuric acid is highly corrosive and can cause skin burns upon contact, it remains a liquid upon release and does not present the same risk to surrounding communities as HF, which vaporizes upon release and has the potential to travel offsite.

The CSB’s investigation found that there is no federal regulatory requirement for refineries to analyze inherently safer design strategies to reduce the risk of serious accidental releases. Technologies are being developed that could be safer alternatives to HF alkylation, and refiners should periodically evaluate these available alkylation technologies.  Therefore, the CSB is recommending that EPA:

  • Require petroleum refineries to conduct a safer technology and alternatives analysis (STAA) as part of their Process Hazard Analysis under EPA’s RMP rule, and evaluate the practicability of any inherently safer technology; and
  • Initiate prioritization under the Toxic Substances Control Act (TSCA) to evaluate whether hydrofluoric acid is a high priority substance for risk evaluation, and if it is, conduct a TSCA risk evaluation of HF and implement any identified risk mitigation requirements.

Board Member Sylvia Johnson said, “The CSB wants to make sure that regulators are requiring companies to explore, determine and utilize the safest technology available. Understanding and mitigating the risk of using highly toxic chemicals such as HF is good for communities, workers, and industry.”

The CSB is an independent federal agency charged with investigating incidents and hazards that result, or may result, in the catastrophic release of extremely hazardous substances.  The agency's Board Members are appointed by the President and confirmed by the Senate.  CSB investigations look into all aspects of chemical accidents and hazards, including physical causes, such as equipment failure, as well as inadequacies in regulations, industry standards, and safety management systems.

For further information contact Hillary Cohen, Communications Manager, at [email protected] or (202) 446-8094.  Further information about the agency’s public meetings may be found on the CSB website at: www.csb.gov.

 

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