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NTSB Recommends Process Improvements for Certifying Lithium-ion Batteries as it Concludes its Investigation of the 787 Boston Battery Fire Incident
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 NTSB Recommends Process Improvements for Certifying Lithium-ion Batteries as it Concludes its Investigation of the 787 Boston Battery Fire Incident

WASHINGTON – Shortcomings in design and certification ultimately led to the fire in a lithium-ion battery installed on a Boeing 787 jetliner that had just completed an intercontinental flight to Boston, the NTSB determined in its final report on the incident, which was released today.

On January 7, 2013, ground workers discovered smoke and flames coming from an auxiliary power unit lithium-ion battery in a Japan Airlines 787 that was parked at the gate at Boston Logan International Airport. There were no injuries to any of the 183 passengers or 11 crewmembers that had already deplaned after flying from Tokyo's Narita Airport. The battery was manufactured by GS Yuasa Corporation.




NTSB Materials Engineer Matt Fox examines the casing from the battery involved in the JAL Boeing 787 fire incident.

Early in the investigation, the NTSB said that the fire began after one of the battery's eight cells experienced an internal short circuit leading to thermal runaway of the cell, which propagated to the remaining cells causing full battery thermal runaway. This condition caused smoke and flammable materials to be ejected outside the battery's case and resulted in excessive heat and a small fire.

"The investigation identified deficiencies in the design and certification processes that should have prevented an outcome like this," said NTSB Acting Chairman Christopher A. Hart. "Fortunately, this incident occurred while the airplane was on the ground and with firefighters immediately available."

Because the APU and main lithium-ion batteries installed on the 787 represented new technology not adequately addressed by existing regulations, the Federal Aviation Administration required that Boeing demonstrate compliance with special conditions to ensure that the battery was safe for use on a transport category aircraft.

Investigators said that Boeing's safety assessment of the battery, which was part of the data used to demonstrate compliance with these special conditions, was insufficient because Boeing had considered, but ruled out, cell-to-cell propagation of thermal runaway (which occurred in this incident) but did not provide the corresponding analysis and justification in the safety assessment. As a result, the potential for cell-to-cell propagation of thermal runaway was not thoroughly scrutinized by Boeing and FAA engineers, ultimately allowing this safety hazard to go undetected by the certification process.

As a result of its findings, the NTSB is recommending that the FAA improve the guidance and training provided to industry and FAA certification engineers on safety assessments and methods of compliance for designs involving new technology.

"Through comprehensive incident investigations like this one, safety deficiencies can be uncovered and addressed before they lead to more serious consequences in less benign circumstances," said Hart."

NTSB investigators also identified a number of design and manufacturing concerns that could have led to internal short circuiting within a cell.

As a result of the investigation, the NTSB made 15 safety recommendations to the FAA, two to Boeing, and one to GS Yuasa.

"The aviation industry is continually benefitting from technological advances, and we are hopeful that the lessons learned in this investigation will further enhance the industry's ability to safely bring those innovative technologies to market," said Hart.

The complete report is available at http://go.usa.gov/HJtJ.

All of the information and resources the NTSB has released for this investigation can be accessed from the following page: http://go.usa.gov/HSxd.

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Contact: NTSB Media Relations
490 L'Enfant Plaza, SW
Washington, DC 20594
Peter Knudson
(202) 314-6100
peter.knudson@ntsb.gov

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