NTSB chief said feds accepted test results from Boeing that showed no indication of fire potential.
These are two of eight damaged cells in the battery that overheated on the All Nippon Airways Boeing 787 on Jan. 16 and prompted an emergency landing. An investigation into the battery found evidence of the same type of “thermal runaway” seen in a similar incident in Boston, officials said on Tuesday.
The nation’s top transportation safety official said Thursday that the Federal Aviation Administration accepted test results from Boeing in 2007 that failed to properly assess the risks of smoke or fire leaking from the batteries on Boeing’s new 787 jets.
Deborah Hersman, the chairwoman of the National Transportation Safety Board, told reporters that the problems seemed to have originated in the battery, when one of the eight cells had a short circuit and the fire spread to the rest of the cells. But she said that Boeing’s tests showed no indication that the new lithium-ion batteries on its 787 planes could erupt in flames and concluded they were likely to emit smoke less than once in every 10 million flight hours.
Once the planes were placed in service, though, the batteries overheated and emitted smoke twice last month, and caused one fire, after about 50,000 hours of commercial flights.
“The assumptions used to certify the batteries must be reconsidered,” Hersman said.
Late Thursday, the FAA said it would allow Boeing to conduct test flights with its 787 to collect data on the batteries and the plane’s electrical system. The agency said the flights “will be an important part of our efforts to ensure the safety of passengers and return these aircraft to service.” It did not immediately specify the number of test flights or when they would begin.
Hersman said that before the FAA certified the batteries, Boeing’s tests found no evidence that a short circuit in one of the eight cells could spread to other cells.
But Hersman said the fire on a 787 parked at an airport in Boston on Jan. 7 started with a short-circuit in one cell and then spread to the other cells.
She said investigators have still not been able to tell what caused the short-circuit in that cell and led to a “thermal runaway,” overheating up to 500 degrees, that then cascaded to the rest of the cells.
Still, she said, “This investigation has demonstrated that a short-circuit in a single cell can propagate to adjacent cells and result in a fire.”
Battery experts said the finding pinpointed one step Boeing could take to make the batteries safer: It could expand the size of the battery to create more physical separation between the cells. Ralph J. Brodd, a battery industry consultant, said Boeing and its Japanese battery subcontractor, GS Yuasa, could make the design and manufacturing changes needed to do that fairly quickly.
But unless investigators can determine what caused the first cell to short-circuit, federal officials said, Boeing will also be required to make other changes to prevent any of the possible causes and to better contain or vent any overheated materials. And given the safety board’s findings about how poorly Boeing gauged the original safety risks, the FAA is likely to take its time in assessing any new tests.
The 787 is the first commercial airplane to use large lithium-ion batteries for major flight functions. All 50 of Boeing’s 787s that were delivered to airlines have been grounded since mid-January, when a 787 made an emergency landing in Japan after the pilots smelled smoke in the cockpit.