Overcharged batteries eyed in Boeing 787 fires
WASHINGTON (AP) - It's likely that burning lithium ion batteries on two Boeing 787 Dreamliners were caused by overcharging, aviation safety and battery experts said Friday, pointing to developments in the investigation of the Boeing incidents as well as a battery fire in a business jet more than a year ago.
An investigator in Japan, where a 787 made an emergency landing earlier this week, said the charred insides of the plane's lithium ion battery show the battery received voltage in excess of its design limits.
The similarity of the burned battery from the All Nippon Airways flight to the burned battery in a Japan Airlines 787 that caught fire Jan. 7 while the jet was parked at Boston's Logan International Airport suggests a common cause, Japan transport ministry investigator Hideyo Kosugi said.
"If we compare data from the latest case here and that in the U.S., we can pretty much figure out what happened," Kosugi said.
In the case of the 787 in Boston, the battery in the plane's auxiliary power unit had recently received a large demand on its power and was in the process of charging when the fire ignited, a source familiar with the investigation of the 787 fire in Boston told The Associated Press. The plane had landed a short time earlier and was empty of passengers, although a cleaning crew was working in the plane.
The source spoke on condition of anonymity because he wasn't authorized to speak publicly.
The Federal Aviation Administration issued an emergency order Wednesday temporarily grounding the six 787s belonging to United Airlines, the lone U.S. carrier operating Boeing's newest and most technologically advanced airliner. The Japanese carriers already had grounded their 787s, and airlines and civil aviation authorities in other countries followed suit, shutting down all 50 Dreamliners that Boeing has delivered so far.
Boeing said Friday it will stop delivering new 787s to customers until the electrical system is fixed. However, production is not stopping. The plane is assembled in Everett, Wash., and North Charleston, S.C. The aircraft maker has booked orders for more than 800 of the planes from airlines around the world attracted by its increased fuel efficiency.
A battery fire in a Cessna Citation CJ4, a business jet, prompted the Federal Aviation Administration in October 2011 to issue an emergency order requiring the lithium ion batteries in all 42 of the jets in operation at that time to be replaced with a conventional nickel-cadmium or lead-acid battery. The fire occurred while the plane was hooked up to a ground power station at Cessna's aircraft completion center in Wichita, Kan. Normally, that would cause an aircraft battery to automatically start charging, experts said.
A letter from Cessna to CJ4 owners after the incident cautioned: "Do not connect a ground power unit to the airplane if you have reason to believe the battery may be in a depleted state ... Do not leave the aircraft unattended with a ground power unit connected."
The Citation was Cessna's first business jet with a lithium ion battery as its main battery, and the 787 is the first airliner to make extensive use of lithium ion batteries. But the two are vastly different in size and in other respects, including their electrical systems, making comparisons difficult. Their batteries also came from different makers. The reasons they overcharged are likely to be different, experts said.
However, the three incidents - the two burned 787 batteries and the Citation fire - underscore the vulnerability of lithium ion batteries to igniting if they receive too much voltage too fast, experts said. Other types of batteries may overheat in those circumstances, but they are far less susceptible to starting a fire, they said.
"Other batteries don't go this wrong when you treat them this badly," said Jay Whitacre, an associate professor of materials science and engineering at Carnegie Mellon University. "The overall story here is these batteries are full of flammable electrolyte and they will burn if they are mistreated and something goes wrong."
There was one lithium ion battery fire during testing of the batteries while Boeing was working with FAA on certification of the 787, said Marc Birtel, a spokesman for the aircraftmaker.
However, that fire was due to problems with the test rather than the batteries themselves, he said.
"There are multiple backups to ensure the system is safe," Birtel said. "These include protections against over-charging and over-discharging."
But John Goglia, an aviation safety expert and former National Transportation Safety board member, said, "It certainly sounds like based on what has been released so far that we have an issue of the battery charger or some other source providing too much energy to the battery."
He said too-rapid charging might cause the electrolyte fluid in the batteries to overheat, leak and catch fire.
If the incidents are due to overcharging batteries, that might be good news for Boeing, Goglia said. A flaw in the aircraft's electronics that permits overcharging would likely be much easier to fix than having to replace the aircraft's lithium batteries with another kind of battery, he said.
Another possibility is a manufacturing defect in the batteries themselves, Whitacre said. More than other types of batteries, lithium ion batteries rely on very thin sheets of material internally to separate the negative and positive poles. The slightest flaw can cause a short circuit, overheating the flammable electrolytes.
"It's a delicate ecosystem that you are creating inside it and you have to manufacture it with perfect integrity," Whitacre said. "Then you have to keep it in the right voltage range and be very safe with its environmental conditions."
Jim McNerney, Boeing's chairman, president and CEO, sent the company's employees a letter Friday expressing confidence in the 787 and vowing to return the plane to service. "I remain tremendously proud of employees across the company for the decade of effort that has gone into designing, developing, building and delivering the most innovative commercial airplane ever imagined," he said.
The attraction of lithium batteries is that they are significantly lighter than other types of batteries. That saves fuel, which is airlines' leading expense. They also charge faster and contain more energy. And they can be molded to fit into odd space on airplanes, which most other batteries cannot.
The only other airliner using lithium batteries is the Airbus A380, which makes only limited use of the batteries for emergency lighting. However, Airbus is working on another airliner, the A350, expected to debut in 2014, that will make more extensive use of lithium batteries.
Boeing's headaches with the 787's lithium batteries are likely to cause European safety officials and other regulators around the world to take a harder look at the new Airbus plane's batteries, safety experts said.
"I think they're going to have a learning experience here that probably is going to result in future modifications for anybody who wants to design an aircraft and use this type of battery technology," said Robert Fiegl, chairman of aeronautical science at Embry-Riddle Aeronautical University in Prescott, Ariz.
The FAA, like aviation regulators in other countries, relies on the aircraft manufacturers to test their planes to make sure they are safe. FAA's certification engineers validate that testing and ensure that the level of safety meets FAA regulations. Boeing developed the safeguards for the 787s lithium batteries, but they had to win FAA's approval first.
The safety certification for the design, manufacturer and assembly of the 787 - a process that requires FAA approval each step of the way - was different in some respects from other aircraft because the Dreamliner employs so many cutting-edge technologies, safety experts said.
Besides its use of lithium batteries, the 787 is the first airliner whose structure is mostly made from composite materials rather than aluminum. The aircraft also relies to a greater extent than previous airliners on electronics to operate, rather than hydraulic or mechanical systems.
"You can go down the list of hardware on that plane where it's the first time it has been used on an airplane," said Paul Czysz, professor emeritus of aeronautical engineering at St. Louis University in St. Louis. "With anything that's brand new and has never been used on an airplane before, you run the risk of being the first one to find out if it really works."
The 787 was tested extensively both before and after its first test flight in 2009. The FAA said its technical experts logged 200,000 hours testing and reviewing the plane's design before it was certified in August 2011.
Six test planes ran up some 4,645 flight hours. About a quarter of those hours were flown by FAA flight test crews, the agency said in 2011.\
An investigator in Japan, where a 787 made an emergency landing earlier this week, said the charred insides of the plane's lithium ion battery show the battery received voltage in excess of its design limits.
The similarity of the burned battery from the All Nippon Airways flight to the burned battery in a Japan Airlines 787 that caught fire Jan. 7 while the jet was parked at Boston's Logan International Airport suggests a common cause, Japan transport ministry investigator Hideyo Kosugi said.
"If we compare data from the latest case here and that in the U.S., we can pretty much figure out what happened," Kosugi said.
In the case of the 787 in Boston, the battery in the plane's auxiliary power unit had recently received a large demand on its power and was in the process of charging when the fire ignited, a source familiar with the investigation of the 787 fire in Boston told The Associated Press. The plane had landed a short time earlier and was empty of passengers, although a cleaning crew was working in the plane.
The source spoke on condition of anonymity because he wasn't authorized to speak publicly.
The Federal Aviation Administration issued an emergency order Wednesday temporarily grounding the six 787s belonging to United Airlines, the lone U.S. carrier operating Boeing's newest and most technologically advanced airliner. The Japanese carriers already had grounded their 787s, and airlines and civil aviation authorities in other countries followed suit, shutting down all 50 Dreamliners that Boeing has delivered so far.
Boeing said Friday it will stop delivering new 787s to customers until the electrical system is fixed. However, production is not stopping. The plane is assembled in Everett, Wash., and North Charleston, S.C. The aircraft maker has booked orders for more than 800 of the planes from airlines around the world attracted by its increased fuel efficiency.
A battery fire in a Cessna Citation CJ4, a business jet, prompted the Federal Aviation Administration in October 2011 to issue an emergency order requiring the lithium ion batteries in all 42 of the jets in operation at that time to be replaced with a conventional nickel-cadmium or lead-acid battery. The fire occurred while the plane was hooked up to a ground power station at Cessna's aircraft completion center in Wichita, Kan. Normally, that would cause an aircraft battery to automatically start charging, experts said.
A letter from Cessna to CJ4 owners after the incident cautioned: "Do not connect a ground power unit to the airplane if you have reason to believe the battery may be in a depleted state ... Do not leave the aircraft unattended with a ground power unit connected."
The Citation was Cessna's first business jet with a lithium ion battery as its main battery, and the 787 is the first airliner to make extensive use of lithium ion batteries. But the two are vastly different in size and in other respects, including their electrical systems, making comparisons difficult. Their batteries also came from different makers. The reasons they overcharged are likely to be different, experts said.
However, the three incidents - the two burned 787 batteries and the Citation fire - underscore the vulnerability of lithium ion batteries to igniting if they receive too much voltage too fast, experts said. Other types of batteries may overheat in those circumstances, but they are far less susceptible to starting a fire, they said.
"Other batteries don't go this wrong when you treat them this badly," said Jay Whitacre, an associate professor of materials science and engineering at Carnegie Mellon University. "The overall story here is these batteries are full of flammable electrolyte and they will burn if they are mistreated and something goes wrong."
There was one lithium ion battery fire during testing of the batteries while Boeing was working with FAA on certification of the 787, said Marc Birtel, a spokesman for the aircraftmaker.
However, that fire was due to problems with the test rather than the batteries themselves, he said.
"There are multiple backups to ensure the system is safe," Birtel said. "These include protections against over-charging and over-discharging."
But John Goglia, an aviation safety expert and former National Transportation Safety board member, said, "It certainly sounds like based on what has been released so far that we have an issue of the battery charger or some other source providing too much energy to the battery."
He said too-rapid charging might cause the electrolyte fluid in the batteries to overheat, leak and catch fire.
If the incidents are due to overcharging batteries, that might be good news for Boeing, Goglia said. A flaw in the aircraft's electronics that permits overcharging would likely be much easier to fix than having to replace the aircraft's lithium batteries with another kind of battery, he said.
Another possibility is a manufacturing defect in the batteries themselves, Whitacre said. More than other types of batteries, lithium ion batteries rely on very thin sheets of material internally to separate the negative and positive poles. The slightest flaw can cause a short circuit, overheating the flammable electrolytes.
"It's a delicate ecosystem that you are creating inside it and you have to manufacture it with perfect integrity," Whitacre said. "Then you have to keep it in the right voltage range and be very safe with its environmental conditions."
Jim McNerney, Boeing's chairman, president and CEO, sent the company's employees a letter Friday expressing confidence in the 787 and vowing to return the plane to service. "I remain tremendously proud of employees across the company for the decade of effort that has gone into designing, developing, building and delivering the most innovative commercial airplane ever imagined," he said.
The attraction of lithium batteries is that they are significantly lighter than other types of batteries. That saves fuel, which is airlines' leading expense. They also charge faster and contain more energy. And they can be molded to fit into odd space on airplanes, which most other batteries cannot.
The only other airliner using lithium batteries is the Airbus A380, which makes only limited use of the batteries for emergency lighting. However, Airbus is working on another airliner, the A350, expected to debut in 2014, that will make more extensive use of lithium batteries.
Boeing's headaches with the 787's lithium batteries are likely to cause European safety officials and other regulators around the world to take a harder look at the new Airbus plane's batteries, safety experts said.
"I think they're going to have a learning experience here that probably is going to result in future modifications for anybody who wants to design an aircraft and use this type of battery technology," said Robert Fiegl, chairman of aeronautical science at Embry-Riddle Aeronautical University in Prescott, Ariz.
The FAA, like aviation regulators in other countries, relies on the aircraft manufacturers to test their planes to make sure they are safe. FAA's certification engineers validate that testing and ensure that the level of safety meets FAA regulations. Boeing developed the safeguards for the 787s lithium batteries, but they had to win FAA's approval first.
The safety certification for the design, manufacturer and assembly of the 787 - a process that requires FAA approval each step of the way - was different in some respects from other aircraft because the Dreamliner employs so many cutting-edge technologies, safety experts said.
Besides its use of lithium batteries, the 787 is the first airliner whose structure is mostly made from composite materials rather than aluminum. The aircraft also relies to a greater extent than previous airliners on electronics to operate, rather than hydraulic or mechanical systems.
"You can go down the list of hardware on that plane where it's the first time it has been used on an airplane," said Paul Czysz, professor emeritus of aeronautical engineering at St. Louis University in St. Louis. "With anything that's brand new and has never been used on an airplane before, you run the risk of being the first one to find out if it really works."
The 787 was tested extensively both before and after its first test flight in 2009. The FAA said its technical experts logged 200,000 hours testing and reviewing the plane's design before it was certified in August 2011.
Six test planes ran up some 4,645 flight hours. About a quarter of those hours were flown by FAA flight test crews, the agency said in 2011.\
Holy Buckets, the same thing almost happened to me! Years and years ago my first car, a 1959 Buick LeSabre, the voltage regulator failed and that caused my generator to over charge the battery, it was sizzling. The polite young man at the service station (the same guy that filled my tank with gas, checked my engine oil and cleaned the windshield) suggested I turn on all my electric powered devices to reduce the charge heading to the battery. I took his advice and turned on everything, I even constantly pushed the cigarette lighter in to draw power, it worked. I made it home safely, then I replaced the $3.98 part and all was right with the world. If I were Boeing; I'm thinking voltage regulator, if I'm right, no charge for consultation.
What "electrolyte" is flammable?
Where were the batteries manufactured?
Japan
This is what happens when you don't turn off your electrical devices when instructed by the flight crew. The RF interferes with batteries and overheats them. Let this be a lesson, and make sure you follow the flight crews instructions folks!
 @dylandawgie Citation, please.
Aren't batteries developed to handle the capabilities of the systems they serve and not the other way around? Why was an apparent inadequate battery utilized in the first place? This is a question that Boeing needs to ask and explore. Was it a matter of differing engineering groups piecemealing the component packages but never coming together to see what the overall energy draw and charging system would handle, or was it an lesser quality battery being installed per what the supplier provided?
If the one on the left is "distorted", I'd hate to see what one looks like after it cooks off in the e-bay.Â
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Does remind me of a unit I worked on once though. Apparently someone was eating and working because they left what looked to be a slice of pizza on top of a unit, blocking the ventilation holes. Unit heated up, ingredients from the pizza melted and dripped in through the ventilation holes, unit decided it didn't like pepperoni and failed. Looked a lot like the battery in the left.
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Mike
@MikeCoomer distorted = destroyed; rapid oxidation = fire; extremely rapid oxidation = explosion; liberated = fell off; upset = out of control; etc.
Well I see the problem, someone was using the battery on the left as a toilet and it's full of poop. No wonder it doesn't work right.
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* Really? Really? You thought this post was for real? Well then let me talk to you about some ocean front property opportunities in Arizona...
In looking at the picture above, I'm glad they gave us a side by side comparison, as I would have never guessed something wasn't quite right with the one on the left.
Wouldn't want that under my seat...
That box on the left looks like it caught fire....
@Northriver Ya think?
 @dylandawgie  @Northriver I can't believe it
Just one failed electronic component within the battery housing or within the charging circuitry components or software can bring the entire system to a meltdown, which has been demonstrated. The failure could have been caused by FOD somewhere in the circuit too...a micro sliver of metal from assembly shorting out a circuit path for instance. In any case, the root cause will be established and corrective action applied. As complexed as the system is, I think it will be months before these planes get off the ground again and re-certified as "airworthty". Failure analysis is a slow and tedious process.
@TreeTopFlyer "months"? I will be surprised if it takes even one month before they [get off the ground again and (are) re-certified as "airworthty"].
I'm astonished at the this battery system design. A basic high reliability design would never place sensitive electronics in the same enclosure with battery components. The slightest hint of corrosive gases or liquids will quickly affect the performance of the monitoring electronics. When the monitoring signals are affected, charging decisions become faulty which leads to thermal runaway with the pictured result.
Looks to me like Thales (battery/charger controller) contractor will be working overtime to 'redesign' the system. I'll bet the batteries are fine, it's the battery charger/controller/software that is the issue. Someone in the design loop there is about to lose their job possibly.
Lithium Ferro Phosphate battery is looking pretty good about now. I wonder how close that technology is for commercial airplane applications today.
Before a root cause is established:
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The political response:
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"Japan transport ministry investigator Hideyo Kosugi said the state of the battery indicated "voltage exceeding the design limit was applied"
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The appropriate response:
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GS Yuasa Corp., the maker of the lithium-ion batteries used in the 787s, said Thursday it was helping with the investigation but that the cause of the problem was unclear. It said the problem could be the battery,
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Haven't heard a peep from Thales, the prime contractor for the battery/battery charger.
Eh... they'll get it taken care of and they'll be back in the air soon and eventually most people will forget about this.
I still say they are overclocking the planes!
 @DarkParty Well, they do fly faster that way...
"The 787 relies more than any other modern airliner on electrical signals to help power nearly everything the plane does. It's also the first Boeing plane to use rechargeable lithium-ion batteries for its main electrical system. Such batteries are prone to overheating and have additional safeguards installed that are meant to control the problem and prevent fires."
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This seems like a major design flaw. The only way to have found out that this would be a problem would be a real-life testing. Hopefully, it's simply a redesign of a battery that needs to happen instead of a complete overall of the electrical system.
 @kockatoo The jets go through many, many hours of in flight testing before they are cleared by the FAA.  I do have to wonder if this came up during testing although if it had, I suspect the media would have been all over it.
 @stamperzann  @kockatoo I think the reason it never came up in test flights is because there weren't scores of passengers using phones, tablets, lapttops, etc. to overload the electrical system. That would be the difference that comes to my mind.
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 @NRasmussen  @stamperzann  @kockatoo Any certification of a system like this would require testing under not only a "real world" load, but also under a "worst case scenario" type load that would probably be well in excess of what would normally be expected in real-world usage. I'm thinking that some sort of manufacturing defect seems like the most likely scenario here.
@kockatoo maybe a redesign of the battery charging units is in order...
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