Friday, April 22, 2016

Federal Aviation Administration Mandates Engine-Icing Fixes That Could Affect Up to 150 Boeing 787 Jets: Regulators find engines are susceptible to sudden in-flight shutdowns due to internal ice accumulation



The Wall Street Journal
By ANDY PASZTOR
Updated April 22, 2016 1:00 p.m. ET


General Electric Co. engines powering as many as 150 Boeing Co. 787 jets world-wide are susceptible to sudden in-flight shutdowns due to internal ice accumulation, prompting U.S. regulators to order swift fixes to eliminate the danger.

A Federal Aviation Administration safety directive released this week indicates that certain upgraded models of General Electric’s most advanced engine pose an unacceptable safety risk because internal ice buildup—detected in one recent incident at an unexpectedly low altitude—could result in both engines of a 787 shutting down simultaneously. According to the agency, the possibility that engines couldn’t be restarted “is an urgent safety issue.”

There haven’t been any accidents stemming from the problem, but red flags were raised when one engine on a Boeing 787 shut down on its own and couldn’t be restarted while flying at roughly 20,000 feet. The other engine on the plane, flown by an unidentified airline, was an older design and continued to operate, according to the FAA.

The problem cropped up after many years of intense efforts by General Electric and other engine makers to prevent different types of shutdowns stemming from internal icing while cruising at much higher altitudes. General Electric previously revised the design of some of its engines to cope with those safety challenges.

Boeing and General Electric have been working on the latest issue for months, and the engine maker has issued voluntary service bulletins spelling out maintenance efforts and fixes that it estimates already have alleviated low-altitude icing hazards on some three dozen Boeing 787s.

But the FAA’s move requires special notices to go out to pilots within a week, alerting them about revised operating procedures to cope with potential low-altitude icing problems. Within five months, carriers must fix or replace at least one of the suspect engines on all affected 787 Dreamliners, according to the agency document released Thursday.

The FAA determined that mandating a faster compliance deadline could unduly disrupt operations of more than two dozen airlines, and potentially even cause airplanes to be grounded. A General Electric spokesman said the company was working with customers to avoid schedule disruptions. The fixes are expected to be done during normally scheduled maintenance, without having to remove engines. But the FAA has left open the door to possible further fixes.

In an email on Friday, a Boeing spokesman said the Chicago plane maker and General Electric “jointly investigated this issue and worked with the FAA on a plan to fully resolve it.” The engine maker initially recommended corrective action to operators on April 1, according to Boeing’s statement, and work mandated by the subsequent FAA directive “is already well under way.”

The directive, slated to become effective in two weeks without pubic comment, covers 43 planes operated by U.S. carriers. But it is eventually expected to be followed by regulators around the globe.

Highlighting the extent of potential hazards, the FAA ordered cockpit crews to brief specific ice-removal procedures before the first flight of the day for all affected 787 Dreamliners. And when flying through certain ice-prone conditions above 12,500 feet, the directive requires pilots to briefly rev up each of the engines every few minutes to avoid excessive ice accumulation.

In March, following the single engine shutdown event, the FAA issued a similar directive but that affected only a handful of planes.

The General Electric spokesman emphasized that this week’s directive isn’t related to earlier engine-icing issues affecting Boeing 787s as well as the largest Boeing 747 models powered by the same family of engines. In late 2013, the FAA issued a directive requiring pilots flying such jets to skirt certain types of high-altitude storms by 50 nautical miles to avoid potentially dangerous ice crystals that could reduce thrust, cause internal damage or momentarily shut down engines.

Around the same time, Japan Airlines Co. opted to temporarily remove GE-powered 787 aircraft from certain routes that are prone to formation of high-altitude ice crystals.

General Electric eventually developed and distributed a software fix that resolved those safety issues.

Still earlier, a separate spate of hazards posed by internal accumulation of ice crystals, typically found in relatively high-altitude storms, dogged General Electric and other engine makers from the mid-1990s through the end of 2011. During that period, federal and industry experts investigated incidents involving more than 100 big jets around the world, including at least 14 instances of dual-engine shutdowns, or “flameouts.”

Starting in 2007, the industry successfully rolled out various modifications to counter that generation of hazards. The latest engine safety challenges, however, surprised some of the same experts because they are prone to occur at much lower altitudes, and stem from what is believed to be a different sequence of events inside engines.

Corrections & Amplifications: 
The FAA determined that mandating a faster compliance deadline could unduly disrupt operations of more than two dozen airlines. An earlier version of this article incorrectly stated that 150 airlines could have their operations disrupted.

Original article can be found here:  http://www.wsj.com

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