Malaysia Missing Flight
It’s now thirteen weeks since Malaysia Flight 370—a Boeing model 777 aircraft disappeared. It’s not where the searchers heard the pings in the Indian Ocean: about one-thousand miles off the coast of western Australia. Searchers are at a loss. Flight 370 seems to have vanished into the ether, or elsewhere.
Today, I received an email written by Colonel Bryant Beebe, USAF (ret.). Now, he flies a Boeing 777 for American Airlines. I’ve added a few explanations of his abbreviations in red parentheses. After reading Colonel’s Beebe’s email, what are to conclude?
Here’s the Colonel’s email.
“Just a quick update with what I know about the Malaysia 777 disappearance. The Boeing 777 is the airplane that I fly. It is a great, safe airplane to fly. It has, for the most part, triple redundancy in most of its systems, so if one complete system breaks (not just parts of a system), there are usually 2 more to carry the load. It’s also designed to be easy to employ so 3rd world pilots can successfully fly it. Sometimes, even that doesn’t work…as the Asiana guys in San Fran showed us. A perfectly good airplane on a beautiful, sunny day…and they were able to crash it. It took some doing, but they were able to defeat a bunch of safety systems and get it to where the airplane would not help them and the pilots were too stupid/scared/unskilled/tired to save themselves
There’s many ways to fly the Boeing 777 aircraft and there are safety layers and redundancies built into the airplane. It is tough to screw up and the airplane will alert you in many ways (noises, alarms, bells and whistles, plus feed back thru the control yoke and rudder pedals and throttles. In some cases the airplane’s throttles ‘come alive’ if you are going to slow for a sustained period of time) All designed to help. But, it’s also non-intrusive. If you fly the airplane in the parameters it was designed for, you will never know these other things exist. The computers actually ‘help’ you and the designers made it for the way pilots think and react. Very Nice.
Now to Malaysia. There are so many communication systems on the airplane. 3 VHF (Very High Frequency) radios. 2 SatCom (Satellite Communication) systems. 2 HF (High Frequency) radio systems. Plus Transpoders and active, ‘real time’ monitoring through CPDLC (Controller to Pilot Data Link Clearance) and ADS B (Air Data Service) through the SatCom systems and ACARS (Aircraft Communications Addressing and Reporting System) thru the VHF, HF and SatCom systems. The air traffic controllers can tell where we are, speed, altitude, etc as well as what our computers and flight guidance system has set into our control panels. Big Brother for sure! However, most of these things can be turned off.
But, there are a few systems that can’t be turned off and one, as reported by the WSJ, is the engine monitoring systems (not sure what the acronym for that is, but I’m sure there is one….it’s aviation…there has to be an acronym!). The Malaysia airplane, like our 777-200’s, use Rolls Royce Trent Engines (as a piece of trivia….Rolls Royce names their motors after rivers….because they always keep on running!) Rolls Royce leases these motors to us and they monitor them all the time they are running. In fact, a few years back, one of our 777’s developed a slow oil leak due and partial equipment failure. It wasn’t bad enough to set off the airplane’s alerting system, but RR (Rolls Royce) was looking at it on their computers. They are in England, they contact our dispatch in Texas, Dispatch sends a message to the crew via SatCom (Satellite Communication in the North Pacific, telling them that RR wants them to closely monitor oil pressure and temp on the left engine. Also, during the descent, don’t retard the throttle to idle…keep it at or above a certain rpm. Additionally, they wanted the crew to turn on the engine ‘anti ice’ system as the heats some of the engine components.
The crew did all of that and landed uneventfully, but after landing and during the taxi in, the left engine shut itself down using it’s redundant, computerized operating system that has a logic tree that will not allow it to be shut down if the airplane is in the air…only on the ground. Pretty good tech. Anyway, the point was, that RR monitors those engines 100% of the time they are operating. The WSJ reported that RR indicated the engines on the Malaysia 777 were running normally for 4 to 5 hours after the reported disappearance. Malaysia denies this. We shall see.”
Here are my thoughts.
- It’s extremely difficult for an aviator to make a serious error in piloting the Boeing model 777.
- To shut down all the communications system requires an aviator to have in-depth knowledge of the basic design of this aircraft.
- One or both of the aviators of this aircraft colluded to divert this aircraft away from it’s intended course—to Beijing.
- One or both of the aviators pirated Malaysia Flight 370.
- This aircraft is elsewhere. (I have an educated guess, but will refrain from disclosing it for now.)