Lycoming iE2 FADEC Engine.....whats happening.
Lycoming iE2 FADEC Engine.....whats happening.
3 years ago, with a lot of fanfare, Lycoming anounced their revolutionary fadec controls for piston engines, ther was for a little while stuff published on its development progress..........then, nothing for 2 years.
So whats happened, has it been a failure, not delivering what was promised?
So whats happened, has it been a failure, not delivering what was promised?
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Run out of money ?
I would guess that they have run out of cash, the Technoligy is quite mature in the auto industry and the uncertified aircraft sector gets much better fuel economy using bolt on bits with Lycoming engines.
So he conclusion is that they have run out of cash or the project or they are about to buy up some other project that is better than the one they had running.
So he conclusion is that they have run out of cash or the project or they are about to buy up some other project that is better than the one they had running.
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I would like to the data on that, my IO540 BSFC is around 0.39 and I am yet to see any of the experimental bolt on bits do much better if at all. maybe you are comparing their efficient operations with classic old engine manuals running ROP. In which case I can see your perception being realistic.
Truth is a fixed speed engine like a LYC or TCM is pretty darned efficient if operated properly, not how your flying school taught.
FADEC is not really the answer. And when you look at the DA40's you wonder how they were certified when you get a double flame out That is just not meant to happen!
YMMV
Truth is a fixed speed engine like a LYC or TCM is pretty darned efficient if operated properly, not how your flying school taught.
FADEC is not really the answer. And when you look at the DA40's you wonder how they were certified when you get a double flame out That is just not meant to happen!
YMMV
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Originally Posted by Jabawocky
FADEC is not really the answer. And when you look at the DA40's you wonder how they were certified when you get a double flame out that is just not meant to happen!
And when you look at the DA40's you wonder how they were certified when you get a double flame out
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Jaba means the DA42 (twin engine). As soay says it was all about having a flat battery.
It's always going to happen Jabba if pilots fail to operate the aircraft in accordance with the flight manual. Procedures are written for very good reasons.
you wonder how they were certified when you get a double flame out That is just not meant to happen!
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Originally Posted by Jabawocky
FADEC is not really the answer. And when you look at the DA40's you wonder how they were certified when you get a double flame out That is just not meant to happen!
FADEC could also be used for making the engine starting more easy, as the ECU does in today's cars, which have crankshaft angle sensor, which senses the position of crankshaft, allowing the fuel to be injected in the correct cylinder in order to make the start process shorter (which is very good for both battery and starter). Modern cars with start & stop even have an ECU logic for stopping the engine at the optimum crankshaft angle, which makes the engine start even faster.
The DA42 accident which you mention is a result of failure to comply with the original (Diamond did modify it to puncuate the possible problem even more) AFM which specifically said that if you start the first engine with a GPU, than you have to be able to start the second one with battery (not GEN/ALT of the operating engine or GPU!) - failure to do that, combined with a unforseen combination of parameters leading the ECU to prematurely feather the props at voltage drop - and bad things happened. But the truth is, every product on the market of any kind has problems - I'm sure even IO540 has had some ADs in the past - they just weren't directed at ECU, because it doesn't have it.
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It's going to be very difficult to improve on the SFC of a "bare" engine running at peak EGT or LOP, with electronic controls, because you are already running stochiometric.
Also there are nontrivial tradeoffs in flying. Let's say you do a "Cirrus" and remove the prop rpm lever. You then for ever suffer worse MPG due to the excessive rpm (friction losses, etc). To reach the operating ceiling you have to go to max rpm anyway (best power). So FADEC would need to make a decision on these things, taking into account altitude for a start, but not just in a simple way to compute the mixture.
Also there are nontrivial tradeoffs in flying. Let's say you do a "Cirrus" and remove the prop rpm lever. You then for ever suffer worse MPG due to the excessive rpm (friction losses, etc). To reach the operating ceiling you have to go to max rpm anyway (best power). So FADEC would need to make a decision on these things, taking into account altitude for a start, but not just in a simple way to compute the mixture.
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I see a modification has been approved to provide a manual propeller control on the Cirrus models. It is described as an improvement to wear and economy.
D.O.
D.O.
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A FADEC is a great idea and would be a great improvement on the current 1930's technology we use.
The big advantage is having a "Closed Loop" system, with an O2 sensor in the exhaust governing the fuel injection system to ensure the best fuel/air ratio.
A FADEC would automatically adjust the rate of the fuel injectors to ensure the optimum fuel/ air ratio for changing air pressure situations.
It will be more accurate than manually leaning the mixture and automatically adjust for things like changing altitude.
Basing the mixtue on your ear and the EGT is very crude. this technology has been in cars for 30 years.
The big advantage is having a "Closed Loop" system, with an O2 sensor in the exhaust governing the fuel injection system to ensure the best fuel/air ratio.
A FADEC would automatically adjust the rate of the fuel injectors to ensure the optimum fuel/ air ratio for changing air pressure situations.
It will be more accurate than manually leaning the mixture and automatically adjust for things like changing altitude.
Basing the mixtue on your ear and the EGT is very crude. this technology has been in cars for 30 years.
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Peter,
You need to think that through a little.
Doing all of that is not hard to do, it requires engines to be built or set up after with descent F/A ratios. Simple as that. Next thing is nothing to do with your hearing
EGT is a perfectly valid method of setting the required power for the mission.
It is all about "pilot training and standards" and unfortunately the one part not taught properly is the engine bit. In fact it is taught wrong. The text books are wrong. End of argument.
Why don't we build auto aeroplanes that you don't need to fly, sit in a drone and let a computer do it or a kid in front of a pc, you either want to fly the thing or you don't. If you don't get an Airbus
PS: if you flatten the battery and fly the lycoming or TCM it keeps running, even if you run a tank dry. So the corrected DA42 manual is so much better
You need to think that through a little.
Doing all of that is not hard to do, it requires engines to be built or set up after with descent F/A ratios. Simple as that. Next thing is nothing to do with your hearing
EGT is a perfectly valid method of setting the required power for the mission.
It is all about "pilot training and standards" and unfortunately the one part not taught properly is the engine bit. In fact it is taught wrong. The text books are wrong. End of argument.
Why don't we build auto aeroplanes that you don't need to fly, sit in a drone and let a computer do it or a kid in front of a pc, you either want to fly the thing or you don't. If you don't get an Airbus
PS: if you flatten the battery and fly the lycoming or TCM it keeps running, even if you run a tank dry. So the corrected DA42 manual is so much better
Last edited by Jabawocky; 17th Jan 2013 at 11:08.
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Originally Posted by Jabawocky
PS: if you flatten the battery and fly the lycoming or TCM it keeps running, even if you run a tank dry. So the corrected DA42 manual is so much better
Problem is, dealing with FADEC-controlled engines, one needs to adapt. Just as people had to adapt when aircraft development saw transition from tailwheel to tricycle, one has to adapt to new technology. If you can't do it, better fly aircraft without electric system (including starter) or even better - just make replica of Wright Flyer - if they managed to fly, why complicate things, right?
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There is a big difference which is that engine management is hardly rocket science and during 99% of the average flight one never touches the engine controls.
If you had to fiddle with an engine every 5 minutes and/or it needed a PhD, there would be a market for electronic controls. But one doesn't, which is why there isn't.
The Lyco/Conti engines are heat dissipation (CHT) limited at anytime over about 75% of max rated HP, and are heat dissipation limited below that if the airflow is not enough, so a FADEC controller isn't going to be able to do much beyond running them rich during those phases... which is exactly what we do.
There are also so many complete muppets working in GA companies that I would not trust them to design a FADEC which lasts 1/10 as long as my 3 control cables
If you had to fiddle with an engine every 5 minutes and/or it needed a PhD, there would be a market for electronic controls. But one doesn't, which is why there isn't.
The Lyco/Conti engines are heat dissipation (CHT) limited at anytime over about 75% of max rated HP, and are heat dissipation limited below that if the airflow is not enough, so a FADEC controller isn't going to be able to do much beyond running them rich during those phases... which is exactly what we do.
There are also so many complete muppets working in GA companies that I would not trust them to design a FADEC which lasts 1/10 as long as my 3 control cables
One of my aircraft does indeed lack an electrical system (including starter). It's a great, practical aircraft for the job it has to do, and that job includes lasting a very long time with no manufacturer support whatsoever. Sixty-seven years its been doing the job so far, with over sixty of those year having passed since the airframe manufacturer went broke. I suspect it'll still be doing that when every DA42 ever made is no longer flying.
I have another one too, its been doing a different job for 41 years, with the manufacturer being out of production for 40 of them. The electrical stuff makes it harder to maintain, but with the help of a good A&P, simple technology and very little money it's no problem. It's still getting me into and around complex airspace with its updated in 1988 panel. I plan on flying it more or less as-is for the foreseeable future. Nothing like simplicity to make that possible.
One of the great things about aircraft versus cars and consumer products is that the challenge of designing, building and operating them makes the people really think and do the rational thing. Good solutions last a long time, and bad solutions disappear.
I don't care what idiot European regulators, marketing people, and geeky non-engineer technical 'enthusiasts' think about that, either. I'll be flying my aircraft for the next few decades while they are busy talking
I have another one too, its been doing a different job for 41 years, with the manufacturer being out of production for 40 of them. The electrical stuff makes it harder to maintain, but with the help of a good A&P, simple technology and very little money it's no problem. It's still getting me into and around complex airspace with its updated in 1988 panel. I plan on flying it more or less as-is for the foreseeable future. Nothing like simplicity to make that possible.
One of the great things about aircraft versus cars and consumer products is that the challenge of designing, building and operating them makes the people really think and do the rational thing. Good solutions last a long time, and bad solutions disappear.
I don't care what idiot European regulators, marketing people, and geeky non-engineer technical 'enthusiasts' think about that, either. I'll be flying my aircraft for the next few decades while they are busy talking
Last edited by Silvaire1; 17th Jan 2013 at 15:08.
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There is an optimal Air/Fuel Ratio and the best way to measure it is an O2 sensor, feeding back into an ECU and then the fuel injection unit.
I guess they had EGT gauges in the 1950's, but not O2 sensors. That is why we use EGT now, not because it's an inherently better way to manage the engine.
I guess they had EGT gauges in the 1950's, but not O2 sensors. That is why we use EGT now, not because it's an inherently better way to manage the engine.
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Indeed; the way to do a FADEC is well established.
The huge issue is that car engines are not heat dissipation limited. They are water-cooled and have massive radiators, so you can run them stochiometric at almost all power settings if you want to.
For them, FADEC is perfect. It also helps to meet the emission regs etc etc.
Aircraft engines are made with thin metal sections are and air cooled. Only about half the heat goes into the oil; the other half has to be dumped into the airflow and that isn't terribly efficient. So the constraints are very different, and much cruder.
The huge issue is that car engines are not heat dissipation limited. They are water-cooled and have massive radiators, so you can run them stochiometric at almost all power settings if you want to.
For them, FADEC is perfect. It also helps to meet the emission regs etc etc.
Aircraft engines are made with thin metal sections are and air cooled. Only about half the heat goes into the oil; the other half has to be dumped into the airflow and that isn't terribly efficient. So the constraints are very different, and much cruder.
The huge issue is that car engines are not heat dissipation limited.
When you're carrying the vehicle and contents on wings and not by rolling friction, weight is the issue. Aircraft aren't cars.
Last edited by Silvaire1; 17th Jan 2013 at 21:19.
True, but you could not run an IO540 stochiometric at 250HP even if the CHT was 500F
I think that stuff is worked out pretty carefully for going-places aircraft, and meanwhile plunking around aircraft/engines are instead designed to give up a little cruise speed for additional cooling margin.