Exactly, and much higher fuel consumption per passenger too, at least for smaller aircraft.
If cost were no object, we could do almost anything, anywhere. Even a tiny sliver of the research money that goes into rich-world diseases, for example, could prevent millions of deaths from poor-world diseases, if most research institutions weren't forced to chase the money so that they can pay their lab techs and make rent.
. Ironically it's the very thing that keeps most of us flying(ability to buy very old planes and fly them for generations) keeps all of us from getting any kind of upgrades to engine designs. Catch-22
I'd hazard to guess that someone runs a couple engines on a dyno and then pulls the number out of their butt.
I'd hazard to guess that someone runs a couple engines on a dyno and then pulls the number out of their butt.
The germans did a bunch of stuff with diesels in their planes, no? I seem to recall Junkers had a couple diesel engined planes
Yes.
The Germans in the Second World War were wizards with diesel -- their diesel-powered E-Boats (Snellboots) were all metal and heavier, but could still outspeed the British light wooden MTBs and MGBs with petrol engines, and outrange the American petrol-powered PT boats. Despite all that, they didn't do much with diesel in their aircraft, whatever the reason (it wasn't a lack of capability). Maybe they never managed to deal with the vibration. (?)
Diesels are hard on metal propellers.
ha! foul / fowl.. speech to text win
It was back of the napkin, most people who claim the "but airplane engines run at full power all the time" don't really think about the whole picture..
I know
I shouldn't have taken the bait!
Plastic magneto gears fail because they don't get the specified inspections. The gears are plastic beacuse they carry high voltage, and a metal gear would short everything. They used to be made of micarta, a fabric-reinforced urea-formaldehyde, a really ancient plastic that had plenty of its own problems.
We could easily get a small engine to put out 200 HP, but it requires high engine RPM that simply cannot be used to spin any useful propeller. So now we need gearing of some sort to reduce the RPM and raise the torque for the prop, and that adds weight, cost, complexity and technical issues. Direct drive is far more reliable. Homebuilders have been fooling with reductions for many years (60 or more) and it's a difficult problem. There have been numerous failures, some fatal.
Again - rotax is a modern engine. Has a 1500 hour TBO. HP is 100. Cost $25000. Ancient Continental 200 hp engine is $45,000, has a 2000 hour TBO? Rotax is not giving you multiples of extended time.
Referring to the 912.
Sort of like Alan Ruud and the DeltaHawk engine? Will that thing ever be certified? God bless someone with money like him to buy it up and try to keep advancing the industry...but man, it'd be nice to see something tangible. They've been expecting certification for what feels like more than 15 years and every year it "by the end of the year". People have said that since Ruud's ownership the engine has changed significantly and it may actually get certified. Time will tell.
Hope you’re right. Would be amazing to get 4000 or 6000 TBO!
Peter creating a poorly cooled boosted monster should not be an analog to what modern pistons are capable of.. to the contrary, it should demonstrate what kind of torment a modern automotive engine can tolerate
Hope so. But even rotax isn’t exactly new. 912 is from the 80s. 915is is an evolution of 912. I’m not sure, but I suspect it is a derivative of their other small engines. All this means that the family never intended to compete with 360+ legacy engines. yet it is now coming close to 360 performance and on par with 320. At lighter weight, lower cost, far easier operation, better high altitude performance and significant fuel cost savings. If they chose to design something competing with 200hp 360, I bet it would be a significant improvement over lyco/conti
