Now, there is no way an airplane will operate at 100% efficiency. Drag and prop slippage means we will see about 85% efficiency. So a more realistic number might be 113mph at 3200 RPM!
Prince Marketing wrote:Prince P-tip props are the only wood / composite anti-vortex droop tipped propeller in the world. This propeller is a wood, fixed pitch propeller that relies on the forward pull of the propeller to automatically provide pitch change proportional to the amount of force being applied to the propeller disk. When a propeller operates at a slower airspeed than its maximum capabilities, it has a proportional pull in relation to the velocity of forward motion. At takeoff and climbing condition the propeller has its largest forward pull, due to the scimitar shape. The tip of the propeller cones forward, as the coning angle changes the propeller will lessen pitch providing shorter takeoffs and higher rates of climb. As the propeller increases in forward speed the disk pressure is reduced, forcing the propeller to increase pitch and top speed. This change in pitch is approximately 4“ from takeoff to cruise. The droop P-TIP delays the vortices. The propeller then has smooth air to provide better thrust and a pronounced reduction in propeller noise. Additional benefit of the P-TIP design is the volume of air the propeller produces. When air flows through a standard tip propeller design the airflow at the tip will flow over the propeller tip, as soon as it passes the tip it will tuck down behind the propeller blade giving a cone of air from the propeller smaller than the propeller diameter. A 68” P-TIP will give the same volume of air as a standard tip 72” propeller. By reducing propeller diameter there is less frontal area or flat plate drag of the aircraft, higher top speeds are the result without sacrificing takeoff or climb.
GraemeSmith wrote:Though it is not clear if this means the 44" prop repitches to 48". Or if the loaded 44" prop pitches down to 40". Assuming it pitches up to 48" that would account for better speeds than OP's original calculation suggests and Mike Smith (and my) experience shows:
To someone else's comment about efficiency. The McCauley fixed pitch metal prop efficiency figure I am used to using is 0.8 - a sort of "assume the worst" figure.
builderflyer wrote:Possible cruise speed dilemma?
Anyway, without knowing density altitude, the spec is a little, hmm...can't think of the right word.
I averaged 135mph (as measured with an official stopwatch divided by the race distance) at the 2015 Big Muddy air race down low at WOT--my experience has always been I get more power and fly faster down low.
The fastest they show seems to be 141mph true at ~2500ft and 3250 rpm
markschaible wrote:Hello SonexBuilders.net!
Every few years this topic comes-up, and invariably, folks are dismayed at our published figures because they are looking at indicated airspeeds and/or GPS ground speeds. Please keep in-mind that all of our published cruise speeds are given in TAS (True Airspeed).
Best Regards,
-Mark
markschaible wrote:builderflyer wrote:Possible cruise speed dilemma?
builderflyer wrote:Mark,
Do you have the approximate gross weights at which your speed tests were run? I assume the factory aircraft were not loaded up to max gross for the tests or could have even been lightly loaded. This may partially explain why some of the others differ in their test results if their aircraft were more heavily loaded at the time of their testing.
Thanks,
Art,,,,,,,,,,,,,,,,,,,,Sonex taildragger #95,,,,,,,,,,,,,,,,,,,Jabiru 3300 #261
markschaible wrote:builderflyer wrote:Mark,
Do you have the approximate gross weights at which your speed tests were run? I assume the factory aircraft were not loaded up to max gross for the tests or could have even been lightly loaded. This may partially explain why some of the others differ in their test results if their aircraft were more heavily loaded at the time of their testing.
Thanks,
Art,,,,,,,,,,,,,,,,,,,,Sonex taildragger #95,,,,,,,,,,,,,,,,,,,Jabiru 3300 #261
We've been able to get these numbers at various loading up-to and including takeoff at max gross.
Bottom Line: if you can't indicate 130 mph with an AeroVee powered Sonex or 150 mph with a 3300 powered Sonex at or around max continuous RPM, then something is wrong: Fairings & wheel pants, rigging, engine/carb tuning, propeller, airspeed indicator calibration, etc.
I'll leave this discussion with this, Kerry's recent article at: https://www.kitplanes.com/the-one-true-airspeed/
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