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#1
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Marske Flying Wings do not stall
I did a modest cross country in the Pioneer IId yesterday but what is most
interesting was that I am exploring all of the flight envelope and yesterday was stalls. When I pulled the stick all the way back slowly I suddenly found that my airspeed had fallen to zero where I held it for quite some time and my sink rate was 100 down. And I have it on video! I did this many times although there was tendency to turn to the left since we have a left turn in the glider. The airspeed system was calibrated recently, both the airspeed instrument and the installation, however I did not do the calibration for zero airspeed... so it could be off slightly. I have posted a picture on the web site showing the airspeed near zero and will post a video shortly. http://www.continuo.com/marske/pione...%20pioneer.htm This is rather a long address so if this does not work go to our web site and find "Marske Pioneer IId" -mat I have been recording all of this on video to give some credibillity to my claims. -- Marske Flying Wings http://www.continuo.com/marske |
#2
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No this is where you are quite wrong! There is pleanty of up elevator on the
trailing edge of the main wing.... the air going over the top is separating due to the high angle of attack and this makes the elevator ineffective, so the nose lowers slightly and the glider picks up airspeed and it resumes normal flight. "spektr" wrote in message ... Bravo. So you are flying a glider with insufficient up elevator to cause a stall equipped with an airspeed indicator that doesn't register well on the low end of the spectrum. All wings stall when their critical angle of attack is exceeded. In its most benign form a stall will be recognnized as a slight vertical oscillation without a discernable break. If you had more elevator authority, it would get into this flight mode. Its inability to do so indicates a lack of elevator authority at slow speed. Your airspeed indicator reading zero means you are flying at a speed less than the minimum required to move the needle. You are probablu using a run of the mill ASI for airplanes. Nothing wrong with that, it just means you are slower than the gauge can indicate. You might consider an ASI for helicopters, they are much more sensitive at the lower end of the spectrum and will probably give you a better indication of whats going on. If you want to make your glider even more efficient, replace the ASI with a Mach Meter. Then you can get 30 something to one l/d with an indicated airspeed of ZERO. OBTW, Its impossible to fly with an airspeed of zero, lift requires air movement over the wing on any conventional fixed wing airplane. You by definition still have airspeed if you are flying. Scott Scott did you miss the part in my posting where I said this airspeed was calibrated by itself and then while in the glider at differing airspeeds from 40 mph to 80 mph. using a GPS method posted on our website. It is also helicopter airspeed. Now I do think that at about 20 mph the airpspeed goes to zero... but again I did not test it in the aircraft for this slow a flight. What did confuse me was the low sink rate... but I could have been in rising air... and next time I will check my GPS groundspeed. But I have this on video and will post it for all to see. I was actually quite surprised myself and do not really know what to think of it. By the way this aircraft has a 3.6 lbs per sq ft wing loading and I easily fly at 90 to 100 mph. and I have videos of that too. Again that part of the spectrum has not been calibrated but it is interesting to see how well it flies at that speed. I will push for 130 mph in the sping when I have redone the canopy and fuselage. -mat |
#3
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Earlier, Mat Redsell wrote:
the air going over the top is separating due to the high angle of attack... Sounds like a stalled condition to me. Bob K. |
#4
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So its under elevatored then.
Al "Marske Flying Wings" wrote in message ... No this is where you are quite wrong! There is pleanty of up elevator on the trailing edge of the main wing.... the air going over the top is separating due to the high angle of attack and this makes the elevator ineffective, so the nose lowers slightly and the glider picks up airspeed and it resumes normal flight. "spektr" wrote in message ... Bravo. So you are flying a glider with insufficient up elevator to cause a stall equipped with an airspeed indicator that doesn't register well on the low end of the spectrum. All wings stall when their critical angle of attack is exceeded. In its most benign form a stall will be recognnized as a slight vertical oscillation without a discernable break. If you had more elevator authority, it would get into this flight mode. Its inability to do so indicates a lack of elevator authority at slow speed. Your airspeed indicator reading zero means you are flying at a speed less than the minimum required to move the needle. You are probablu using a run of the mill ASI for airplanes. Nothing wrong with that, it just means you are slower than the gauge can indicate. You might consider an ASI for helicopters, they are much more sensitive at the lower end of the spectrum and will probably give you a better indication of whats going on. If you want to make your glider even more efficient, replace the ASI with a Mach Meter. Then you can get 30 something to one l/d with an indicated airspeed of ZERO. OBTW, Its impossible to fly with an airspeed of zero, lift requires air movement over the wing on any conventional fixed wing airplane. You by definition still have airspeed if you are flying. Scott Scott did you miss the part in my posting where I said this airspeed was calibrated by itself and then while in the glider at differing airspeeds from 40 mph to 80 mph. using a GPS method posted on our website. It is also helicopter airspeed. Now I do think that at about 20 mph the airpspeed goes to zero... but again I did not test it in the aircraft for this slow a flight. What did confuse me was the low sink rate... but I could have been in rising air... and next time I will check my GPS groundspeed. But I have this on video and will post it for all to see. I was actually quite surprised myself and do not really know what to think of it. By the way this aircraft has a 3.6 lbs per sq ft wing loading and I easily fly at 90 to 100 mph. and I have videos of that too. Again that part of the spectrum has not been calibrated but it is interesting to see how well it flies at that speed. I will push for 130 mph in the sping when I have redone the canopy and fuselage. -mat |
#5
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Marske Flying Wings wrote:
I did a modest cross country in the Pioneer IId yesterday but what is most interesting was that I am exploring all of the flight envelope and yesterday was stalls. When I pulled the stick all the way back slowly I suddenly found that my airspeed had fallen to zero where I held it for quite some time and my sink rate was 100 down. And I have it on video! I did this many times although there was tendency to turn to the left since we have a left turn in the glider. The airspeed system was calibrated recently, both the airspeed instrument and the installation, however I did not do the calibration for zero airspeed... so it could be off slightly. I have posted a picture on the web site showing the airspeed near zero and will post a video shortly. http://www.continuo.com/marske/pione...%20pioneer.htm This is rather a long address so if this does not work go to our web site and find "Marske Pioneer IId" -mat I have been recording all of this on video to give some credibillity to my claims. -- Marske Flying Wings http://www.continuo.com/marske A zero speed indication is not surprising in these conditions, and doesn't mean the speed (or even its horizontal component) is zero, but rather that the pitot tube used by the ASI for total pressure is no more at the stagnation point in these conditions and so you don't get the true total pressure. I guess that the pitot is in the nose and when near stall angle the stagnation point is well below, with a nice round nose like on the Pioneer IId, the pitot may even be at a point where the airflow is accelerated at a speed higher than the freestream speed, so the pressure is lower than the static pressure and the ASI should show a negative speed if it could. Isn't that the reason for what modern gliders with a nose pitot have a sharp nose (ASW20, Pegases) and many other ones have a pitot in the fin? |
#6
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"BD5ER" wrote in message ... Doesn't this kind of depend on your definition of flight? The Kaspar wing can enter and recover from a controlled vertical decent. In this case the forward airspeed is zero but you are still in the air and in control.......and if that air is rising fast enough.... There is no such thing as "forward airspeed". Just Airspeed. The speed of the air over the wing is completely independent of ground reference points. If you want to use a ground reference, use GROUND SPEED. Airspeed and Groundspeed are easily confused when you try to describe things so don't take it so hard. To use your illustration, push the nose down 100 degrees from vertical, you are now slightly inverted and traveling backwards over the ground. Do you now have NEGATIVE AIRSPEED? Don't think so............. Scott |
#7
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"Marske Flying Wings" wrote in message ... I guess it depends on your definition of a stall. Most stalls end with a marked nose down attitude but not so with the Marske Pioneer, just a little forward stick and you have it flying again without any nose down attitude while it gets up to flying speed.. -mat Mat. What you are describing is the high sink rate/high drag attitude before a stall break occurs. You are saying that the recovery requires forward stick to exit the high sink mode of flight. Fair enough. What that indicates is a lack of elevator authority. You are unable to put enough pitch command into the airframe to stall it. Your premise that most stalls end with a marked nose down attitude is probably acceptable for straight line flight, not circling or in attitudes with more than 1g on the airplane. Roll 45 degrees pull hard, bleed energy and you can generate a snap roll spin entry. Scott. |
#8
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"Bob Kuykendall" wrote in message ... Earlier, Mat Redsell wrote: the air going over the top is separating due to the high angle of attack... Sounds like a stalled condition to me. Bob K. Again, not quite. Mat is describing an incipient stall, not a full stall. The PII is under-elevatored with respect to stalling the aircraft but not with respect to achieving CLmax. The Marske PII elevator authority limitation is directly related to the incipient stalling of the wing. At airspeeds above stall, the elevator authority is as large or larger than conventional gliders. But as the incipient stall begins, the elevator authority is sharply limited. (Another way to say this is that there is a large non-linearity in elevator authority that sharply reduces elevator effectiveness as the incipient stall begins.) This is not a linear function of AOA or airspeed. As far as I know, this behavior is unique to plank-type flying wings - particularly those with the elevators on the inboard trailing edge of the wing such as the Marske planform. On the other hand, with a conventional tailed aircraft, there is no link between the elevator authority and the stalling behavior of the wing. In the case of a conventional glider with a horizontal tail located some distance aft of the wing, the wing may be fully stalled or fully flying, or anywhere in between, with no effect on the elevator authority. Depending on the elevator area, up angle limit, airspeed and CG location, the elevator may be able to bring the wing to stall or beyond without the wing stall imposing any limits on the up elevator authority at all. The designer may choose to impose limits on up elevator authority to achieve benign stalling behavior - this is not the case with the Marske planform. As to Mat's report of near zero airspeeds, there are certainly large ASI errors involved and the true airspeed is almost certainly not zero. To get a true reading, Mat would need a nose boom with a gimballing pitot/static probe and a sensitive calibrated ASI. However, there are many reports of special conditions where a spanwise vortex forms above the wing at high AOA preserving a large amount of lift. One prototype of the Velocity canard pusher encountered this phenomenon with the forward wing which resulted in the aircraft settling in a flat attitude at low sink rates. The aircraft was not recoverable from this condition and the test pilot elected to ride it into Tampa Bay at 200FPM sink and lived to tell the tale. The Kasper Wing apparently can do this as well but is recoverable. It would be interesting to see a video of yarn tufts on the upper wing surface to help visualize the flow with near-zero indicated airspeed. Bill Daniels |
#9
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"Marske Flying Wings" wrote in message
When I pulled the stick all the way back slowly I suddenly found that my airspeed had fallen to zero where I held it for quite some time and my sink rate was 100 down. Must be that antigravity effect that flying wings are famous for...or maybe you had an inadvertent deployment of a recovery parachute. Seriously, Matt, what you probably saw is the same thing most gliders do when put into a severe slip - the pitot gets masked or moves into turbulent airflow and no longer indicates your actual airspeed. Ditto with the rate of sink, perhaps (static port location?). Where is your pitot located? Do you have a GPS logger trace of this event? That should show what your actual groundspeed (and sink rate, with the right software) was. Repeat the exercise upwind and downwind, then tell us what really happened. Meanwhile, enjoy your wing! Kirk Happy with the nice, long, beautiful tail of my LS6 |
#10
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We have a pitot tube.. 1/4 " slightly protruding out from the front of the
nose inside a 2 " vent tube in the normal nose location. As I said before, I will check my GPS ground speed on the next attempt. I fly all kinds of gliders so I do know a slip well... but this is no slip. Watch for that video! I started at 40 mph and slowly went from 35 to 30 to 25 then 20 and then zero. The video will show all of this on the instrument panel.....and I did this more than once. I doubt that I actually got to zero..... but the forward speed was definitely down about 20 or lower. I have boom mounted turbine and will attach that on one of next flights. -mat "Kirk Stant" wrote in message om... "Marske Flying Wings" wrote in message When I pulled the stick all the way back slowly I suddenly found that my airspeed had fallen to zero where I held it for quite some time and my sink rate was 100 down. Must be that antigravity effect that flying wings are famous for...or maybe you had an inadvertent deployment of a recovery parachute. Seriously, Matt, what you probably saw is the same thing most gliders do when put into a severe slip - the pitot gets masked or moves into turbulent airflow and no longer indicates your actual airspeed. Ditto with the rate of sink, perhaps (static port location?). Where is your pitot located? Do you have a GPS logger trace of this event? That should show what your actual groundspeed (and sink rate, with the right software) was. Repeat the exercise upwind and downwind, then tell us what really happened. Meanwhile, enjoy your wing! Kirk Happy with the nice, long, beautiful tail of my LS6 |
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