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#1
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A Bush C150? With Leading Edge Slats?
Hello, I have a long term goal of making a small bush plane: 450lbs
useful load, 35mph clean stall, 600 ft clear 50ft. I know there are quite a few designs out there, PA-11 Cub, Bushcaddy, Zenith CH701 to name a few that I'm kind of familiar. But here, I'm looking into the possiblity of working it out on a c150. First of all, I want to say that this C150 will have a much lower gross when used for bush flying, I know it'll be 1400# with no mods but I like to see if I could push it down to 1300#. And now I want to tackle on one aspect this time, how to improve the wings to significantly reduce the stall speed. First a question, anyone knows how far away the C150 wings is from an ideal high lift design, i.e., if you would design it again (keep the area and weigh the same and also conventional shape etc) how much can you lower the stall speed? I'm guessing for a certain design the stall speed is proportional to the square root of the wingloading. The stock C150 is 10lb/ft^2 and stalls at 48mph, while, for example, it is 8.9 and 30mph for the Bushcaddy R120. So if I trust the number, the wings for the Bushcaddy must be way more more efficient than that of the C150. What's the deal here? Now the CH701 is interesting that it has a leading edge slats. I'm wondering how much improvement you can make if you put one set on the C150 wings? As far as I know, there is noboby working on that. (I'm aware of the Dakota slotted wing for the Cubs.) But it does not look like too difficult. Any slats expert here? Oh, let's not worry about the FAA part for now. Thanks, Jizhong |
#2
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On Sat, 22 May 2004 19:38:56 -0700, jizhonghe wrote:
I'm guessing for a certain design the stall speed is proportional to the square root of the wingloading. The stock C150 is 10lb/ft^2 and stalls at 48mph, while, for example, it is 8.9 and 30mph for the Bushcaddy R120. So if I trust the number, the wings for the Bushcaddy must be way more more efficient than that of the C150. What's the deal here? The airspeed of interest for this calculation is equivalent airspeed, although that is almost exactly the same as calibrated airspeed at low speeds and altitudes. But the BushCaddy stall speeds are almost certainly indicated airspeeds, as kit aircraft companies rarely have the resources to determine the airspeed position error. Indicated stall speeds are almost always lower than calibrated stall speeds, so they like to quote the lower number. Bottomline - the BushCaddy might very well have an indicated stall speed near 30 mph (there web site claims 32 mph, but it isn't clear whether this is power off or power on), but the calibrated stall speed would almost certainly be higher than that. For example, the C182Q POH that I am looking at shows a full flap, power off stall speeds of 38 kt IAS which equals 50 kt CAS. With flaps up, the error is even larger - 41 kt IAS = 56 kt CAS. Don't pay too much attention to quoted stall speeds unless you have proof that they are calibrated airspeeds. -- Kevin Horton RV-8 (finishing kit) Ottawa, Canada http://go.phpwebhosting.com/~khorton/rv8/ e-mail: khorton02(_at_)rogers(_dot_)com |
#3
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Great. Thanks for the clarificaiton. I always thought they just give
you a low number. Now I know at least they are honest albeit misleading. So I looked up the C152 POH and the CAS stall clean is actually 47kts (54mph). I should re-adjust my goal. I think a CAS of 40mph should be quite respectable for a little bush plane. And the square of (54/40)^2=1.83 with the light weight should be able to reduce the T/O run by half. Anyone know what's the calibrated clean stall for a PA-11 Cub? Jizhong On Sun, 23 May 2004 02:01:56 GMT, Kevin Horton wrote: On Sat, 22 May 2004 19:38:56 -0700, jizhonghe wrote: I'm guessing for a certain design the stall speed is proportional to the square root of the wingloading. The stock C150 is 10lb/ft^2 and stalls at 48mph, while, for example, it is 8.9 and 30mph for the Bushcaddy R120. So if I trust the number, the wings for the Bushcaddy must be way more more efficient than that of the C150. What's the deal here? The airspeed of interest for this calculation is equivalent airspeed, although that is almost exactly the same as calibrated airspeed at low speeds and altitudes. But the BushCaddy stall speeds are almost certainly indicated airspeeds, as kit aircraft companies rarely have the resources to determine the airspeed position error. Indicated stall speeds are almost always lower than calibrated stall speeds, so they like to quote the lower number. Bottomline - the BushCaddy might very well have an indicated stall speed near 30 mph (there web site claims 32 mph, but it isn't clear whether this is power off or power on), but the calibrated stall speed would almost certainly be higher than that. For example, the C182Q POH that I am looking at shows a full flap, power off stall speeds of 38 kt IAS which equals 50 kt CAS. With flaps up, the error is even larger - 41 kt IAS = 56 kt CAS. Don't pay too much attention to quoted stall speeds unless you have proof that they are calibrated airspeeds. |
#4
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Go and get a "Texas Taildragger" C 150 conversion. Maybe even an aerobatic
one..... You don't really want a C150 nosewheel to hit a rabbit hole..... Hope this helps, Peter |
#5
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Oh yes that's for sure (and big fat tires). Like I said, for now, I
just want to focus on the wing. Do you know if I'm going to save some weight with the conversion? Jizhong On Sun, 23 May 2004 13:45:19 +1000, "Bushy" wrote: Go and get a "Texas Taildragger" C 150 conversion. Maybe even an aerobatic one..... You don't really want a C150 nosewheel to hit a rabbit hole..... Hope this helps, Peter |
#6
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#7
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"Richard Lamb" wrote in message ... wrote: Oh yes that's for sure (and big fat tires). Like I said, for now, I just want to focus on the wing. Do you know if I'm going to save some weight with the conversion? Jizhong A better starting question might be "do you know what you are doing"? I didn't want to ask that first, but now that you did.... Conventional wisdom says that adding any extra systems, such as slats, will not save any weight, but rather, add weight. You were talking about taking away some substantial weight, right? Where is that coming from? Doubtful that the airfoil would be the right one to take full advantage of slats, either. It is also likely even more weight would have to be added to the wing structure to handle the extra lift, if you got the slats to work. You dismissed the getting around the FAA, like it was of little consequence. It is not, and might be the greatest hurdle to jump. Things that make you go "hummm." -- Jim in NC --- Outgoing mail is certified Virus Free. Checked by AVG anti-virus system (http://www.grisoft.com). Version: 6.0.688 / Virus Database: 449 - Release Date: 5/18/2004 |
#9
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On Sun, 23 May 2004 15:07:11 GMT, Richard Lamb
wrote: wrote: Oh yes that's for sure (and big fat tires). Like I said, for now, I just want to focus on the wing. Do you know if I'm going to save some weight with the conversion? Jizhong A better starting question might be "do you know what you are doing"? I know what I'm asking. It's a difference between starting doing something and discussing something. |
#10
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On Sun, 23 May 2004 11:21:43 -0400, "Morgans"
wrote: "Richard Lamb" wrote in message ... wrote: Oh yes that's for sure (and big fat tires). Like I said, for now, I just want to focus on the wing. Do you know if I'm going to save some weight with the conversion? Jizhong A better starting question might be "do you know what you are doing"? I didn't want to ask that first, but now that you did.... Conventional wisdom says that adding any extra systems, such as slats, will not save any weight, but rather, add weight. You were talking about taking away some substantial weight, right? Where is that coming from? I was asking what the tailwheel conversion would do to the weight. This has been done a lot and I think someone here might know. Doubtful that the airfoil would be the right one to take full advantage of slats, either. It is also likely even more weight would have to be added to the wing structure to handle the extra lift, if you got the slats to work. You dismissed the getting around the FAA, like it was of little consequence. It is not, and might be the greatest hurdle to jump. Things that make you go "hummm." |
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