| T.R | Title | User | Personal
Name | Date | Lines |
|---|
| 1548.1 | Small Diamter, small tip speeds | WMOIS::WEIER | Wings are just a place to hang Ailerons | Thu Aug 12 1993 13:15 | 16 |
|
Instead of a 2 or 3 blade large diameter prop, Ducted fans use
multi blade small diameter "props", therefore, even though they are
spinning twice as fast, the tip speeds don't get excessive. I think the
prop tip speeds of a RC model typically don't get much above the 400
-500 mph range, so there is room avialable for the ducted fans to
really spin up before going supersonic.
Another example is a full size Heli. In forward flight ie; 200 mph,
the tip speeds of the forward moving (large diameter ) rotor can approach
supersonic ( and creates a barrier to making 500 mph helis ), where as
there is usually not much danger of having the prop speeds of a piper
Cherokee ( small diameter ) flying at 200 mph approach the same range.
DW2
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| 1548.2 | Thanks, more ? | UNYEM::BLUMJ | | Thu Aug 12 1993 13:29 | 10 |
| Re: -1
Thanks Dan, that makes sense.
How does the number of blades affect propellor/fan efficiency?
Thanks,
Jim
|
| 1548.3 | I got this from Prop Article | LEDS::WATT | | Thu Aug 12 1993 14:40 | 11 |
| Multi blade props are probably less efficient in most cases. The main
reason for multiple blades is to keep the diameter down for a given
disk (wing) loading. This is necessary for prop clearance, and for
keeping tip speeds reasonable.
Control Line Speed ships use single blade props!
One problem with multiple blades is that one blade can start
running into the wake of the previous one.
Charlie
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| 1548.4 | Harvards do it noisily! | BAHTAT::EATON_N | I w'daft t'build castle in't swamp | Fri Aug 13 1993 07:22 | 13 |
|
It's interesting to consider the Harvard trainer (full size!). I
believe you call in the Texan in the States?
One of these at takeoff power generates an incredible howl, which I
have always understood to the the propeller tips going supersonic. It
doesn't seem to affect the thrust too badly, since the ship gets
airborne!
Does anyone know if the "supersonic tip" theory is correct?
Nigel
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| 1548.5 | For what its worth. | SUBURB::MCDONALDA | Shockwave Rider | Fri Aug 13 1993 08:17 | 28 |
| Trying desparately to remember what I was taught loooong ago.
The propellor tips of many aircraft do indeed exceed the speed of
sound. But once you approach or exceed the speed of sound you get all
sorts of nasty shockwaves doing all sorts of nasty things to the
airflow and aircraft structure.
The airflow behind a shockwave is peculiar. I have this hazy
recollection that it acutally flows backward i.e. if the propellor is
valiently pushing air from left-to-right, then the airflow behind a shock
wave goes from right-to-left. This is bad news as far as a propellor is
concerned.
In a ducted fan, the airflow is different to a propellor hanging out in
the breeze. Its restricted, there is a sort of 'ram' effect and its is
pretty close to laminar. But perhaps the biggest difference is in what
the tips are doing and what they are wallowing in. They should be
spinning through a boundary layer i.e. the boundary layer formed on the
walls of the duct. This your normal propellor just doesn't do. BOundary
layers changes the rules somewhat; how, I don't know: I hated fluid
mechanics and the Naviar-Stokes equation in particular.
If I remember correctly, one of the design considertions of ducted fan
(and of the turbine/compressor blade in jet engines) is to take account
of supersonic shock waves coming off fans blades. These shockwaves can
actually be used to enhance the efficiency of the engine.
Angus
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| 1548.6 | Static testing vs. dynamic | UNYEM::BLUMJ | | Fri Aug 13 1993 10:29 | 31 |
| Tom Hunt wrote an interesting article in MAN earlier this year
about the effects of wind on propellor performance. Tom works
as an engineer at Grumman Aerospace and used their lowspeed wind
tunnel to perform the tests.
Tom is an avid electric flyer and wnated to determine the best prop
to use for the 7-cell limited run class.
The test base was an Astro 05 geared motor on 7 cells. Tom tested
three props: Aeronaut 12.5x6.5, Master Airscrew 12x8, and a non folding
Top Flite 10x8.
The results of the tests were really interesting. The prop that did
the best in no wind conditions(Aeronaut), did the worst in a 15 mph
wind. The reverse was true for the Top Flight which performed
miserably in calm conditions and the best of the 3 at 15 mph. The
Master Airscrew split the difference.
Thrust is what provides the motive force to move a plane through the
air, not static read RPM. So, the prop that gives the highest
static rpm may not be the best prop to use on a windy day. The sport
minded flyer may not care about these differences, but the competition
minded pilot can see performance improvements by better understanding
propellors and how they function under different conditions.
I highly recommend reading the MAN article, it is excellent!
Regards,
Jim
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| 1548.7 | Prop equation | 35989::BLUMJ | | Mon Oct 10 1994 12:46 | 32 |
| In Martin Simon's book I ran across an interesting formula for
estimating the proper propeller for your model:
D= 4th root of: BHP
___________________ x 10,000
RPM(squared) x mph x 53.5
For example: I want to build a quarter scale cub to tow my gliders.
It will be powered by a Quadra 42cc motor which puts out 2.4 BHP. I
want to spin the prop at 5000 RPM and fly at 30 mph.
Using the above formula and consulting the pitch chart in Simons' book,
I find I need a 28" x 6" prop. Well I know from magazine tests that
the Quadra 42 will not spin a 28" prop at 5000 rpm. So I could add a
gearbox or recalculate at 6000 rpm which gives a 25" x 6" prop. Well
magazine tests tell me that the Quadra will spin a 24 x 8 prop at 5400
rpm, so this prop might work o.k.
Using my original criteria and moving up to a Zenoah G62 which puts out
4.7 bhp, I recalculate and find that a 33" x 6" prop is what is
required. Well such large props are hard to come by and I don't know
if the G62 will spin a 33" prop, so I probably need to up the flying
speed or engine rpm.
Anyway it is fun to work examples and it seems that the results are
reasonably accurate.
Regards,
Jim
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