RoarkS
Mechanical
- Jul 10, 2009
- 264
So I've got a fun little side project.
I'm building up a test stand for the local A&P school with a rebuilt O-320-E2D.
I **Think** I have a propeller that I can slap on it just for the sake of running an engine but what's the fun in that?
Lycoming manual says to use a test cell club prop => I talked to Lycoming, they didn't know and sent me to sensenich => radio silence. I was willing to buy one.
Anyway it says that they are mostly for engine cooling and to limit RPM.
Here's where I'm at:
I've had pretty good luck with Solidworks CFD... in fact it was borderline a miracle on the last project. Tested a component ISO 5kft to 25kft ±30° and it worked exactly as predicted. Even had some parts of the design spilling over to supersonic...
So here's what I'm thinking... I model up a prop, mess with the pitch until at 2700 RPM it's sucking out 292 ft-lbs (150hp). Is there really anything more to it?
I'm building up a test stand for the local A&P school with a rebuilt O-320-E2D.
I **Think** I have a propeller that I can slap on it just for the sake of running an engine but what's the fun in that?
Lycoming manual says to use a test cell club prop => I talked to Lycoming, they didn't know and sent me to sensenich => radio silence. I was willing to buy one.
Anyway it says that they are mostly for engine cooling and to limit RPM.
Here's where I'm at:
I've had pretty good luck with Solidworks CFD... in fact it was borderline a miracle on the last project. Tested a component ISO 5kft to 25kft ±30° and it worked exactly as predicted. Even had some parts of the design spilling over to supersonic...
So here's what I'm thinking... I model up a prop, mess with the pitch until at 2700 RPM it's sucking out 292 ft-lbs (150hp). Is there really anything more to it?
![[pipe]](/data/assets/smilies/pipe.gif "[pipe] [pipe]")
