Voith Schneider Propeller(en.wikipedia.org)
113 points by Luc 4 days ago | 9 comments
oliwary 7 hours ago
Cool, similar to helicopters which can also control direction indepentendent of thrust, which leads to RC helicopters being able to pull of crazy, physics-defying moves like here: https://www.youtube.com/watch?v=QSiwyoQldfo
_aavaa_ 1 hour ago
Thanks! I’ll keep this on hand for next time I hear that a UFO proof video comes out saying that an object can’t move the way it does on screen.
dylan604 4 hours ago
That's the worst lawnmower I've ever seen. It didn't even cut the grass as much as it just bothered the blades of grass. 0 out of 5 stars. What's that? It's not a mower. Oh, well then, that thing is cool as hell, but not as cool as the pilot that looks like he's just casually standing there.
ted_dunning 4 hours ago
That is bizarre and amazing. I have never seen any kind of aircraft that resembled a dragonfly as much as that.

The maneuvers are so extreme and come so fast that I would not have been able to say for certain that this wasn't just a very nasty crash in progress. But they were, in fact, completely controlled and intentional.

Incredible.

xpe 11 minutes ago
See also: https://en.wikipedia.org/wiki/Swashplate_(aeronautics)
javiramos 10 hours ago
The coolest recent development in marine propellers is toroidal propellers which are now commercially available and seem to perform significantly better than standard propellers: https://www.sharrowmarine.com/
brk 8 hours ago
For the most part the Sharrow props have not proven to be much of an improvement, particularly for the high price.

The tests that have shown "significant" improvements have frequently compared the Sharrow to a sub-optimal prop. Feedback from many actual users is that the gains are moderate over a narrow RPM range.

closewith 7 hours ago
And much harder to repair.
HPsquared 7 hours ago
That's pretty cool, but I wonder if they can get stuff tangled in there.
LoganDark 10 hours ago
That website seems to no useful information; only marketing speak about how great it is... Do you know of a good source on how toroidal propellers work and the engineering behind them?
LysPJ 10 hours ago
Here you are: https://en.wikipedia.org/wiki/Toroidal_propeller
AftHurrahWinch 5 hours ago
Really enjoyed this:

> In the centuries after Archimedes invented the Archimedes' screw, developments of propeller design led to the torus marine propeller... it was invented in the early 1890s

"the centuries" indeed. :)

reedciccio 8 hours ago
Uhm... The article lacks quite a few citations.
HoldOnAMinute 6 hours ago
I didn't even see a picture of the propeller, if there was one. There was a giant, white, blank space.
LoganDark 5 hours ago
That space is blank for me too.

This page seems to have one halfway-functional photo for me: https://www.sharrowmarine.com/store/p/sharrow-by-veem-ds9sw

This URL may work: https://images.squarespace-cdn.com/content/v1/560055b1e4b017...

dylan604 4 hours ago
If that's machined, that's impressive. I've seen some crazy 5-axis CNC examples, and it's usually some bladed turbine fan. Not sure how many axis (axii??) this would require, but it looks cool nonetheless.
2 hours ago
LoganDark 3 hours ago
It looks bent to me, or potentially stamped.
stackghost 3 hours ago
Propellers (both marine and aero) are just spinning wings. If you picture a 2D airfoil like you might see in one of those "intro to lift" diagrams, all the flow is in what we call the chordwise direction, that is the flow is entirely along the axis of the wing's chord (leading edge to trailing edge).

A real 3D aircraft, however, has a fuselage. Similarly, a prop has a hub and the tips of each blade are spinning faster than the roots. The tl;dr of this is that real 3D lifting surfaces typically exhibit a mixture of chordwise and spanwise flow, which causes wingtip vortices to form[0], resulting in induced drag/induced power loss.

For a given amount of thrust the total amount of momentum that the prop transfers to the fluid is fixed. The tip of a conventional prop ends abruptly which causes a large pressure gradient and a strong vortex. A toroidal prop's shape causes the pressure gradient to be broader and less concentrated, therefore the wake vorticity is distributed over a larger region, reducing peak swirl velocities and lowering the kinetic energy lost to vortex formation (and to cavitation).

[0] https://www.youtube.com/watch?v=duSZ1hyK7sY

yccs27 11 hours ago
This reads a lot like an advertisement. The linked page [[Cyclorotor]] is more neutral and has more information on the design and applications outside of marine vessels:

https://en.wikipedia.org/wiki/Cyclorotor

adolph 6 hours ago
This is conceptually significant because the article links the mechanisms used in watercraft and aircraft.
manyturtles 3 hours ago
These were used on three car ferries in Scotland, mostly between Gourock and Dunoon but the same vessels were sometimes used on other routes. The Saturn, Juno and Jupiter which were quite fast and incredibly maneuverable: "...service speed was around 15 knots (although she could also achieve 13 knots astern and 3 knots sideways" with just those drives. No separate screws, bow or stern thrusters. Same drive was used on a few smaller local ferries, too.

If I remember right what they didn't do was go exactly straight. You could see a (very modest) s-shape in the wake over distance.

ref: https://www.shipsofcalmac.co.uk/fleet-features/the-streakers

silveira 2 hours ago
The same article in german has some nice animations: https://de.wikipedia.org/wiki/Voith-Schneider-Antrieb
mkreis 10 hours ago
See a tug showing off here: https://www.youtube.com/watch?v=u6uNECa_X8Q Voith is the only company producing those, even though the patent has expired.
dylan604 3 hours ago
Please excuse me while I rock your boat up against the pier unnecessarily as I show how to do burnouts and donuts with my boat for some viral content.
xpe 9 hours ago
I recommend this video with animations : https://www.youtube.com/watch?v=QrBF9BWYAZY
xpe 9 hours ago
From a resilience POV, my guess would be that failure of any one blade would botch the system overall. Maybe that is why many diagrams show them installed in pairs. (I would guess each operates in a different direction for angular momentum reasons.) I have no idea about overall reliability.
brk 8 hours ago
For marine applications dual drives are common as it enables better rotational control for maneuvering. The redundancy aspect is also a factor, but moreso for applications where you are going to be far from shore. For tugboat and ferry type applications, where these drives are most common, that is less of a concern.
somat 2 hours ago
I think you are right, One only provides directional thrust, a pair would be needed for rotational thrust.

Most traditional tugs have a pair of screws for just this reason. Not so much to turn but by applying differential thrust they can pull sideways. A vector drive like this will vastly increase the envelope of possible pull conditions.

w4der 3 hours ago
They are installed in pairs and work together with bow thrusters to allow for dynamic positioning, the RV Falkor (too) has them for this reason.
martinclayton 10 hours ago
See also https://news.ycombinator.com/item?id=26339421