Reply
 
LinkBack Thread Tools Search this Thread Display Modes
  #1   Report Post  
Gary Warner
 
Posts: n/a
Default Angle of prop shaft - theoretical question.


We have an inboard and, of course, the prop shaft exits the hull at an
angle. I just drove by a similar (but different brand) of boat and it
appears it's prop shaft comes out at less of an angle. My first though it
that a angle that gives a more push forward and less push "up" would be more
efficient. Is that about right??



  #2   Report Post  
Gordon
 
Posts: n/a
Default Angle of prop shaft - theoretical question.


"Gary Warner" wrote in message
...

We have an inboard and, of course, the prop shaft exits the hull at an
angle. I just drove by a similar (but different brand) of boat and it
appears it's prop shaft comes out at less of an angle. My first though it
that a angle that gives a more push forward and less push "up" would be

more
efficient. Is that about right??



Yes but the real gain in effiency comes from the fact that the pitch on
the blade on one side now more closely equals the pitch on the opposite
side. This also means it takes less rudder to maintain a straight line and
therefore less drag.
Gordon



  #3   Report Post  
Steven Shelikoff
 
Posts: n/a
Default Angle of prop shaft - theoretical question.

On Thu, 3 Jun 2004 12:06:33 -0700, "Gordon" wrote:


"Gary Warner" wrote in message
...

We have an inboard and, of course, the prop shaft exits the hull at an
angle. I just drove by a similar (but different brand) of boat and it
appears it's prop shaft comes out at less of an angle. My first though it
that a angle that gives a more push forward and less push "up" would be

more
efficient. Is that about right??



Yes but the real gain in effiency comes from the fact that the pitch on
the blade on one side now more closely equals the pitch on the opposite
side. This also means it takes less rudder to maintain a straight line and
therefore less drag.


You'll also get less propwalk when reversing the boat with the lesser
shaft angle from horizontal.

Steve
  #4   Report Post  
Wayne.B
 
Posts: n/a
Default Angle of prop shaft - theoretical question.

On Thu, 3 Jun 2004 12:06:33 -0700, "Gordon"
wrote:
Yes but the real gain in effiency comes from the fact that the pitch on
the blade on one side now more closely equals the pitch on the opposite
side. This also means it takes less rudder to maintain a straight line and
therefore less drag.


==========================================

This sounds like it ends up closing the loop on the "prop walk"
discussion and starting around the mullberry bush again. We pretty
well established that boats with horizontal shafts had just as much
prop walk as those with angled shafts.

My guess is that it all comes down to a resolution of force vectors in
the vertical and horizontal plane, using shaft angle with the bottom
of the boat as the vector direction.

  #6   Report Post  
Steven Shelikoff
 
Posts: n/a
Default Angle of prop shaft - theoretical question.

On 4 Jun 2004 04:17:35 -0700, (basskisser) wrote:

(Steven Shelikoff) wrote in message ...
On Thu, 3 Jun 2004 12:06:33 -0700, "Gordon" wrote:


"Gary Warner" wrote in message
...

We have an inboard and, of course, the prop shaft exits the hull at an
angle. I just drove by a similar (but different brand) of boat and it
appears it's prop shaft comes out at less of an angle. My first though it
that a angle that gives a more push forward and less push "up" would be

more
efficient. Is that about right??



Yes but the real gain in effiency comes from the fact that the pitch on
the blade on one side now more closely equals the pitch on the opposite
side. This also means it takes less rudder to maintain a straight line and
therefore less drag.


You'll also get less propwalk when reversing the boat with the lesser
shaft angle from horizontal.


Why?


My theory is that , all else being equal, a boat with a greater shaft
angle will have less thrust in the horizontal direction to counteract
the sideways force from the prop paddle-wheeling and at the same time
will increase the sideways "spinning" component of the rotational force
from the prop.

Think of it this way: If you have the shaft completely vertical and
spin the prop, the main motive force will be straight up and not push
the boat anywhere. You've minimized the "paddle-wheel" sideways effect
but that total force is very small. However, you've also maximized the
torque rotational force that will try and spin the boat in the same way
as putting a single mixer blade in a bowl of batter will try and spin
the bowl and that force is huge compared to the paddle-wheel force.

As you lessen the angle of the shaft, you start to increase the sideways
paddle-wheel force but again, that's a very small force. The direction
of the "mixing bowl" rotational force changes from trying to spin the
boat to trying to list the boat. Also, you get more motive force in the
proper direction to allow you to counteract both the "paddle-wheel"
force and the "mixing bowl" force.

When the shaft is completely horizontal, the rotational force is all in
the direction that creates list as you apply power and none is trying to
rotate the boat. I believe this has the greatest effect on reducing prop
walk since the rotational force can be very large. While a small change
in shaft angle has a small effect on the ratio of the vector components
of that force, the total force is so great that a small change in the
ratio of the vectors can have a large effect on the handling of the
boat.

Also, you have the maximum amount of thrust in the proper direction to
help handle the remaining sideways paddle-wheel force, which is the
least of all of them.

That's my theory and I'm sticking with it. lol

Steve
  #7   Report Post  
Gould 0738
 
Posts: n/a
Default Angle of prop shaft - theoretical question.

You'll also get less propwalk when reversing the boat with the lesser
shaft angle from horizontal.

Steve


Why?


Because while the propeller shaft is not parallel to the surface, the flow of
water past the propeller is. The physics of this relationship make one side of
the prop
more effective in reverse than the other, depending upon which way the prop is
rotating.
  #8   Report Post  
basskisser
 
Posts: n/a
Default Angle of prop shaft - theoretical question.

(Steven Shelikoff) wrote in message ...
On 4 Jun 2004 04:17:35 -0700,
(basskisser) wrote:

(Steven Shelikoff) wrote in message ...
On Thu, 3 Jun 2004 12:06:33 -0700, "Gordon" wrote:


"Gary Warner" wrote in message
...

We have an inboard and, of course, the prop shaft exits the hull at an
angle. I just drove by a similar (but different brand) of boat and it
appears it's prop shaft comes out at less of an angle. My first though it
that a angle that gives a more push forward and less push "up" would be

more
efficient. Is that about right??



Yes but the real gain in effiency comes from the fact that the pitch on
the blade on one side now more closely equals the pitch on the opposite
side. This also means it takes less rudder to maintain a straight line and
therefore less drag.

You'll also get less propwalk when reversing the boat with the lesser
shaft angle from horizontal.


Why?


My theory is that , all else being equal, a boat with a greater shaft
angle will have less thrust in the horizontal direction to counteract
the sideways force from the prop paddle-wheeling and at the same time
will increase the sideways "spinning" component of the rotational force
from the prop.

Think of it this way: If you have the shaft completely vertical and
spin the prop, the main motive force will be straight up and not push
the boat anywhere. You've minimized the "paddle-wheel" sideways effect
but that total force is very small. However, you've also maximized the
torque rotational force that will try and spin the boat in the same way
as putting a single mixer blade in a bowl of batter will try and spin
the bowl and that force is huge compared to the paddle-wheel force.

As you lessen the angle of the shaft, you start to increase the sideways
paddle-wheel force but again, that's a very small force. The direction
of the "mixing bowl" rotational force changes from trying to spin the
boat to trying to list the boat. Also, you get more motive force in the
proper direction to allow you to counteract both the "paddle-wheel"
force and the "mixing bowl" force.

When the shaft is completely horizontal, the rotational force is all in
the direction that creates list as you apply power and none is trying to
rotate the boat. I believe this has the greatest effect on reducing prop
walk since the rotational force can be very large. While a small change
in shaft angle has a small effect on the ratio of the vector components
of that force, the total force is so great that a small change in the
ratio of the vectors can have a large effect on the handling of the
boat.

Also, you have the maximum amount of thrust in the proper direction to
help handle the remaining sideways paddle-wheel force, which is the
least of all of them.

That's my theory and I'm sticking with it. lol

Steve


I don't agree. If the direction of the prop and shaft, relative to the
centerline of the boat never changes, and the cause of the "prop walk"
is from the rotational force, it would make no difference what the
angle of the prop is relative to the horizon. It could be anywhere
from horizontal, through 90 degrees to horizontal, and the rotational
force would remain the same.
  #9   Report Post  
otnmbrd
 
Posts: n/a
Default Angle of prop shaft - theoretical question.

Prop walk is the "sum" of a number of factors - prop rotation (left or
right), prop pitch, shaft angle, vessel trim, wind, current, hull form.
A right hand prop, SHOULD, back to port .... a left hand prop (G fixed
pitch), SHOULD, back to stbd .....
BUT, results will vary for any and/or all of the reasons above, and in
addition, whether you are all ready turning and/or have headway or sternway.
When you start out on a boat, figure the "SHOULD" first, then standby to
learn the "oops" and vagaries, that WILL apply due to any of the
factors, listed above.
Try not to think of it as your enemy and learn to use it.

otn

  #10   Report Post  
Steven Shelikoff
 
Posts: n/a
Default Angle of prop shaft - theoretical question.

On 4 Jun 2004 11:32:26 -0700, (basskisser) wrote:

(Steven Shelikoff) wrote in message ...
On 4 Jun 2004 04:17:35 -0700,
(basskisser) wrote:

(Steven Shelikoff) wrote in message ...
On Thu, 3 Jun 2004 12:06:33 -0700, "Gordon" wrote:


"Gary Warner" wrote in message
...

We have an inboard and, of course, the prop shaft exits the hull at an
angle. I just drove by a similar (but different brand) of boat and it
appears it's prop shaft comes out at less of an angle. My first though it
that a angle that gives a more push forward and less push "up" would be

more
efficient. Is that about right??



Yes but the real gain in effiency comes from the fact that the pitch on
the blade on one side now more closely equals the pitch on the opposite
side. This also means it takes less rudder to maintain a straight line and
therefore less drag.

You'll also get less propwalk when reversing the boat with the lesser
shaft angle from horizontal.

Why?


My theory is that , all else being equal, a boat with a greater shaft
angle will have less thrust in the horizontal direction to counteract
the sideways force from the prop paddle-wheeling and at the same time
will increase the sideways "spinning" component of the rotational force
from the prop.

Think of it this way: If you have the shaft completely vertical and
spin the prop, the main motive force will be straight up and not push
the boat anywhere. You've minimized the "paddle-wheel" sideways effect
but that total force is very small. However, you've also maximized the
torque rotational force that will try and spin the boat in the same way
as putting a single mixer blade in a bowl of batter will try and spin
the bowl and that force is huge compared to the paddle-wheel force.

As you lessen the angle of the shaft, you start to increase the sideways
paddle-wheel force but again, that's a very small force. The direction
of the "mixing bowl" rotational force changes from trying to spin the
boat to trying to list the boat. Also, you get more motive force in the
proper direction to allow you to counteract both the "paddle-wheel"
force and the "mixing bowl" force.

When the shaft is completely horizontal, the rotational force is all in
the direction that creates list as you apply power and none is trying to
rotate the boat. I believe this has the greatest effect on reducing prop
walk since the rotational force can be very large. While a small change
in shaft angle has a small effect on the ratio of the vector components
of that force, the total force is so great that a small change in the
ratio of the vectors can have a large effect on the handling of the
boat.

Also, you have the maximum amount of thrust in the proper direction to
help handle the remaining sideways paddle-wheel force, which is the
least of all of them.

That's my theory and I'm sticking with it. lol

Steve


I don't agree. If the direction of the prop and shaft, relative to the
centerline of the boat never changes, and the cause of the "prop walk"


But it is changing. That's the variable we're changing, the angle of
the shaft. I.e., as the shaft angle gets closer and closer to coming
straight out of the boat with no downward angle, the prop walk gets less
and less. Or stated another way, the greater the angle of the shaft the
greater the prop walk. And that's due to the torque of the shaft, which
is applied more and more as a force to rotate the boat as the downward
angle of the shaft is increased. When the shaft is straight back with
no downward angle, the torque force from the shaft causes the boat to
list but doesn't rotate it in the water.

is from the rotational force, it would make no difference what the
angle of the prop is relative to the horizon. It could be anywhere
from horizontal, through 90 degrees to horizontal, and the rotational
force would remain the same.


The rotational force from the prop remains the same. But what it does
to the boat depends on the angle of the shaft relative to the boat. If
the shaft is vertical, it will try and rotate the boat in the horizontal
plane, i.e., prop walk. If the shaft is horizontal, it will try and
rotate the boat in the vertical plane, i.e., list. Anywhere in between
vertical and horizontal and some of the force will try and rotate the
boat while some will cause list with the list increasing and the prop
walk decreasing the closer to horizontal you get.

Steve
Reply
Thread Tools Search this Thread
Search this Thread:

Advanced Search
Display Modes

Posting Rules

Smilies are On
[IMG] code is Off
HTML code is Off
Trackbacks are On
Pingbacks are On
Refbacks are On


Similar Threads
Thread Thread Starter Forum Replies Last Post
Stainless Prop selection question Christopher Rugg General 2 April 12th 04 09:13 PM
Prop shaft Part#44-824110 M.E. General 1 September 25th 03 09:19 AM
Group newbie with a prop question... WildestDream General 4 August 29th 03 05:30 AM
Prop Question... Part II Matt General 1 July 24th 03 01:58 AM
Prop question Frank Taylor, Jr. General 5 July 23rd 03 04:23 AM


All times are GMT +1. The time now is 07:10 PM.

Powered by vBulletin® Copyright ©2000 - 2024, Jelsoft Enterprises Ltd.
Copyright ©2004-2024 BoatBanter.com.
The comments are property of their posters.
 

About Us

"It's about Boats"

 

Copyright © 2017