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Thrust vectoring
Subject: Thrust vectoring
From: "JimB" Shen44 wrote in message Subject: Thrust vectoring There's very little prop walk on traditional wood trawlers, when the prop is set almost half way down a 3m deep keel in a cutaway. Please explain what you mean by "trawler" (fishing or yacht) and "cutaway" and what the depth of the prop has to do with it. To be exact, a Brixham Trawler, a 75ft gaff rigged ketch, designed with a powerful rig for sail trawling. The keel is straight from stem to stern, about 1m draft at the stem, 3m draft at the stern. The rudder is mounted 20degrees off vertical. The aft hull is flat, wide beamed, and lifts above waterline at the rudder post. The prop is mounted 1.5m deep, in a 60cm (2ft!) arc cut into the keel just forward of the rudder hinge. The effect is that the reverse wash of the prop runs down each side of a vertically straight keel - which I assume kills the spiralling of the prop wash on both sides equally. OK, think I see what you're saying. First off, I used to run a 65 foot boat with a similar configuration and remember a beautiful old 45' ketch with the same thing ... both had large degrees of "propwalk". Secondly, I think we may have different views of what is the major cause of prop walk (I attribute it to the pitch of the blades pulling to a greater degree on the "down stroke" side of the revolution, than the "upstroke side"). Whereas most modern vessels have the upper part of their prop wash losing energy to the hull bottom through friction, and no other interference. I think we're on the same track but drawing different conclusions. I can see where this stuff together would cut down propwalk. A Kort nozzle can be found on fishing boats, but your main application will be tugs. It's a shaped cylinder, generally attached to the hull, which surrounds the prop, entirely. It's main function is to increase "bollard pull", but because it surrounds the prop, the prop can not "pull" to one side (propwalk) since all thrust is directed out the nozzle, either ahead or astern. I think the key factor here is the cruciform blades supporting the cylinder in front of the prop, which act as flow straighteners. No spiral flow along the hull = no prop walk. In the case of a Kort nozzle, there are no cruciform blades supporting the nozzle in front of the prop. The nozzle is "hung" beneath the hull and left as clear as possible in front to aid a clear flow to the prop (kinda like the nacelle surrounding a jet engine). If the prop's deep, but close to a horizontal surface (the hull) you'll get good prop walk. Because the hull, through friction, kills the lateral velocity of the spiralling wash on top, but the lower spiral rushes off, giving you asymmetric reverse thrust. Here I have to disagree that the prop has to be close to the hull when deep to get a good degree of walk .... take for instance any twin screw vessel where the props are away ... you still get good prop walk (Before some one says this is due to off center thrust .... shift to inboard turning wheels and you'll see a marked difference). Paddle wheel effect if you like. If the prop is well clear of the hull, just look at the shaft supports to design prop walk out. If you've got a vertical blade supporting the shaft, stick a balancing skeg below it. Keeps the ropes clear too. BG Why would I want to design "propwalk" out? "Propwalk" is my friend! Shen |
Thrust vectoring
Subject: Thrust vectoring
From: (JAXAshby) One thing I've learned from reading Jaxcrap ....his opinion is basically useless and based solely on what he's read and misinterpreted. "motorsailor", eh? that's a hermaphordite that nobody on either side of the bed wants to play with. a twig too small to be a stick, and too long to be a clit. |
Thrust vectoring
Subject: Thrust vectoring
From: (JAXAshby) Date: 03/28/2004 09:31 Pacific Standard Time Message-id: there you have if, folks. schlackoff declares himself a greater physicist than Feynman. Wait until the Nobel Committee learns fo schlackoff. Fame and fortune will soon be his. G Never hoid of this Feynman character, before this thread, but if he, like you cannot back a boat up and steer it using prop and rudder, then that's a boat handling problem first, a physics problem second. Hey, for $500/hr (you supply the boat) I'll gladly try and teach you, although I've noticed you have a serious problem translating what you read into practical use, so it may get expensive and I doubt you'll ever be any good at it.G Shen |
Thrust vectoring
I attribute it to the pitch of the blades pulling to a greater
degree on the "down stroke" side of the revolution, than the "upstroke side" This is only true -- for a fixed blade prop -- when the shaft is angled AND the boat is moving. |
Thrust vectoring
Never hoid of this Feynman character ...
here you go. 467,000 hits for you read. next time you will know who this famous man was. http://www.google.com/search?hl=en&i...59-1&q=feynman btw schlackoff, Feynman won his Nobel prize in physics long ago, which he got his before you'll get yours. ... before this thread, but if he, like you cannot back a boat up and steer it using prop and rudder, then that's a boat handling problem first, a physics problem second. Hey, for $500/hr (you supply the boat) I'll gladly try and teach you, although I've noticed you have a serious problem translating what you read into practical use, so it may get expensive and I doubt you'll ever be any good at it.G Shen |
Thrust vectoring
you are right about one thing, schlackoff. I don't have any personal experience
with hermaphordites. you have me beat on that score. One thing I've learned from reading Jaxcrap ....his opinion is basically useless and based solely on what he's read and misinterpreted. "motorsailor", eh? that's a hermaphordite that nobody on either side of the bed wants to play with. a twig too small to be a stick, and too long to be a clit. |
Thrust vectoring
schlackoff, three day ago you said a prop in reverse would affect a rudder,
then you read my explanation of the phenomenon and flip-flopped. Now, you have forgotten what your read, or remember what you understood then, and have flip-flopped back. tell us again how you are going to win the Nobel prize in physics as you prove Feynman wrong. Shen44 wrote in message Subject: Thrust vectoring There's very little prop walk on traditional wood trawlers, when the prop is set almost half way down a 3m deep keel in a cutaway. Please explain what you mean by "trawler" (fishing or yacht) and "cutaway" and what the depth of the prop has to do with it. To be exact, a Brixham Trawler, a 75ft gaff rigged ketch, designed with a powerful rig for sail trawling. The keel is straight from stem to stern, about 1m draft at the stem, 3m draft at the stern. The rudder is mounted 20degrees off vertical. The aft hull is flat, wide beamed, and lifts above waterline at the rudder post. The prop is mounted 1.5m deep, in a 60cm (2ft!) arc cut into the keel just forward of the rudder hinge. The effect is that the reverse wash of the prop runs down each side of a vertically straight keel - which I assume kills the spiralling of the prop wash on both sides equally. OK, think I see what you're saying. First off, I used to run a 65 foot boat with a similar configuration and remember a beautiful old 45' ketch with the same thing ... both had large degrees of "propwalk". Secondly, I think we may have different views of what is the major cause of prop walk (I attribute it to the pitch of the blades pulling to a greater degree on the "down stroke" side of the revolution, than the "upstroke side"). Whereas most modern vessels have the upper part of their prop wash losing energy to the hull bottom through friction, and no other interference. I think we're on the same track but drawing different conclusions. I can see where this stuff together would cut down propwalk. A Kort nozzle can be found on fishing boats, but your main application will be tugs. It's a shaped cylinder, generally attached to the hull, which surrounds the prop, entirely. It's main function is to increase "bollard pull", but because it surrounds the prop, the prop can not "pull" to one side (propwalk) since all thrust is directed out the nozzle, either ahead or astern. I think the key factor here is the cruciform blades supporting the cylinder in front of the prop, which act as flow straighteners. No spiral flow along the hull = no prop walk. In the case of a Kort nozzle, there are no cruciform blades supporting the nozzle in front of the prop. The nozzle is "hung" beneath the hull and left as clear as possible in front to aid a clear flow to the prop (kinda like the nacelle surrounding a jet engine). If the prop's deep, but close to a horizontal surface (the hull) you'll get good prop walk. Because the hull, through friction, kills the lateral velocity of the spiralling wash on top, but the lower spiral rushes off, giving you asymmetric reverse thrust. Here I have to disagree that the prop has to be close to the hull when deep to get a good degree of walk .... take for instance any twin screw vessel where the props are away ... you still get good prop walk (Before some one says this is due to off center thrust .... shift to inboard turning wheels and you'll see a marked difference). Paddle wheel effect if you like. If the prop is well clear of the hull, just look at the shaft supports to design prop walk out. If you've got a vertical blade supporting the shaft, stick a balancing skeg below it. Keeps the ropes clear too. BG Why would I want to design "propwalk" out? "Propwalk" is my friend! Shen |
Thrust vectoring
Subject: Thrust vectoring
From: (JAXAshby) Date: 03/28/2004 15:26 Pacific Standard Time Message-id: you are right about one thing, schlackoff. I don't have any personal experience with hermaphordites. you have me beat on that score. I believe it's spelled "hermaphrodite", and I've only sailed on one such Brig ....... oh! Wait ... You're talking about your sexual proclivities again. Jaxoff, you need to get yer mind outa da gutter. Shen |
Thrust vectoring
Subject: Thrust vectoring
From: (JAXAshby) Date: 03/28/2004 15:22 Pacific Standard Time Message-id: Never hoid of this Feynman character ... here you go. 467,000 hits for you read. next time you will know who this famous man was. http://www.google.com/search?hl=en&i...59-1&q=feynman btw schlackoff, Feynman won his Nobel prize in physics long ago, which he got his before you'll get yours. ....but can you or this Feynman handle a boat? We know you can't, and if Mr Feynman can't apply his scientific "stuff" to boat handling, what good is he, his nobel prize, or all his scientific papers to this discussion? Sorry Jax, I larn't my boat handling by doing, not reading books. My offer will increase to $600/hr at the end of the day, simply because you're a useless aggravation and I know I'll need a new pair of steel toed shoes, after the first hour, to get your attention. Shen |
Thrust vectoring
Subject: Thrust vectoring
From: (JAXAshby) Date: 03/28/2004 15:17 Pacific Standard Time Message-id: I attribute it to the pitch of the blades pulling to a greater degree on the "down stroke" side of the revolution, than the "upstroke side" This is only true -- for a fixed blade prop -- when the shaft is angled AND the boat is moving. Wrong on every point. Spout all the scientific crap you want .... can be fixed or variable pitch, horizontal or angled, moving or at the initial start before moving. .... what's most important is what the boat handler can see or feel. A variable pitch prop will generally cause walk even at so called zero pitch(the degree may vary, but it will still be a factor you need to address); a boat with a horizontal shaft will have prop walk, just like one with an angled shaft (the degree may vary, but it will still be a factor you have to address); immediately upon turning the prop, before you get sternway, you will get "propwalk"(the degree may vary, but it will still be a factor you will have to address). Fer cripes sake, Jax, take some courses, get some experience .....hell, I'll give you a bargain basement rate .... $800/hr. Shen |
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