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Hybrid Energy Drive / Eco-Sailing
On Tue, 23 Nov 2010 17:46:50 +0700, Bruce
wrote: Out of curiosity, why chain the shaft? Are you running on one engine? And, if you are how is it working for you. I tried it and it simply dropped the speed by about half :-( On our boat we can improve fuel efficiency by about 25% running on a single engine assuming a speed of no more than about 1.1 SQRT LWL. We have Detroit 6-71 2-cycle diesels which are not efficient at low speeds. Running single engine gets operating RPMs up to a normal level. This is useful on long passages in relatively light winds and calm seas. If the wind kicks up we need more power to maintain speed and stability. |
Hybrid Energy Drive / Eco-Sailing
Joe wrote:
Have been on a hundred boats with 25-72 inch props and had to chain them down many times to prevent damage to the gears. As I said the power is massive and you had better have heavy chains and binders. Joe There is no doubt that the prop will turn (or at lest want to) when water flows past it. But to develop any real power, the pitch of the blades has to change. Think about it from the POV of the propeller. When running and moving the boat, the prop attacks the water stream at a fairly fine angle. Spinning, the prop takes a small bite of water and sends it aft. Water meets the prop a small angle off of the leading edge. When not running, and just dragging through the water, the angle of attack is huge. Water hits nearly flat on the face of the blades. If you want to use the prop to generate electricity, to have any kind of efficiency, and reduce drag, the prop blades need to change pitch by about 90 degrees. And all that just to reduce mechanical and speed losses to minimum. They WILL still be there. Some people seem to think that since it's a sailboat, and slow anyway, that a little loss of speed is ok. I'm of the other mind. Since it's already slow any additional losses are unacceptable. (trim yer sails, mate) -- Richard Lamb email me: web site: www.home.earthlink.net/~cavelamb |
Hybrid Energy Drive / Eco-Sailing
On Tue, 23 Nov 2010 06:15:07 -0500, Wayne.B
wrote: On Tue, 23 Nov 2010 17:46:50 +0700, Bruce wrote: Out of curiosity, why chain the shaft? Are you running on one engine? And, if you are how is it working for you. I tried it and it simply dropped the speed by about half :-( On our boat we can improve fuel efficiency by about 25% running on a single engine assuming a speed of no more than about 1.1 SQRT LWL. We have Detroit 6-71 2-cycle diesels which are not efficient at low speeds. Running single engine gets operating RPMs up to a normal level. This is useful on long passages in relatively light winds and calm seas. If the wind kicks up we need more power to maintain speed and stability. I've got littler engines and at cruise are running about 2,000 RPM on both. Cutting one engine reduces speed by about half. But you have, I believe a Grand Banks, which has a semi-planeing hull, I think the company calls it, that can benefit from larger engines. My boat is a displacement hull so additional H.P. isn't going to make a vast difference. You say "maintain speed and stability", do you have active stabilizers? Cheers, Brice |
Hybrid Energy Drive / Eco-Sailing
On Tue, 23 Nov 2010 12:20:43 -0600, CaveLamb
wrote: Joe wrote: Have been on a hundred boats with 25-72 inch props and had to chain them down many times to prevent damage to the gears. As I said the power is massive and you had better have heavy chains and binders. Joe There is no doubt that the prop will turn (or at lest want to) when water flows past it. But to develop any real power, the pitch of the blades has to change. Think about it from the POV of the propeller. When running and moving the boat, the prop attacks the water stream at a fairly fine angle. Spinning, the prop takes a small bite of water and sends it aft. Water meets the prop a small angle off of the leading edge. When not running, and just dragging through the water, the angle of attack is huge. Water hits nearly flat on the face of the blades. If you want to use the prop to generate electricity, to have any kind of efficiency, and reduce drag, the prop blades need to change pitch by about 90 degrees. And all that just to reduce mechanical and speed losses to minimum. They WILL still be there. Some people seem to think that since it's a sailboat, and slow anyway, that a little loss of speed is ok. I'm of the other mind. Since it's already slow any additional losses are unacceptable. (trim yer sails, mate) A lot of information on turbine water power at http://en.wikipedia.org/wiki/Water_turbine and apparently it is not "new technology" as the Romans used the concept. Cheers, Brice |
Hybrid Energy Drive / Eco-Sailing
On Wed, 24 Nov 2010 07:37:46 +0700, Bruce
wrote: You say "maintain speed and stability", do you have active stabilizers? Yes, Naiads. http://www.naiad.com/Product_Flyer_162-302.pdf |
Hybrid Energy Drive / Eco-Sailing
On Nov 23, 4:44*am, Bruce wrote:
On Mon, 22 Nov 2010 17:49:24 -0800 (PST), Joe wrote: On Nov 22, 6:39*pm, Bruce wrote: On Mon, 22 Nov 2010 08:54:03 -0800 (PST), Joe wrote: On Nov 22, 9:40 am, Wayne.B wrote: On Mon, 22 Nov 2010 07:21:00 -0800 (PST), Joe wrote: Now directly couple a motor/generator that consists of a stator winding employing a high pole count configuration, which allows for high copper utilization (minimizing energy loss and cost), and a hollow rotor upon which powerful rare earth permanent magnets are mounted on the outer circumference coupled to a variable pitch prop system and you can pump out some serious energy. The city buses that are using these moters claim they capture 97% of the kinetic energy developed while stopping. Regardless of the capture mechanism, even at 100% efficiency, there is only so much energy in a moving column of water and it is not a big number when you are moving at sailing speeds. Now if you could get that same column of water rolling down the side of a 1,000 ft mountain, that's a whole different story. :-) *I'm going to have to disagree with you Wayne. The amount of energy coming off a shaft at sailing speed can be huge. The drag can be offset by canvas with ease on a non-planing hull. If you capture 1 rpm of energy for every 4 rmp's generated by sail, and can store that energy you have a system that can work. Now if a bus can capture 97% of the kinetic energy by stopping then why can't a prop do the same ? About the smallest CVP system available is in the high 30's low 40" diameter. You ever chain down a shaft to a 40" prop? You better have some strong chain. http://www.youtube.com/watch?v=6KSnH6DFA94*Not quite a 1000 ft drop but plenty of power to harness. Joe Are you normally obtuse, or have you always gotten your technical information from the movies? The Youtube show you recommended states that it is a 200 ton sailing boat. While your reference doesn't indicate the length of the vessel but seems to say that they were doing 9 knots. I found a reference to another 200 ton sailing vessel on the net - it was 138 feet long. The hull speed for a 138 ft. vessel is about 16 knots so your reference was sailing at abut half hull speed (56% actually). Hardly impressive. Hardly, but enough to spin a big prop without much concern of the drag the prop makes.. Are you serious? I've never seen anyone who doesn't care about drag. The largest ships in the world are certainly extremely concerned about it and in fact that is probably the major pitch that the paint companies have when trying to sell to those companies. The Emma Mersk brags about their super slippery paint that saves them 1,200 tons of fuel a year. The funny looking "bulb bow" that you see on most modern shipping is solely to reduce drag. No kidding Bruce. It would be a trade off of drag for energy. On Redcloud she had a 14X14 that was always dragging but she still had no problem getting to hull speed. And, by the bay, how many sailing yachts have you been on that were fitted with a 40 inch propeller? None by the bay;0). Never been on with a CVP propellor, or cort nozzles either. Never been on one with a bow thruster , or forward looking sonar, or a kite drive either. Never been on a hydrofoil bigger than a rave...but there are ones out there. Have been on a hundred boats with 25-72 inch props and had to chain them down many times to prevent damage to the gears. As I said the power is massive and you had better have heavy chains and binders. Joe You are undoubtedly correct in that big props turn bigger load but equally have large drag factors. Unfortunately there is no magic. You want to generate a lot of energy at sail boat speeds 7 - 8 knots and you are going to have a substantial amount of drag, which, of course, slows the boat and requires a larger prop to generate the same power, which slows the boat...... If the hull speed is 11 kts ..it's eleven knots even with a bobulious bow. So lets say you have a 15% drag, you hoist 20% more canvas. Joe Cheers, Brice- Hide quoted text - - Show quoted text - |
Hybrid Energy Drive / Eco-Sailing
On Nov 23, 12:20*pm, CaveLamb wrote:
Joe wrote: *Have been on a hundred boats with 25-72 inch props and had to chain them down many times to prevent damage to the gears. As I said the power is massive and you had better have heavy chains and binders. Joe There is no doubt that the prop will turn (or at lest want to) when water flows past it. But to develop any real power, the pitch of the blades has to change. Think about it from the POV of the propeller. When running and moving the boat, the prop attacks the water stream at a fairly fine angle. *Spinning, the prop takes a small bite of water and sends it aft. *Water meets the prop a small angle off of the leading edge. When not running, and just dragging through the water, the angle of attack is huge. *Water hits nearly flat on the face of the blades. If you want to use the prop to generate electricity, to have any kind of efficiency, and reduce drag, the prop blades need to change pitch by about 90 degrees. And all that just to reduce mechanical and speed losses to minimum. They WILL still be there. Some people seem to think that since it's a sailboat, and slow anyway, that a little loss of speed is ok. I'm of the other mind. *Since it's already slow any additional losses are unacceptable. (trim yer sails, mate) Hello Richard, I agree 100% on the prop issues. My research says this is the best option http://www.hundestedpropeller.dk/?id=4172 They have a mechanical and hydralic systems. The mechanical seems the best since the hydralic needs a pump running full time. Joe Joe -- Richard Lamb email me: web site: *www.home.earthlink.net/~cavelamb |
Hybrid Energy Drive / Eco-Sailing
On Nov 22, 6:19*pm, Bruce wrote:
On Mon, 22 Nov 2010 07:21:00 -0800 (PST), Joe wrote: On Nov 22, 5:10*am, Bruce wrote: On Sun, 21 Nov 2010 22:49:30 -0600, CaveLamb wrote: One of the problems using the engine propeller to turn an alternator is that the prop pitch is all wrong. By 90 degrees, in fact. It works though, witness the bloke I mentioned that had an alternator belted to the propshaft.... just that it doesn't produce much power. Cheers, Brice Why not use stone wheels too Bruce, since you are talking about stone age tech? Using a belt drive and a big alternator is not going to capture much energy anything. Now directly couple a motor/generator that consists of a stator winding employing a high pole count configuration, which allows for high copper utilization (minimizing energy loss and cost), and a hollow rotor upon which powerful rare earth permanent magnets are mounted on the outer circumference coupled to a variable pitch prop system and you can pump out some serious energy. The city buses that are using these moters claim they capture 97% of the kinetic energy developed while stopping. You are comparing apples to oranges. Joe How does, as you say "high copper content" decrease costs? Cheers, Brice- Hide quoted text - - Show quoted text - According to UQM" The stator is affixed to an aluminum housing, which contains mounting end bells and bearings. This allows the rotor to be suspended within the stator. Commutation of the machine is accomplished electronically by sensing the position of the rotor in relation to the stator, and intelligently pulsing electrical energy into the stator such that the electric field generated by the stator interacts with the magnetic field of the rotor producing rotational motion (“motor operation”). Conversely, the application of rotational motion to the rotor by an external force results in the generation of electrical power (“generator operation”). UQM® machines can be operated in either a forward or reverse direction of rotation and either in motor or generator mode and can dynamically change from one mode of operation to another in millisecond response time. The hollow design of the rotor permits the packaging of other components such as gears and electromechanical brakes in the interior of the machine. These design features contribute to lower usage of copper and iron and other materials generally (due to smaller package dimensions), reducing manufacturing cost over those for conventional machines of similar power. In addition, the utilization of neodymium-iron-boron (“NdFeB”) magnet material in a wide range of consumer devices, such as cell phones, disk drives and medical devices, has dramatically improved the availability, performance and price of this material, allowing us to price our advanced motors and controls competitively with lesser performing conventional motors which we believe will accelerate the rate of commercialization of our technology." Joe |
Hybrid Energy Drive / Eco-Sailing
On Tue, 23 Nov 2010 06:15:07 -0500, Wayne.B
wrote: On Tue, 23 Nov 2010 17:46:50 +0700, Bruce wrote: Out of curiosity, why chain the shaft? Are you running on one engine? And, if you are how is it working for you. I tried it and it simply dropped the speed by about half :-( On our boat we can improve fuel efficiency by about 25% running on a single engine assuming a speed of no more than about 1.1 SQRT LWL. We have Detroit 6-71 2-cycle diesels which are not efficient at low speeds. Running single engine gets operating RPMs up to a normal level. This is useful on long passages in relatively light winds and calm seas. If the wind kicks up we need more power to maintain speed and stability. Tough finding a solution to that. Just a few thing things that popped into my head, probably none practical. Re-propping to get revs up on both engines - non-starter because you're running 2 engines, and waste heat kills fuel savings. Transmission that can run both props on one engine input. Makes sense for cruising speed, but probably too expensive/complex. Feathering props. Probably more drawbacks than gain. Easily detached props. Read to dive far asea, hoist, and get caught with only one prop when it squalls? Didn't think so. My favorite lame-brain idea is streamlined remote operated prop cowls. Close when prop not in use, open otherwise. Insane. Do you have trans lube/heat problems when freewheeling a prop? If you lock it down, will you still get 25% fuel savings? Lots of drag there. --Vic |
Hybrid Energy Drive / Eco-Sailing
On Wed, 24 Nov 2010 09:48:30 -0600, Vic Smith
wrote: We have Detroit 6-71 2-cycle diesels which are not efficient at low speeds. Running single engine gets operating RPMs up to a normal level. This is useful on long passages in relatively light winds and calm seas. If the wind kicks up we need more power to maintain speed and stability. Tough finding a solution to that. Just a few thing things that popped into my head, probably none practical. Re-propping to get revs up on both engines - non-starter because you're running 2 engines, and waste heat kills fuel savings. Transmission that can run both props on one engine input. Makes sense for cruising speed, but probably too expensive/complex. Running two engines is always less efficient than one engine, everything else being equal. An engine in motion has lots of frictional and parasitic losses - things like pumps, alternators and valve trains for example. DD 6-71s have an additional parasitic loss from spinning the blower. Feathering props. Probably more drawbacks than gain. Feathering props are good although complex, expensive and difficult to repair in the boondocks. Easily detached props. Read to dive far asea, hoist, and get caught with only one prop when it squalls? Didn't think so. Not on my boat although I understand that a guy with a GB49 went from Hawaii to San Francisco that way. My favorite lame-brain idea is streamlined remote operated prop cowls. Close when prop not in use, open otherwise. Insane. Good out of the box thinking, just a few details... :-) Do you have trans lube/heat problems when freewheeling a prop? If you lock it down, will you still get 25% fuel savings? Lots of drag there. At slow trawler speeds it is not that big an issue. We start the other engine once in a while to recirculate the transmission lube. I also check the temp with a heat gun from time to time when I'm doing my engine room checks. In theory locking it down is more efficient than letting it spin. Locking it down is potentially dangerous however unless a built in shaft braking system is used. |
Hybrid Energy Drive / Eco-Sailing
On Wed, 24 Nov 2010 06:12:11 -0800 (PST), Joe
wrote: On Nov 23, 4:44*am, Bruce wrote: On Mon, 22 Nov 2010 17:49:24 -0800 (PST), Joe wrote: On Nov 22, 6:39*pm, Bruce wrote: On Mon, 22 Nov 2010 08:54:03 -0800 (PST), Joe wrote: On Nov 22, 9:40 am, Wayne.B wrote: On Mon, 22 Nov 2010 07:21:00 -0800 (PST), Joe wrote: Now directly couple a motor/generator that consists of a stator winding employing a high pole count configuration, which allows for high copper utilization (minimizing energy loss and cost), and a hollow rotor upon which powerful rare earth permanent magnets are mounted on the outer circumference coupled to a variable pitch prop system and you can pump out some serious energy. The city buses that are using these moters claim they capture 97% of the kinetic energy developed while stopping. Regardless of the capture mechanism, even at 100% efficiency, there is only so much energy in a moving column of water and it is not a big number when you are moving at sailing speeds. Now if you could get that same column of water rolling down the side of a 1,000 ft mountain, that's a whole different story. :-) *I'm going to have to disagree with you Wayne. The amount of energy coming off a shaft at sailing speed can be huge. The drag can be offset by canvas with ease on a non-planing hull. If you capture 1 rpm of energy for every 4 rmp's generated by sail, and can store that energy you have a system that can work. Now if a bus can capture 97% of the kinetic energy by stopping then why can't a prop do the same ? About the smallest CVP system available is in the high 30's low 40" diameter. You ever chain down a shaft to a 40" prop? You better have some strong chain. http://www.youtube.com/watch?v=6KSnH6DFA94*Not quite a 1000 ft drop but plenty of power to harness. Joe Are you normally obtuse, or have you always gotten your technical information from the movies? The Youtube show you recommended states that it is a 200 ton sailing boat. While your reference doesn't indicate the length of the vessel but seems to say that they were doing 9 knots. I found a reference to another 200 ton sailing vessel on the net - it was 138 feet long. The hull speed for a 138 ft. vessel is about 16 knots so your reference was sailing at abut half hull speed (56% actually). Hardly impressive. Hardly, but enough to spin a big prop without much concern of the drag the prop makes.. Are you serious? I've never seen anyone who doesn't care about drag. The largest ships in the world are certainly extremely concerned about it and in fact that is probably the major pitch that the paint companies have when trying to sell to those companies. The Emma Mersk brags about their super slippery paint that saves them 1,200 tons of fuel a year. The funny looking "bulb bow" that you see on most modern shipping is solely to reduce drag. No kidding Bruce. It would be a trade off of drag for energy. On Redcloud she had a 14X14 that was always dragging but she still had no problem getting to hull speed. And, by the bay, how many sailing yachts have you been on that were fitted with a 40 inch propeller? None by the bay;0). Never been on with a CVP propellor, or cort nozzles either. Never been on one with a bow thruster , or forward looking sonar, or a kite drive either. Never been on a hydrofoil bigger than a rave...but there are ones out there. Have been on a hundred boats with 25-72 inch props and had to chain them down many times to prevent damage to the gears. As I said the power is massive and you had better have heavy chains and binders. Joe You are undoubtedly correct in that big props turn bigger load but equally have large drag factors. Unfortunately there is no magic. You want to generate a lot of energy at sail boat speeds 7 - 8 knots and you are going to have a substantial amount of drag, which, of course, slows the boat and requires a larger prop to generate the same power, which slows the boat...... If the hull speed is 11 kts ..it's eleven knots even with a bobulious bow. So lets say you have a 15% drag, you hoist 20% more canvas. Joe Do you really not understand what is written or is it deliberate. I didn't say that the bulb bow increases speed, I said that it decreased drag. Damn, it is even right up at the top of the part of my message that you have included. However, if you don't understand here is a quote from the Wiki, which I might add, is freely available to anyone that cares to look. A bulbous bow is a protruding bulb at the bow (or front) of a ship just below the waterline. The bulb modifies the way the water flows around the hull, reducing drag and thus increasing speed, range, fuel efficiency, and stability. Large ships with bulbous bows generally have a 12 to 15 percent better fuel efficiency than similar vessels without them. Bulbous bows have been found to be most effective under the following conditions: when used on hulls with waterline lengths of more than about 15 m (50 ft) when used on long, narrow hulls when used at speeds close to the vessel's maximum speed These points make them a standard feature for cargo ships, naval vessels and passenger ships, all of which are large, narrow and usually operate within a small range of speeds close to their top speed. On the other hand, they are virtually unknown in recreational craft like yachts, especially sailing vessels and powerboats. Contents [hide] Cheers, Brice |
Hybrid Energy Drive / Eco-Sailing
On Wed, 24 Nov 2010 06:34:55 -0800 (PST), Joe
wrote: On Nov 22, 6:19*pm, Bruce wrote: On Mon, 22 Nov 2010 07:21:00 -0800 (PST), Joe wrote: On Nov 22, 5:10*am, Bruce wrote: On Sun, 21 Nov 2010 22:49:30 -0600, CaveLamb wrote: One of the problems using the engine propeller to turn an alternator is that the prop pitch is all wrong. By 90 degrees, in fact. It works though, witness the bloke I mentioned that had an alternator belted to the propshaft.... just that it doesn't produce much power. Cheers, Brice Why not use stone wheels too Bruce, since you are talking about stone age tech? Using a belt drive and a big alternator is not going to capture much energy anything. Now directly couple a motor/generator that consists of a stator winding employing a high pole count configuration, which allows for high copper utilization (minimizing energy loss and cost), and a hollow rotor upon which powerful rare earth permanent magnets are mounted on the outer circumference coupled to a variable pitch prop system and you can pump out some serious energy. The city buses that are using these moters claim they capture 97% of the kinetic energy developed while stopping. You are comparing apples to oranges. Joe How does, as you say "high copper content" decrease costs? Cheers, Brice- Hide quoted text - - Show quoted text - According to UQM" The stator is affixed to an aluminum housing, which contains mounting end bells and bearings. This allows the rotor to be suspended within the stator. Commutation of the machine is accomplished electronically by sensing the position of the rotor in relation to the stator, and intelligently pulsing electrical energy into the stator such that the electric field generated by the stator interacts with the magnetic field of the rotor producing rotational motion (“motor operation”). Conversely, the application of rotational motion to the rotor by an external force results in the generation of electrical power (“generator operation”). UQM® machines can be operated in either a forward or reverse direction of rotation and either in motor or generator mode and can dynamically change from one mode of operation to another in millisecond response time. The hollow design of the rotor permits the packaging of other components such as gears and electromechanical brakes in the interior of the machine. These design features contribute to lower usage of copper and iron and other materials generally (due to smaller package dimensions), reducing manufacturing cost over those for conventional machines of similar power. In addition, the utilization of neodymium-iron-boron (“NdFeB”) magnet material in a wide range of consumer devices, such as cell phones, disk drives and medical devices, has dramatically improved the availability, performance and price of this material, allowing us to price our advanced motors and controls competitively with lesser performing conventional motors which we believe will accelerate the rate of commercialization of our technology." Joe But.... you stated "high copper utilization" and when I question it you provide a quote that states "lower usage of copper" ??? Utilization: 1. the act of using 2. the state of having been made use of Usage: 1. the act of using Cheers, Brice |
Hybrid Energy Drive / Eco-Sailing
On Nov 24, 6:50*pm, Bruce wrote:
On Wed, 24 Nov 2010 06:12:11 -0800 (PST), Joe wrote: On Nov 23, 4:44 am, Bruce wrote: On Mon, 22 Nov 2010 17:49:24 -0800 (PST), Joe wrote: On Nov 22, 6:39 pm, Bruce wrote: On Mon, 22 Nov 2010 08:54:03 -0800 (PST), Joe wrote: On Nov 22, 9:40 am, Wayne.B wrote: On Mon, 22 Nov 2010 07:21:00 -0800 (PST), Joe wrote: Now directly couple a motor/generator that consists of a stator winding employing a high pole count configuration, which allows for high copper utilization (minimizing energy loss and cost), and a hollow rotor upon which powerful rare earth permanent magnets are mounted on the outer circumference coupled to a variable pitch prop system and you can pump out some serious energy. The city buses that are using these moters claim they capture 97% of the kinetic energy developed while stopping. Regardless of the capture mechanism, even at 100% efficiency, there is only so much energy in a moving column of water and it is not a big number when you are moving at sailing speeds. Now if you could get that same column of water rolling down the side of a 1,000 ft mountain, that's a whole different story. :-) I'm going to have to disagree with you Wayne. The amount of energy coming off a shaft at sailing speed can be huge. The drag can be offset by canvas with ease on a non-planing hull. If you capture 1 rpm of energy for every 4 rmp's generated by sail, and can store that energy you have a system that can work. Now if a bus can capture 97% of the kinetic energy by stopping then why can't a prop do the same ? About the smallest CVP system available is in the high 30's low 40" diameter. You ever chain down a shaft to a 40" prop? You better have some strong chain. http://www.youtube.com/watch?v=6KSnH6DFA94Not quite a 1000 ft drop but plenty of power to harness. Joe Are you normally obtuse, or have you always gotten your technical information from the movies? The Youtube show you recommended states that it is a 200 ton sailing boat. While your reference doesn't indicate the length of the vessel but seems to say that they were doing 9 knots. I found a reference to another 200 ton sailing vessel on the net - it was 138 feet long. The hull speed for a 138 ft. vessel is about 16 knots so your reference was sailing at abut half hull speed (56% actually). Hardly impressive. Hardly, but enough to spin a big prop without much concern of the drag the prop makes.. Are you serious? I've never seen anyone who doesn't care about drag. The largest ships in the world are certainly extremely concerned about it and in fact that is probably the major pitch that the paint companies have when trying to sell to those companies. The Emma Mersk brags about their super slippery paint that saves them 1,200 tons of fuel a year. The funny looking "bulb bow" that you see on most modern shipping is solely to reduce drag. No kidding Bruce. It would be a trade off of drag for energy. On Redcloud she had a 14X14 that was always dragging but she still had no problem getting to hull speed. And, by the bay, how many sailing yachts have you been on that were fitted with a 40 inch propeller? None by the bay;0). Never been on with a CVP propellor, or cort nozzles either. Never been on one with a bow thruster , or forward looking sonar, or a kite drive either. Never been on a hydrofoil bigger than a rave...but there are ones out there. Have been on a hundred boats with 25-72 inch props and had to chain them down many times to prevent damage to the gears. As I said the power is massive and you had better have heavy chains and binders. Joe You are undoubtedly correct in that big props turn bigger load but equally have large drag factors. Unfortunately there is no magic. You want to generate a lot of energy at sail boat speeds 7 - 8 knots and you are going to have a substantial amount of drag, which, of course, slows the boat and requires a larger prop to generate the same power, which slows the boat...... If the hull speed is 11 kts ..it's eleven knots even with a bobulious bow. So lets say you have a 15% drag, you hoist 20% more canvas. Joe Do you really not understand what is written or is it deliberate. I didn't say that the bulb bow increases speed, I said that it decreased drag. Damn, it is even right up at the top of the part of my message that you have included. However, if you don't understand here is a quote from the Wiki, which I might add, is freely available to anyone that cares to look. A bulbous bow is a protruding bulb at the bow (or front) of a ship just below the waterline. The bulb modifies the way the water flows around the hull, reducing drag and thus increasing speed, range, fuel efficiency, and stability. Large ships with bulbous bows generally have a 12 to 15 percent better fuel efficiency than similar vessels without them. Bulbous bows have been found to be most effective under the following conditions: when used on hulls with waterline lengths of more than about 15 m (50 ft) when used on long, narrow hulls when used at speeds close to the vessel's maximum speed These points make them a standard feature for cargo ships, naval vessels and passenger ships, all of which are large, narrow and usually operate within a small range of speeds close to their top speed. On the other hand, they are virtually unknown in recreational craft like yachts, especially sailing vessels and powerboats. Contents [hide] Cheers, Brice- Hide quoted text - - Show quoted text - On purpose Brice, If parasitic drag of a prop cost you no fuel then what's the issue? They put b bow's on ships to reduce fuel costs. The goal is zero emissions, not top speed.. Joe |
Hybrid Energy Drive / Eco-Sailing
On Nov 24, 6:57*pm, Bruce wrote:
On Wed, 24 Nov 2010 06:34:55 -0800 (PST), Joe wrote: On Nov 22, 6:19 pm, Bruce wrote: On Mon, 22 Nov 2010 07:21:00 -0800 (PST), Joe wrote: On Nov 22, 5:10 am, Bruce wrote: On Sun, 21 Nov 2010 22:49:30 -0600, CaveLamb wrote: One of the problems using the engine propeller to turn an alternator is that the prop pitch is all wrong. By 90 degrees, in fact. It works though, witness the bloke I mentioned that had an alternator belted to the propshaft.... just that it doesn't produce much power.. Cheers, Brice Why not use stone wheels too Bruce, since you are talking about stone age tech? Using a belt drive and a big alternator is not going to capture much energy anything. Now directly couple a motor/generator that consists of a stator winding employing a high pole count configuration, which allows for high copper utilization (minimizing energy loss and cost), and a hollow rotor upon which powerful rare earth permanent magnets are mounted on the outer circumference coupled to a variable pitch prop system and you can pump out some serious energy. The city buses that are using these moters claim they capture 97% of the kinetic energy developed while stopping. You are comparing apples to oranges. Joe How does, as you say "high copper content" decrease costs? Cheers, Brice- Hide quoted text - - Show quoted text - According to UQM" The stator is affixed to an aluminum housing, which contains mounting end bells and bearings. This allows the rotor to be suspended within the stator. Commutation of the machine is accomplished electronically by sensing the position of the rotor in relation to the stator, and intelligently pulsing electrical energy into the stator such that the electric field generated by the stator interacts with the magnetic field of the rotor producing rotational motion ( motor operation ). Conversely, the application of rotational motion to the rotor by an external force results in the generation of electrical power ( generator operation ). UQM machines can be operated in either a forward or reverse direction of rotation and either in motor or generator mode and can dynamically change from one mode of operation to another in millisecond response time. The hollow design of the rotor permits the packaging of other components such as gears and electromechanical brakes in the interior of the machine. These design features contribute to lower usage of copper and iron and other materials generally (due to smaller package dimensions), reducing manufacturing cost over those for conventional machines of similar power. In addition, the utilization of neodymium-iron-boron ( NdFeB ) magnet material in a wide range of consumer devices, such as cell phones, disk drives and medical devices, has dramatically improved the availability, performance and price of this material, allowing us to price our advanced motors and controls competitively with lesser performing conventional motors which we believe will accelerate the rate of commercialization of our technology." Joe But.... you stated "high copper utilization" and when I question it you provide a quote that states "lower usage of copper" ??? Utilization: *1. the act of using *2. the state of having been made use of Usage: *1. the act of using Cheers, Brice- Hide quoted text - - Show quoted text - Ever hear of doing more with less? Same thing. let me quote Utilization: 1. the act of using 2. the state of having been made use of Usage: 1. the act of using Joe |
Hybrid Energy Drive / Eco-Sailing
On Thu, 25 Nov 2010 07:50:21 +0700, Bruce
wrote: On Wed, 24 Nov 2010 06:12:11 -0800 (PST), Joe wrote: If the hull speed is 11 kts ..it's eleven knots even with a bobulious bow. So lets say you have a 15% drag, you hoist 20% more canvas. Joe Do you really not understand what is written or is it deliberate. I didn't say that the bulb bow increases speed, I said that it decreased drag. Damn, it is even right up at the top of the part of my message that you have included. However, if you don't understand here is a quote from the Wiki, which I might add, is freely available to anyone that cares to look. A bulbous bow is a protruding bulb at the bow (or front) of a ship just below the waterline. The bulb modifies the way the water flows around the hull, reducing drag and thus increasing speed, range, fuel efficiency, and stability. Large ships with bulbous bows generally have a 12 to 15 percent better fuel efficiency than similar vessels without them. Bulbous bows have been found to be most effective under the following conditions: when used on hulls with waterline lengths of more than about 15 m (50 ft) when used on long, narrow hulls when used at speeds close to the vessel's maximum speed These points make them a standard feature for cargo ships, naval vessels and passenger ships, all of which are large, narrow and usually operate within a small range of speeds close to their top speed. On the other hand, they are virtually unknown in recreational craft like yachts, especially sailing vessels and powerboats. Contents [hide] Cheers, Brice I think what Joe was saying is that if hull speed is reached under less than full sail, more sail can compensate for any generator drag so hull speed is still maintained. Basically excess and wasted wind is utilized to generate power. I don't know how common or what percentage of time a sail boat moves at hull speed with less than full sail, but it seems a good point to make. Bulbous bows have nothing to do with that. --Vic |
Hybrid Energy Drive / Eco-Sailing
On Wed, 24 Nov 2010 17:28:59 -0800 (PST), Joe
wrote: On Nov 24, 6:57*pm, Bruce wrote: On Wed, 24 Nov 2010 06:34:55 -0800 (PST), Joe wrote: On Nov 22, 6:19 pm, Bruce wrote: On Mon, 22 Nov 2010 07:21:00 -0800 (PST), Joe wrote: On Nov 22, 5:10 am, Bruce wrote: On Sun, 21 Nov 2010 22:49:30 -0600, CaveLamb wrote: One of the problems using the engine propeller to turn an alternator is that the prop pitch is all wrong. By 90 degrees, in fact. It works though, witness the bloke I mentioned that had an alternator belted to the propshaft.... just that it doesn't produce much power. Cheers, Brice Why not use stone wheels too Bruce, since you are talking about stone age tech? Using a belt drive and a big alternator is not going to capture much energy anything. Now directly couple a motor/generator that consists of a stator winding employing a high pole count configuration, which allows for high copper utilization (minimizing energy loss and cost), and a hollow rotor upon which powerful rare earth permanent magnets are mounted on the outer circumference coupled to a variable pitch prop system and you can pump out some serious energy. The city buses that are using these moters claim they capture 97% of the kinetic energy developed while stopping. You are comparing apples to oranges. Joe How does, as you say "high copper content" decrease costs? Cheers, Brice- Hide quoted text - - Show quoted text - According to UQM" The stator is affixed to an aluminum housing, which contains mounting end bells and bearings. This allows the rotor to be suspended within the stator. Commutation of the machine is accomplished electronically by sensing the position of the rotor in relation to the stator, and intelligently pulsing electrical energy into the stator such that the electric field generated by the stator interacts with the magnetic field of the rotor producing rotational motion ( motor operation ). Conversely, the application of rotational motion to the rotor by an external force results in the generation of electrical power ( generator operation ). UQM machines can be operated in either a forward or reverse direction of rotation and either in motor or generator mode and can dynamically change from one mode of operation to another in millisecond response time. The hollow design of the rotor permits the packaging of other components such as gears and electromechanical brakes in the interior of the machine. These design features contribute to lower usage of copper and iron and other materials generally (due to smaller package dimensions), reducing manufacturing cost over those for conventional machines of similar power. In addition, the utilization of neodymium-iron-boron ( NdFeB ) magnet material in a wide range of consumer devices, such as cell phones, disk drives and medical devices, has dramatically improved the availability, performance and price of this material, allowing us to price our advanced motors and controls competitively with lesser performing conventional motors which we believe will accelerate the rate of commercialization of our technology." Joe But.... you stated "high copper utilization" and when I question it you provide a quote that states "lower usage of copper" ??? Utilization: *1. the act of using *2. the state of having been made use of Usage: *1. the act of using Cheers, Brice- Hide quoted text - - Show quoted text - Ever hear of doing more with less? Same thing. let me quote Utilization: 1. the act of using 2. the state of having been made use of Usage: 1. the act of using Joe I see. In your world High Utilization" means less. You really are a piece of work aren't you. Cheers, Brice |
Hybrid Energy Drive / Eco-Sailing
On Wed, 24 Nov 2010 19:50:37 -0600, Vic Smith
wrote: On Thu, 25 Nov 2010 07:50:21 +0700, Bruce wrote: On Wed, 24 Nov 2010 06:12:11 -0800 (PST), Joe wrote: If the hull speed is 11 kts ..it's eleven knots even with a bobulious bow. So lets say you have a 15% drag, you hoist 20% more canvas. Joe Do you really not understand what is written or is it deliberate. I didn't say that the bulb bow increases speed, I said that it decreased drag. Damn, it is even right up at the top of the part of my message that you have included. However, if you don't understand here is a quote from the Wiki, which I might add, is freely available to anyone that cares to look. A bulbous bow is a protruding bulb at the bow (or front) of a ship just below the waterline. The bulb modifies the way the water flows around the hull, reducing drag and thus increasing speed, range, fuel efficiency, and stability. Large ships with bulbous bows generally have a 12 to 15 percent better fuel efficiency than similar vessels without them. Bulbous bows have been found to be most effective under the following conditions: when used on hulls with waterline lengths of more than about 15 m (50 ft) when used on long, narrow hulls when used at speeds close to the vessel's maximum speed These points make them a standard feature for cargo ships, naval vessels and passenger ships, all of which are large, narrow and usually operate within a small range of speeds close to their top speed. On the other hand, they are virtually unknown in recreational craft like yachts, especially sailing vessels and powerboats. Contents [hide] Cheers, Brice I think what Joe was saying is that if hull speed is reached under less than full sail, more sail can compensate for any generator drag so hull speed is still maintained. Basically excess and wasted wind is utilized to generate power. I don't know how common or what percentage of time a sail boat moves at hull speed with less than full sail, but it seems a good point to make. Bulbous bows have nothing to do with that. --Vic Certainly. However what portion of the time does the boat move at less then hull speed with all the sails up? And yes, I've seen boats built with more sail area then one might think logical, usually because the owner wanted thicker (and thus heavier) hull plating. But there is another problem with having all that top hamper. What do you do if it comes up a real blow? The square riggers sent down their topmasts in a blow but it is hardly feasible on a single handed yacht. The weight of the mast and rigging does have an effect on the boat's righting moment. Cheers, Brice |
Hybrid Energy Drive / Eco-Sailing
On Nov 25, 4:47*am, Bruce wrote:
On Wed, 24 Nov 2010 17:28:59 -0800 (PST), Joe wrote: On Nov 24, 6:57 pm, Bruce wrote: On Wed, 24 Nov 2010 06:34:55 -0800 (PST), Joe wrote: On Nov 22, 6:19 pm, Bruce wrote: On Mon, 22 Nov 2010 07:21:00 -0800 (PST), Joe wrote: On Nov 22, 5:10 am, Bruce wrote: On Sun, 21 Nov 2010 22:49:30 -0600, CaveLamb wrote: One of the problems using the engine propeller to turn an alternator is that the prop pitch is all wrong. By 90 degrees, in fact. It works though, witness the bloke I mentioned that had an alternator belted to the propshaft.... just that it doesn't produce much power. Cheers, Brice Why not use stone wheels too Bruce, since you are talking about stone age tech? Using a belt drive and a big alternator is not going to capture much energy anything. Now directly couple a motor/generator that consists of a stator winding employing a high pole count configuration, which allows for high copper utilization (minimizing energy loss and cost), and a hollow rotor upon which powerful rare earth permanent magnets are mounted on the outer circumference coupled to a variable pitch prop system and you can pump out some serious energy. The city buses that are using these moters claim they capture 97% of the kinetic energy developed while stopping. You are comparing apples to oranges. Joe How does, as you say "high copper content" decrease costs? Cheers, Brice- Hide quoted text - - Show quoted text - According to UQM" The stator is affixed to an aluminum housing, which contains mounting end bells and bearings. This allows the rotor to be suspended within the stator. Commutation of the machine is accomplished electronically by sensing the position of the rotor in relation to the stator, and intelligently pulsing electrical energy into the stator such that the electric field generated by the stator interacts with the magnetic field of the rotor producing rotational motion ( motor operation ). Conversely, the application of rotational motion to the rotor by an external force results in the generation of electrical power ( generator operation ). UQM machines can be operated in either a forward or reverse direction of rotation and either in motor or generator mode and can dynamically change from one mode of operation to another in millisecond response time. The hollow design of the rotor permits the packaging of other components such as gears and electromechanical brakes in the interior of the machine. These design features contribute to lower usage of copper and iron and other materials generally (due to smaller package dimensions), reducing manufacturing cost over those for conventional machines of similar power. In addition, the utilization of neodymium-iron-boron ( NdFeB ) magnet material in a wide range of consumer devices, such as cell phones, disk drives and medical devices, has dramatically improved the availability, performance and price of this material, allowing us to price our advanced motors and controls competitively with lesser performing conventional motors which we believe will accelerate the rate of commercialization of our technology." Joe But.... you stated "high copper utilization" and when I question it you provide a quote that states "lower usage of copper" ??? Utilization: 1. the act of using 2. the state of having been made use of Usage: 1. the act of using Cheers, Brice- Hide quoted text - - Show quoted text - Ever hear of doing more with less? Same thing. let me quote Utilization: *1. the act of using *2. the state of having been made use of Usage: *1. the act of using Joe I see. In your world High Utilization" means less. You really are a piece of work aren't you. Cheers, Brice- Hide quoted text - - Show quoted text - Hello Brice, Don't go getting your panties in a wad, sheeeze High utilation can mean less. Let me give you an example. THE GOAL You want to gold plate as much as possiable but only have one ounce of gold. OPTION 1 You plate the item only 1/1000th of an inch think. You have a "high utilization" of the gold and can cover a very large area. You can even keep a gram of gold for the effort. OPTION 2 Now if you take the same one ounce of gold and make the plating 1/8 of an inch thick you cover less and do not have a very "high utilization" of the gold, Both options use one ounce of gold, yet one has a higher "utilization" of the gold but accomplish the same goal of plating a item. Back to permanent magnet DC motors that you have a hard time understanding the Architecture. The goal is to get more energy by getting a "higher utilization" from the same copper Now with permanent magnet DC motors the new technology consists of a stator winding employing a high pole count configuration, which allows for high copper utilization (minimizing energy loss and cost), Where the old DC perm magnet moters have less poles and big bulky copper windings that get less energy from the same amount of copper used. The increased number of poles makes the magic happen more often, and the improved magnets make it happen bigger. Perhaps you have a hard time with the english, this may help. http://www.youtube.com/watch?v=BBvGh...eature=related Happy Thanksgiving! Joe |
Hybrid Energy Drive / Eco-Sailing
On Nov 25, 4:56*am, Bruce wrote:
On Wed, 24 Nov 2010 19:50:37 -0600, Vic Smith wrote: On Thu, 25 Nov 2010 07:50:21 +0700, Bruce wrote: On Wed, 24 Nov 2010 06:12:11 -0800 (PST), Joe wrote: If the hull speed is 11 kts ..it's eleven knots even with a bobulious bow. So lets say you have a 15% drag, you hoist 20% more canvas. Joe Do you really not understand what is written or is it deliberate. I didn't say that the bulb bow increases speed, I said that it decreased drag. Damn, it is even right up at the top of the part of my message that you have included. However, if you don't understand here is a quote from the Wiki, which I might add, is freely available to anyone that cares to look. A bulbous bow is a protruding bulb at the bow (or front) of a ship just below the waterline. The bulb modifies the way the water flows around the hull, reducing drag and thus increasing speed, range, fuel efficiency, and stability. Large ships with bulbous bows generally have a 12 to 15 percent better fuel efficiency than similar vessels without them. Bulbous bows have been found to be most effective under the following conditions: when used on hulls with waterline lengths of more than about 15 m (50 ft) when used on long, narrow hulls when used at speeds close to the vessel's maximum speed These points make them a standard feature for cargo ships, naval vessels and passenger ships, all of which are large, narrow and usually operate within a small range of speeds close to their top speed. On the other hand, they are virtually unknown in recreational craft like yachts, especially sailing vessels and powerboats. Contents [hide] Cheers, Brice I think what Joe was saying is that if hull speed is reached under less than full sail, more sail can compensate for any generator drag so hull speed is still maintained. Basically excess and wasted wind is utilized to generate power. I don't know how common or what percentage of time a sail boat moves at hull speed with less than full sail, but it seems a good point to make. Bulbous bows have nothing to do with that. --Vic Certainly. However what portion of the time does the boat move at less then hull speed with all the sails up? Ohh so if you are not at hull speed then you can not compensate for the drag using more sail even if you are sailing slower than hull speed And yes, I've seen boats built with more sail area then one might think logical, usually because the owner wanted thicker (and thus heavier) hull plating. So he used more sail to compensate for the increased drag/load....what a crazy ideal. But there is another problem with having all that top hamper. What do you do if it comes up a real blow? Geeeze, reef and furl..They even have these new fangled things that can just roll up the sails. The square riggers sent down their topmasts in a blow but it is hardly feasible on a single handed yacht. The Maltise facon, the largest private sailing yacht in the world has it sails furled by one person pushing a button. The weight of the mast and rigging does have an effect on the boat's righting moment. Ever hear of that stuff called ballast? Are batteries heavy? Joe Cheers, Brice- Hide quoted text - - Show quoted text - |
Hybrid Energy Drive / Eco-Sailing
Check out
http://www.cruisersforum.com/forums/...est-37969.html It's a lot of posts on the Cape Town to Brittany test. The boat had 1,600 Watts of solar panels, a wind gen and a 22KW diesel generator. The African Cats poster also stated, "Regeneration with the motors/generators will be done as minimal as possible in order to keep the best average speed." There's about 9 pages of posts and it seems the solar was king, with diesel coming in second. Rick |
Hybrid Energy Drive / Eco-Sailing
On Nov 22, 8:37*pm, Wayne.B wrote:
On Mon, 22 Nov 2010 17:49:24 -0800 (PST), Joe wrote: Have been on a hundred boats with 25-72 inch props and had to chain them down many times to prevent damage to the gears. As I said the power is massive and you had better have heavy chains and binders. Joe, my trawler has 30 inch, 4 bladed props on 2 1/2 shafts. * Can you suggest a procedure for safely binding/chaining a shaft while underway? * I was thinking about something like 3 or 4 loops of 1 inch line terminating in a block and tackle lead to an overhead beam. While underway...No Stopped you can wrap it 7 times and bind it with a heavy chain and a proper binder. Just be careful to bind both ways I would look for something else besides the overhead beam, like a stringer. We always had big steel or aluminum T stringers on both sides of the gear boxes and shaft tubes. Without seeing the set-up it's hard to give any advice. Do you have a picture on the web anywhere? Joe |
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