rudder alignment
Posted: Wed Jun 15, 2011 8:47 pm
Found this online, interesting way to align the rudders. I might try the free flow method:
A: Your friend is correct in that tweaking the alignment of your rudders can add speed to your boat. However, improperly done, this tweaking can also hinder your boat. Misaligned rudders produce drag and affect trim levels at speed, creating larger wakes and turning radius.
There are two procedures that can make existing rudders more efficient when running straight ahead or when turning.
As a boat moves forward through the water, many assume that the water underneath the hull is running parallel to the centerline of the boat; hence, in line with the rudder blades. If your boat has any degree of deadrise at the transom, this is not true. If you were to follow an air bubble under the boat at centerline, it would travel outward toward the chine, climbing up the deadrise - certainly not parallel to
centerline.
The only way to align your rudders with the flow of the water is to let them flow free at speed. This is done by running the boat straight ahead in smooth, open water and disconnecting one end of the tie bar. The disconnected rudder now has the freedom to find its own "free-flow" position. When this balance is found, adjust the tie bar end and reconnect. Do the same to the other rudder and you will have balanced rudders when you need them most ... at speed.
A second procedure to improve the turning performance of your rudders is an adjustment to your tiller arms. This, unfortunately, is not as simple as the previously mentioned fix. It has been found over the years that if the tiller arms (not the rudders) are "toed in" roughly 8 to 10 degrees from centerline, the rudders will be more effective in turns. The reason lies in the geometry of the arrangement. When your boat turns, you are following an arc circle. As you travel through this arc, one rudder will be closer to the center than the other. Therefore, the inboard rudder should follow a tighter radius than the outboard rudder. Simply put, with this toed-in arrangement of the tiller arms, the inboard rudder of a given direction (port or starboard) will turn sharper, following a path closer to the actual radius of the turn, producing
less drag.
This procedure, however, will more than likely involve either machining a new keyway or replacing the tiller arms altogether. Contact a qualified marine facility for more information.
- Robert Ullberg,
Ullberg Yacht Design
A: Your friend is correct in that tweaking the alignment of your rudders can add speed to your boat. However, improperly done, this tweaking can also hinder your boat. Misaligned rudders produce drag and affect trim levels at speed, creating larger wakes and turning radius.
There are two procedures that can make existing rudders more efficient when running straight ahead or when turning.
As a boat moves forward through the water, many assume that the water underneath the hull is running parallel to the centerline of the boat; hence, in line with the rudder blades. If your boat has any degree of deadrise at the transom, this is not true. If you were to follow an air bubble under the boat at centerline, it would travel outward toward the chine, climbing up the deadrise - certainly not parallel to
centerline.
The only way to align your rudders with the flow of the water is to let them flow free at speed. This is done by running the boat straight ahead in smooth, open water and disconnecting one end of the tie bar. The disconnected rudder now has the freedom to find its own "free-flow" position. When this balance is found, adjust the tie bar end and reconnect. Do the same to the other rudder and you will have balanced rudders when you need them most ... at speed.
A second procedure to improve the turning performance of your rudders is an adjustment to your tiller arms. This, unfortunately, is not as simple as the previously mentioned fix. It has been found over the years that if the tiller arms (not the rudders) are "toed in" roughly 8 to 10 degrees from centerline, the rudders will be more effective in turns. The reason lies in the geometry of the arrangement. When your boat turns, you are following an arc circle. As you travel through this arc, one rudder will be closer to the center than the other. Therefore, the inboard rudder should follow a tighter radius than the outboard rudder. Simply put, with this toed-in arrangement of the tiller arms, the inboard rudder of a given direction (port or starboard) will turn sharper, following a path closer to the actual radius of the turn, producing
less drag.
This procedure, however, will more than likely involve either machining a new keyway or replacing the tiller arms altogether. Contact a qualified marine facility for more information.
- Robert Ullberg,
Ullberg Yacht Design