
What is the Effect of Hydrodynamic Stabilizers on Fuel Consumption and Speed
A hydrodynamic stabilizer is a "wing" that is attached to boat engines (both outboard and inboard) to help the boat glide.
The principle of operation is identical to the way airplane wings work; in practical terms, the water circulating in the upper part of the stabilizer flows faster than the water passing under it. This creates less pressure on the stabilizer, and the engine rises, causing the boat to glide. The faster it moves, the more it rises.
Using a Hydrodynamic Stabilizer
The most common problem solved by installing a hydrodynamic stabilizer is caused by weight distribution in the boat. Usually, the heaviest weight is at the stern due to the engine, fuel reserves, luggage, or (depending on the boat) passengers, so the boat "rides" with the bow very high, reducing its performance and limiting the driver's visibility.
By fitting a hydrodynamic stabilizer, the boat balances more quickly with the stern raised to about the same level as the bow, increasing comfort and efficiency.
Another very common problem that occurs with many boats (usually too heavily powered for the current load) is that the bow lifts a lot and then sinks again. This results in a very uncomfortable ride, loss of maneuverability, and loss of speed. The hydrodynamic stabilizer solves this problem by constantly lifting the stern and balancing the boat.
Depending on the weight of the boat, the engine can rise, which can radically reduce the performance of the engine or even cause major damage to it. A hydrodynamic stabilizer naturally increases the surface area of the cavitation plate and does not allow (as much as possible) the propeller to trap air.
Through all these improvements, the hydrodynamic stabilizer increases efficiency and reduces fuel consumption (sometimes by as much as 50%). It balances the boat and provides a comfortable ride (even on rough water), helps the boat glide and accelerate faster, and increases the speed.
Fuel is saved because the boat glides faster and therefore encounters less water resistance. Installing a stabilizer keeps the boat planning with fewer revolutions per minute of the engine, requiring less fuel. By eliminating aeration and ensuring the boat moves smoothly, the hydrodynamic stabilizer further reduces consumption.
The increase in speed is partly due to the easier handling and improved balance of the boat (by eliminating the front-back or left-right balance) and by directing the water jet produced by the propeller at a sharper angle.
How to install a Hydrodynamic Stabilizer
Most hydrodynamic stabilizers are installed by drilling the cavitation plate (a process that takes a maximum of half an hour) and attaching the stabilizer to it with 4 screws. The effect is immediate, and the engine can just as easily be sold with it fitted.
This is a quick and cheap solution (especially as it pays for itself in fuel savings) to the problems that many enthusiasts have.