What does an increase in free surface moment effect on vessel stability?

An increase in free surface moment has a direct negative impact on vessel stability. This concept is rooted in the principles of hydrostatics and the way liquids behave within a moving vessel.

When a vessel has large amounts of free surface liquid, such as ballast water or oil in partially filled tanks, the liquid can move around freely. This movement creates a ‘free surface effect,’ which can decrease the righting lever (GZ) of the vessel. The righting lever is the distance between the center of gravity (G) and the center of buoyancy (B) at any angle of heel. If the free surface effect is strong enough, it reduces the ability of the vessel to right itself when it leans to one side, thus diminishing stability.

When stability decreases, the vessel is at a higher risk of capsizing, particularly in rough weather or when subjected to external forces. Effective vessel operations require careful management of free surface moments by keeping tanks either full or empty, avoiding partially filled conditions that create instability.

In summary, an increase in free surface moment directly affects the righting lever, leading to a reduction in overall stability, making it crucial for ship operators to understand and mitigate these effects to enhance safety at sea.