The Basic Concepts of RoRo Vessel’s Stability and Similarities with Archimedes’ Principle of Buoyancy

1. The Basic Concepts of RoRo Vessel’s Stability and Similarities with Archimedes’ Principle of Buoyancy From the viewpoint of a naval architect, possibly the most crucial aspect of sailing a ship is its stability. Also for the sake of human safety, it is worth understanding the basic concept of stability. With deficient stability, the vessel may not be capable of returning to its upright position heeling to the side. Due to this reason, the vessel may flip or roll over. Therefore, stability can be simply defined as the vessel’s capability to upright itself heeling. Many of the newer vessels were constructed with lightweight materials and with broader and flatter midsections to get more speed while sailing. Unfortunately, these designing trends didn’t run long and proved to be fatal for sailors, crew members or the passengers. Studies have found out that the heavier construction materials and narrower mid- section enhance better performance and prevent the ship from flipping over. Too much free surface in tanks can also lead to instability. Ability to Upright After Heeling The centre of gravity and the centre of buoyancy are on the same line, perpendicularly above the keel, when the vessel in floating upright in still water at equilibrium. The centre of gravity does not change by an external force. The

2. force of gravity goes downward vertically through the centre of gravity. The centre of buoyancy moves to a new position, being the geometric centre of the underwater section. The force of buoyancy is equivalent to the force of gravity and acts vertically upward through the new centre of buoyancy. The force acts in returning the ship to the upright position is the weight of the ship that acts downward through the product of the centre of gravity and the righting lever. This is known as the moment of static stability. The centre of gravity of the vessel has a different effect on the righting lever and is linked to the ability of the ship to return to the upright position. The centre of gravity is inversely proportional to the righting lever. Evaluating the weight components and distribution Naturally, every weight component contributes automatically to the total weight. Every weight has its own centre and when combined together, all the weights will have a combined centre. In any circumstances, the weight component of a floating vessel is working vertically downwards through its vertical centre of gravity. It greatly depends on the weight distribution of the vessel. The buoyancy force from the water acts through the ship’s vertical centre of buoyancy, with equal force and in the opposite direction. The vertical centre of buoyancy is located in the vessel’s submerged volume. Determination of the rocking point or transverse metacenter The metacentre is regarded as something similar to the pivot point when a vessel is leaning at small angles of heel. Transverse metacentre is also known as rocking point. The first thing that is required to be found out is the distance from the centre of buoyancy to the keel of the vessel. Next, one has to compute the volume of the vessel, and transverse moment of inertia. There are mathematical formulas to calculate these values easily. This helps in designing the vessel. All commercial ships have a trim and stability calculations booklet. The stability manual is approved by the Society, containing information to enable the Master to look after the functionalities of the ship in compliance with the appropriate requirement included in the Rules. Based on the type of the ship and operation, the information included and the format of the stability booklet varies greatly. When you go to purchase RoRo vessels for sale, do contact an esteemed ship broker as it assures the vessels are designed correctly and provide utmost stability. In order to avoid being a victim of ship roll over, it is crucial to understand the basic concepts of stability, which is based on the Archimedes’ Principle of Buoyancy. ===================== NORWEGIAN SHIP SALES AS Raadmann Halmrasts Vei 18 1337 Sandvika, Norway Phone Numbers: +47 6754 1925 / + 47 9177 6183 Website: www.norshipsale.com Email ID: o.jebsen@norshipsale.no, info@norshipsale.no