Stability

Question 1

How does free surface effect G

Answer 1

It creates a virtual rise in G. See picture

Question 2

What is the angle of lol?

Answer 2

A Vessel with an initial negative GM will become unstable when slightly inclined. The angle of lol is the point to which the vessel heels over where g and b are in equilibrium. The vessel will roll between the LOL angles on either side

Question 3

What is reserve buoyancy and what is the formulae to calculate it.

Answer 3

It is the amount of enclosed watertight space above the water line to the freeboard deck. It provides a safety factor to the vessel in the event of damage. Reserve buoyancy = L x B x Fbd(freeboard = depth - draft) x Cb

Question 4

What is Gross tonnage and Net tonnage?

Answer 4

Gross tonnage is the total of all enclosed space of a vessel. It is a measure of volume and not weight. Net tonnage is the total enclosed space available revenue generating cargo including passengers. This will exclude non-revenue generating areas like bridge, engineering spaces and crew quarters.

Question 5

What is a vessels DEAD WEIGHT and how to work it out?

Answer 5

A vessels total the dead weight is the total weight of cargo it can carry. It is the difference between the loaded Displacement/summer load line (∆) and the Light ship (∆).

Question 6

What is a vessel’s LIGHT SHIP DISPLACEMENT

Answer 6

Light ship is the displacement of the vessel when ready for sea without all stores, fuel, water, person, ballast and cargo. It does include water contained in the boilers if a vessel is equipped.

Question 7

What is the fresh water allowance?

Answer 7

It is the amount that the draught of a vessel will change when a ship passes into fresh water while floating at the loaded draft.

Question 8

What is the centre of buoyancy (b)?

Answer 8

The centre of buoyancy is the point where the force of buoyancy is considered to act vertically upwards with a force equal to the vessels weight of water displaced. It is also the centre of gravity the of the UNDERWATER SECTION of the hull.

Question 9

What is the inclining experiment used for?

Answer 9

In order to do any stability calculations the vessels initial conditions need to be know. Th light ship experiment is used to determine the vessel’s Light ship displacement, VCG (vertical centre of gravity)or KG and the LCG (longitudinal centre of gravity).

Question 10

How is the incline test performed?

Answer 10

The test must be done when the vessel is a close to completed as possible and in its lightest conditions. A Plumb line is positioned along the centre line of the vessel amidships. If additional plumb lines are used then they will be placed forward and aft. These line will hang vertically. Large weight are then moved transversely across the vessel forcing a list. The angle of deflection on the plumb line is measured.

Question 11

What preconditions need to be met before inclining experiment can be conducted.

Answer 11

• No wind, or directly astern or directly ahead.
• Vessel needs to be in lightest condition. Full boilers, no fuel, no stores, no crew, no ballast, no fresh water.
• Vessel to be floating freely and not attached to any other vessel.
• Mooring lines to be slackened as much as possible so that they do not effect the listing of the vessel.
• Deep enough water so that at any point of list the vessel will not touch the bottom.
• Any loose weights need to be secured in position
• No Free-surfaces
• Vessel must be upright.

Question 12

When does an inclining experiment need to be undertaken.

Answer 12

On any newly built vessel and on any vessel that has undergone any substantial modifications.

Question 13

What is trim?

Answer 13

Trim is the difference in draft forward and aft. It is the longitudinal stability of a vessel. If a ships forward draft is deeper than the stern it is said to be “trimmed by the bow” and if it is deeper at the stern it is said to be “trimmed by the stern”. If the vessel draft is equal forward and aft the it is said to be “on an even keel”

Question 14

What is the critical point and critical period

Answer 14

Critrical point is the mooment the stern post of teh vessel takes the first block.

The critical period is the time from the critical point until the vessel has taken all the block.

Question 15

Damage stability requiremnts

Answer 15

1 Compartment flooded waterline no less than 75mm below the freeboard deck/weather deck

The angle from the upright should not exceed 7deg.

At least 15 Degrees of Positive stability

Question 16

Dry docking procedure

Answer 16

Prior to arrival: Send Docking plan, Dockmaster to return Arrival conditions, Ciontact Ingo insurance, class, flag , Managment

Prior to dry docking: Upright, No free surfaces, Trim as required buy the dock master, minimum ballast, No loose equipment on deck, Increase GM. All water tight and bulk head doors closed to ensure continuity of strength through vessels length. Conditions need to be recorded so vessel can be refloated with same characteristics.

Risk Assesment, Pilot, Tug and mooring operations, Weather, Tides.

Metting with dry dock master: Discus dry docking plan which would include the placemnet of blocks and shores, location of any hull protrusions, sea chests, tank plugs and tranducers.

Post lift: Hook up firefighting services, water, electricity

Question 17

What information can be found on the docking plan

Answer 17

Locations of: Beams and Frames, Through hulls, Sea chests, Transducers, Stabilizers, rudded posts, Propellors and shafts, Thrusters, protrusion/

Positions of: Blocks shores

Tank locations

Docking conditions

Question 18

Stability booklet

Answer 18

Vessel over 24m

Gives information of the vessels stability at different loading condition.

Include:

Curves or table of GM vs draught

Data necessary to maintain Stab after damage

Question 19

What is the point of Contraflectioin

Question 20

What type of Load line do yachts have

Answer 20

All season load line

Question 21

Transverse statically stability

Answer 21

The vessels ability to return to upright.

Question 22

LYC Minimums for stability criteria for GZ

Answer 22

GZ min 0.2m at angle greater than 30

Max GZ should occur at no less than 25 deg preferably 30 deg

Question 23

Info from GZ curve

8 Points

Answer 23

GZ any angle of heel

Angle Max GZ

Max GZ

Angle of Vanish Stab

Point of contra-flexion (deck edge immersion)

Range of Satbility

Dynamical Stabuility

Initial GM

Question 24

What is Dynamical stability

Answer 24

Work done to heel a vessel over (area under graph to the angle of heel required)

Question 25

FELIX initial GM

Answer 25

0.735