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Principles of Stability

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Principles of Stability References INE: Ch 22 (389-400) INE: Ch 23 ... Point at which ship trims about Cross Curves of Stability Takes a probable range of drafts ... – PowerPoint PPT presentation

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Title: Principles of Stability


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Principles of Stability
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References
  • INE Ch 22 (389-400)
  • INE Ch 23 (401-402, 409)
  • PNE Ch 3 (1-10)
  • HW LG 24

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Principles of Stability
  • Gravity
  • Force exerted on a body drawing towards the
    center of the earth. Acts through center of
    gravity (G)
  • Buoyancy
  • An object floating in liquid displaces a volume
    of liquid equal to the submerged volume of the
    object. This exerts a pressure on all surfaces of
    the object resulting in a force opposing gravity
    through the center of buoyancy (B)

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Principles of Stability
  • Archimedes Principle
  • object submerged in fluid is buoyed up by a force
    equal to the weight it displaces
  • Displacement
  • Weight of ship equal to weight of water displaced
    by volume of underwater body of ship
  • W V x 1/35
  • Displacement depends on density of water (salt vs
    fresh)

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Displacement Curve Plots draft vs
displacement for a particular ship
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Vocabulary
  • Draft how far your boat is in the water,
    measured in ft or yds
  • Freeboard what is left above water (rough
    measure of reserve buoyancy)
  • Depth of hull gunwale to keel
  • Reserve buoyancy volume of the watertight
    portion of ship above waterline

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FREEBOARD
WATERLINE
RESERVE BUOYANCY
DEPTH OF HULL
DRAFT
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Reference Points
  • Keel (K) bottom line of ship, base line
  • Center of buoyancy (B) single force that acts
    vertically upward. Located at geometric center
    of underwater body. Moves as ship heels
  • Center of gravity (G) single force that acts
    vertically downward. Located at geometric center
    of ship. Does not move as ship heels

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Reference Points (cont)
  • When at rest, B and G lie on same vertical line.
  • Metacenter (M) intersection of two lines of
    action of B as ship heels

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Terms
  • Metacentric Height - GM
  • measure of stability
  • Righting Arm (GZ)
  • Perpendicular distance between the lines of
    action between the two forces
  • GZ GM (sin (F))

B
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Terms
  • Couple
  • Two forces of equal magnitude acting in opposite
    and parallel directions produce a rotation motion
  • Created when ship heels and Buoyant force and
    Gravity are no longer in line with each other
  • When inclining a ship, this couple produces
    either a righting moment or an upsetting moment
    depending on the relative location of B and G
  • RM W x GZ

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Linear Measurements
  • KG height of center of gravity above keel
  • GM Metacentric height (measure of initial
    stability to 7 degrees, after that we use
    stability curve)

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States of Stability
  • Positive M above G
  • Neutral M and G same position
  • Negative M below G
  • GM used as a measure of stability up to 7º, after
    that values of GZ are plotted at successive
    angles to create the stability curve

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Stability Curve (Cont)
  • Effects of draft on righting arm
  • Righting arms (GZ) decrease
  • Displacement (W) increases
  • Righting moment overall may increase or decrease.
    Function of hull shape, magnitude of
    displacement change

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Effect Of Draft On Righting Arm
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Definitions
  • Roll Back/forth motion transversely
  • Pitch Back/forth motion longitudinally
  • Yaw Side to Side
  • List Difference between Port and Stbd draft
  • Trim Difference between fwd/aft draft
  • Center of Flotation Point at which ship trims
    about

21
Cross Curves of Stability
  • Takes a probable range of drafts (displacements)
  • For each draft, GZ value calculated
  • Calculations made over various angles of heel
  • Data all plotted on Cross Curves of Stability

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Stability Curves
  • A plotted series of GZ values at successive
    angles
  • Factors
  • G does not change position as heeling angle
    changes
  • B is always at the geometric center of the volume
    of the underwater hull
  • The shape of the underwater hull changes as
    heeling angle changes

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Effects of Weight Shifts
  • Weight shifts effect Center of Gravity (G)
  • Shift of G will be in same direction of weight
    shift (vertical, horizontal, fore/aft)
  • GG1 (w) (s) / W
  • GG1 Distance of shift of Center of Gravity
  • w Shifted component weight
  • s Distance component is shifted
  • W Weight of entire system

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Effects of Weight Shifts (cont)
  • Vertical Shifts
  • As G shifts up, for a given angle of heel,
    righting arm decreases (ship less stable)
  • Horizontal Shifts
  • G will shift in the direction of weight shift,
    causing the ship to heel to one side
  • Righting arm is decreased since G is moved from
    centerline toward B

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Free Surface Effect
  • Occurs when a compartment or tank is only
    partially flooded / filled
  • As the ship rocks, water wants to maintain a
    level condition causing sloshing of water
  • As water shifts in direction of heel, Center of
    Gravity shifts thus decreasing the righting arm
  • This effect reduced by pocketing

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Summary
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