design study for the transportation of heavy cargo...
TRANSCRIPT
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Design study for the transportation of heavy cargo on Hatch cover of a MPV
Supervisors : Dr.-Ing. Thomas Lindemann (URO) Mr. Jonathan Schmidt Dipl.-Ing. (SAL Heavy lift GmbH)
Mr. Arthur Stuckert Dipl.-Ing. (SAL Heavy lift GmbH)
EMship Master Thesis
Abhishek Kumar
01.02.2018 1
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Goal
Background PK116 Offshore equipment Scandinavian region Good Performance
To Propose a design for the stanchion(pillar) assembly between weather deck and tanktop
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Study of class rules (GL)
Whole vessel modelling
Wave load Analysis
FE- Model Preparation
Proposed design of Stanchion assemply
Global Strength Evaluation Final design of Stanchion
Trusses
Mass Distribution
Overview
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Loading conditions
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Structural Modelling GL-Poseidon
Material Properties
Major Functional element
Holes and cutouts
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FE Model Preparation – Whole vessel
No. of Nodal points - 131676
FEA software - Poseidon
In Cargo hold region
- Minimum mesh size – 350 mm
- Maximum mesh size – 700 mm
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Hatch Cover FE Model Preparation
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Hatch cover securing in x direction at port side
Mesh size – 500 mm
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Proposed design of Stanchion Assembly
Between Hatch cover and tank top Material properties Stanchion (pillar) Trusses Upper and lower Platform
Stanchion truss Lower platform
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Upper platform
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Modelling of Cargo/Auxiliary System
Sub -COG
Basement (I Beam)
Stopper in Y direction
Stopper in Z direction 01.02.2018 8
Carousel Assembly
Stopper in X direction
Outer track
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Mass Distribution inside vessel GL- Shipload
Box mass distribution
Nodal mass distribution
Tank mass distributuon
Container mass
Box mass Nodal mass
Tank mass 01.02.2018 9
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Heavy cargo mass on Hatch cover
- Box mass (2800 tons)
Mass Distribution on Top of Hatch cover
Auxiliary system of Heavy cargo load
on top of hatch cover
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Loading conditions and Stability Analysis
Load Master software
Stowage plan
GZ- Curve
GM = 0.92 m
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Critical Wave loading case for Pk-116
Crtical wave loading cases Title Wave
amplitude (m)
Wave direction (°)
Wave phase angle(°)
Velocity (Knots)
Beam sea 9.59 90 216 0 Head sea 5.71 180 216 12.75
Comparison of Acceleration for heavy cargo mass
Title Beam sea(y direction, m/s2)
Head sea(z direction, m/s2)
Octopus 2.61 3.09 Shipload 2.65 3.19 Deviation (%) 1.5 3.2
ABB Octopus
Nodal force generation
Model import for GSA
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Nodal force
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Feasibility Check for Proposed stanchion assembly design
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Results obtained
Item Load case
Direction Maximum load (KN)
Stanchion Truss
Head sea
Z direction
-1295
Carousel Basement
Beam sea
Y direction
3264
Hatch cover securing system
Head sea
Z direction
-1600
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Results of GSA
Scale factor - 50
Head Sea was more critical
Average deformation was
40-50 mm measured on
model scale
Deformation check of Vessel
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Knuckle formation
Sagging
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High Yield stress check
Results of GSA
High stress area on Hatch cover
girder in Head sea case
High stress area on Deck-A in
Beam sea case
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Results of GSA Buckling check
Displacement method
DECK- A, high stress zone
Frame -76 High stress zone in
red color
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Final Design of Stanchion Truss
Required Scantling area of stanchion truss was
calculated using GL Rules
Final scantling area to be implemented inside
the model – 47.4 cm2
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Maximum normal stress
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Conclusion Proposed design of stanchion assembly was very efficient and transfers about 50
% load from weather deck area to the tank top area in head sea case and about 55% load in beam sea case. The final design value for the stanchion truss and its capability to transfer load
from top to bottom was very good and it can be considered for the real implementation in the future.
Double bottom of the vessel was able to withstand heavy loading from stanchion
truss without showing any high stress areas.
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Thank you !