News & Events

Apr-2010

MBM start to undertake stage 1

for a new build design. i.e. G.A,

Bid preparation and Build cost

analysis

Read More > ---------------------------------------------------------

Mar-2010

MBM undertakes weather route

analysis for a vessel and her cargo

to gain vessel and cargo

accelerations

Read More > ---------------------------------------------------------

Feb-2010

MBM launches new website

Read More > ---------------------------------------------------------

Jan-2010

New naval architecture software

and services within MBM for 2010

Read More > ---------------------------------------------------------

Dec-2009

Strength of MBM enters 2D wire

frame FEA of hatch-covers

Read More > ---------------------------------------------------------

Dec-2009

Large project cargo's are on the

horizon for MBM from the oil

industry

Read More > ---------------------------------------------------------

Dec-2009

Cradle design to transport a 460t

Tug from China

Read More >

---------------------------------------------------------

Sept-2009

Innovative design to transport

windmill towers in upright position

Read More >

 

 

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> Home >> Services >> Naval Architecture >> Stability & Motions Analysis

Stability Analysis.

At MBM we generate the vessel hull form with tanks and compartments to enable both intact and damaged analysis. The environment is predefined to gain results in many formats.

 

Integrated compartment definition.

Complex tanks in the analysis.

Linked tanks and compartment analysis.

Integrated load cases.

Environment options including: grounding, waveform.

Standard and customisable stability criteria.
Example of Hull form with some tanks and compartments in place.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Example of Hull form with some tanks and compartments in place.

 

 

Waveform is defined to gain vessel hydrostatics.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Waveform is defined to gain vessel hydrostatics.

 

 

The Stability analysis is undertaken with a full set of comprehensive methods.

 

Probabilistic damage stability.

Batch analysis for multiple load and damage cases.

Upright hydrostatics.

Large angle stability (GZ / righting lever).

Equilibrium calculations.

KN cross curves.

Limiting KG analysis (maximum VCG).

Floodable length.

Longitudinal strength.

Tank calibration.

Trim & stability booklet.

Loading manual.

Loading manual.

 

Motions Analysis.

The motion analysis is developed from a direct integration from a surface model.

 

Calculation of vessel response amplitude operators.

Calculation of added resistance response and integration of added resistance for specified sea spectrum.

Calculation of motion, velocity and acceleration spectra at centre of gravity and specified positions on vessel (absolute and relative motions).

Integration of significant vessel motions for specified sea spectrum.

Large number of standard spectra: ITTC/Bretschneider 2 parameter; Bretschneider 1 parameter; JONSWAP; DNV and Peirson Moskowitz.

Graphical and tabular presentation of all data generated by the analysis.

Interactive results graphs.

Hull-form design & optimization.

propeller & rudder selection.

Resistance & propulsion calculation.

Seakeeping & maneuverability studies.

Tank test coordination & supervision.

 

This can all be supported with 3D visualisation of ship motions in regular or irregular waves.