Litcius/Paper detail

Parametric Hull Form Optimization of Containerships for Minimum Resistance in Calm Water and in Waves

Yanxin Feng, Ould el Moctar, Thomas E. Schellin

2021Journal of Marine Science and Application36 citationsDOIOpen Access PDF

Abstract

Abstract This paper described the process of generating the optimal parametric hull shape with a fully parametric modeling method for three containerships of different sizes. The newly created parametric ship hull was applied to another ship with a similar shape, which greatly saved time cost. A process of selecting design variables was developed, and during this process, the influence of these variables on calm water resistance was analyzed. After we obtained the optimal hulls, the wave added resistance and motions of original hulls and optimal hulls in regular head waves were analyzed and compared with experimental results. Computations of the flow around the hulls were obtained from a validated nonlinear potential flow boundary element method. Using the multi-objective optimization algorithm, surrogate-based global optimization (SBGO) reduced the computational effort. Compared with the original hull, wave resistance of the optimal hulls was significantly reduced for the two larger ships at Froude numbers corresponding to their design speeds. Optimizing the hull of the containerships slightly reduced their wave added resistance and total resistance in regular head waves, while optimization of their hulls hardly affected wave-induced motions.

Topics & Concepts

HullFroude numberParametric statisticsMarine engineeringHead (geology)EngineeringBoundary element methodOffshore geotechnical engineeringPotential flowProcess (computing)Computational fluid dynamicsFlow (mathematics)MathematicsStructural engineeringMechanicsFinite element methodComputer scienceGeotechnical engineeringGeometryGeologyAerospace engineeringStatisticsOperating systemPhysicsGeomorphologyShip Hydrodynamics and ManeuverabilityMaritime Transport Emissions and EfficiencyAdvanced Multi-Objective Optimization Algorithms