论文信息 - POTENTIAL FLOW BASED OPTIMIZATION OF A HIGH SPEED, FOIL-ASSISTED, SEMI-PLANNING CATAMARAN FOR LOW WAKE

POTENTIAL FLOW BASED OPTIMIZATION OF A HIGH SPEED, FOIL-ASSISTED, SEMI-PLANNING CATAMARAN FOR LOW WAKE

In this paper, a sensitivity analysis and the numerical optimization of an initial design for a fast foil-assisted catamaran ferry are described, with the goal of both reducing wakes and increasing fuel efficiency. The procedure is split into two phases: 1. Starting from an initial design, a set of new hull shapes was automatically generated and evaluated, via a potential flow solver. These results were successively used to derive information about the influence of each design parameter. 2. A multi-objective design problem, with 3 objective functions, was formulated and solved and the best trade-off solutions (belonging to the Pareto optimal set) were identified. The potential flow optimization lead to a new hull geometry that was optimized in terms of bow shape, foil thickness, foil position, and demi-hull spacing providing a basis for improvements by the naval architect and the starting point for a more detailed optimization with a RANS solver.

[1] E. Campana,et al. Multiobjective optimization of a containership using deterministic particle swarm optimization , 2007 .

[2] G. Matheron. Principles of geostatistics , 1963 .

[3] M Landrini,et al. Steady waves and forces about a yawing flat plate , 1996 .

[4] William Bollay. A New Theory for Wings of Small Aspect Ratio , 1936 .

[5] S. Lucidi,et al. New global optimization methods for ship design problems , 2009 .

[6] Daniele Peri,et al. Self-Learning Metamodels for Optimization1 , 2009 .

[7] Daniele Peri,et al. High-Fidelity Models in Global Optimization , 2003, COCOS.

[8] Philip D. Osborne,et al. FULL-SCALE MEASUREMENTS AND IMPACT STUDIES WITH HIGH SPEED FOIL-ASSISTED CATAMARANS IN A WAKE SENSITIVE AREA , 2009 .