Abstract :
Naval architects now use a different kind of ship model, a hydrodynamic computer simulation, to design faster, quieter, or more economically efficient ships for the world´s navies, merchant marines, and cruise lines. A leader in the use of computers to determine the hydrodynamic behavior of surface and undersea craft is the US Navy´s David Taylor Model Ship Basin, part of the Naval Surface Warfare Command´s Carderock Division. The Model Basin has some of the world´s finest facilities for hydrodynamic testing of scale model ships, including a 3000 foot-long towing tank. It is here, and in other specialized test facilities, that ship designs are tested, much as aircraft designs are tested in a wind tunnel. Where once designers would build and test the flow around 15 or so wood-laminate scale models of a warship before deciding on a final design, the tow-tank measurements are now mostly used to validate hydrodynamic computer codes. In designing the new Arleigh Burke class destroyer, the designers built and tested only five models. At the same time, the designers evaluated more than 50 design variants using computer models digital ships cruising on electronic seas
Keywords :
digital simulation; hydrodynamics; naval engineering computing; ships; Arleigh Burke class destroyer; David Taylor Model Ship Basin; US Navy; computer models; cruise lines; digital ships; economically efficient ships; electronic seas; hydrodynamic behavior; hydrodynamic computer codes; hydrodynamic computer simulation; hydrodynamic testing; merchant marines; naval architects; scale model ships; ship model; specialized test facilities; tow-tank measurements; towing tank; undersea craft; Aircraft manufacture; Computer simulation; Fluid flow measurement; Hydrodynamics; Marine vehicles; Military computing; Sea measurements; Sea surface; Test facilities; Testing;
