KARAKTERISTIK HIDRODINAMIK DESAIN LAMBUNG KAPAL DENGAN RISE OF FLOOR DAN TANPA RISE OF FLOOR PADA PERAIRAN DALAM DAN DANGKAL

Bina Teknika Pub Date : 2017-08-02 DOI:10.54378/bt.v13i1.16

Bambang Sudjasta, W. Sulistyawati

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Abstract

In principle Manoeuvrability vessel is strongly influenced by the design of the hull, propulsion system and steering system. Some of these elements are directly give a significant effect on the hydrodynamic force and moment when the ship maneuver. Analysis of hydrodynamic aspects is a stage that is absolutely necessary in the design process of a ship, especially for ships operating in waters with varying depths. By the time the ship through the shallow waters can increase frictional resistance surge barriers and the vessel which resulted in a decrease in speed boats. The hull form with rise of floor and without the rise of floor by focusing on the analysis of the obstacles, the character of the ship motion and acceleration criteria in deep and shallow water conditions. In numerical calculations for shallow water conditions (shallow water) with a ratio of water depth and draft of the ships, h / d = 1.2 and deep water (deep water) with h / d = 20. Evaluation of the obstacles, the character motion and acceleration for heave, roll, pitch and yaw is done by combining numerical methods through Hullspeed and AQWA Ansys program. From this numerical calculation, it can be analyzed with the rise of the hull form floor and without a rise of floor optimum for deepwater and shallow.

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从原理上讲，船舶的机动性受船体设计、推进系统和转向系统的影响很大。其中一些因素直接对船舶操纵时的水动力和力矩产生重要影响。水动力方面的分析是船舶设计过程中绝对必要的一个阶段，特别是对于在变深水域作业的船舶。当船舶通过浅水区时，会增加浪涌障碍和船舶的摩擦阻力，从而导致船舶的速度降低。通过对船舶在深水和浅水条件下的障碍、运动特性和加速度判据的分析，得到了有底升和无底升的船体形态。在水深与吃水之比为浅水条件(浅水)的数值计算中，h / d = 1.2，深水条件(深水)h / d = 20。通过Hullspeed和AQWA Ansys程序，结合数值方法对障碍物、横摇、俯仰和偏航的特征运动和加速度进行了评估。通过数值计算，可以分析出有船身上升和无上升两种最适合深水和浅水工况的情况。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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