Experimental Results for Pitch Damping in Speed and Wave for a Surface Effect Ship with Split Air Cushion

2020 IEEE Conference on Control Technology and Applications (CCTA) Pub Date : 2020-08-01 DOI:10.1109/CCTA41146.2020.9206262

V. Hassani, Ø. Auestad, M. Nataletti

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Abstract

This paper presents experimental results in damping the pitch motion on a Surface Effect Ship (SES) in high vessel speeds in presence of regular wave. The SES is a marine craft supported by pressurized air cushion. It consists of two side-hulls, a flexible rubber bow and reinforced stern seal. The air cushion is pressurized thanks to the lift fans blowing air into the cushion. Modern SES are equipped with controllable vent valves that allows adjusting the pressure of the air cushion. Air Split Cushion SES is one of the new design by Umoe Mandal AS where the main air cushion is divided to four smaller air chambers, each one equipped with a lift fan and controllable vent-valve. Using a derivative controller, this paper presents an active pitch control in waves. Controlling the pressure in each air cushion through adjusting the air leakage on the vent-valve, provides an effective pitch regulator that demonstrates, through simulations and experiments, reduction of up to 60 % of the pitch motion in waves and high speeds. The effectiveness of the proposed system is examined through experimental model testing of the vehicle in SINTEF Ocean's towing tank.

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分离式气垫面效船航速和波浪俯仰阻尼试验结果

本文介绍了在规则波存在下，高航速条件下表面效应船(SES)纵摇阻尼的实验结果。SES是一种由加压气垫支撑的船舶。它包括两个舷侧船体，一个柔性橡胶船首和加强的船尾密封。由于升降风扇将空气吹入气垫，气垫被加压。现代SES配备了可控制的排气阀，可以调节气垫的压力。Air Split Cushion SES是Umoe Mandal AS的新设计之一，其中主气垫分为四个较小的气室，每个气室配备一个升降风扇和可控排气阀。利用微分控制器，提出了一种波浪中螺距的主动控制方法。通过调节排气阀上的空气泄漏来控制每个气垫的压力，提供了一个有效的俯仰调节器，通过模拟和实验证明，在波浪和高速下减少高达60%的俯仰运动。该系统的有效性通过在SINTEF海洋拖曳槽中对车辆进行的实验模型测试进行了验证。

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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2020 IEEE Conference on Control Technology and Applications (CCTA)

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