Experimental Investigation of Unsteady Inflow for a Helicopter Model in Shipboard Operations

N. Taymourtash, G. Gibertini, G. Quaranta, A. Zanotti
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Abstract

State-space representation of the dynamic inflow is an essential element in rotorcraft flight mechanics modeling and simulation. Identification of a reliable low-order model which is able to predict the transient response of the inflow as well as the steady part, becomes even more important during the maneuvering flights. The objective of this paper is to exploit an experimental setup, consists of a helicopter model and a simplified ship geometry, to investigate the possible effect of the wake interactions with environmental elements such as ground effect or airwake of the ship, on the time constants associated with the buildup of the inflow states. A series of wind tunnel tests were performed, simulating various flight conditions, including hover and forward flight, inside and outside of the ground effect, and the rotor over the deck of the SFS1 at two different positions with respect to the ship super-structure, with the wind coming from two different directions. After trimming the rotor at each flight condition, a sequence of pitch excitation commands were applied to the collective, lateral and longitudinal cyclic in order to excite the induced flow of the rotor. The frequency analysis of the measured aerodynamic loads shows the variation of the time lag, while rotor is operating in the same trim condition, but different positions with respect to the ground or the flight deck.
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直升机舰载作业模型非定常入流实验研究
动态入流的状态空间表示是旋翼机飞行力学建模与仿真的重要组成部分。在机动飞行过程中,建立可靠的低阶模型,既能预测来流的瞬态响应,又能预测稳定部分,显得尤为重要。本文的目的是利用一个实验装置,包括一个直升机模型和一个简化的船舶几何形状,来研究尾流与环境因素(如地面效应或船舶的空气尾流)的相互作用对与流入状态积累相关的时间常数的可能影响。进行了一系列风洞试验,模拟了各种飞行条件,包括悬停和前飞、内外地效应以及SFS1甲板上转子相对于船舶上部结构的两个不同位置,风来自两个不同的方向。在各飞行状态下对旋翼进行修整后,对旋翼的集体循环、横向循环和纵向循环分别施加一系列俯仰激励命令,以激励旋翼的诱导流。对实测气动载荷的频率分析表明,在相同纵倾工况下,旋翼相对于地面或飞行甲板的位置不同时,气动载荷的滞后时间会发生变化。
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