基于轮毂/路径表面附着状况评估斜坡对跑道排水能力的影响

IF 0.8 Q3 ENGINEERING, AEROSPACE
Misagh Ketabdari, E. Toraldo, M. Crispino
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引用次数: 1

摘要

飞机的制动距离取决于主起落架轮胎与跑道路面之间的摩擦力。路面纹理分为宏观纹理和微观纹理,它们对摩擦的影响是显著的,尤其是在路面潮湿的情况下。建立了一个风险分析框架,研究了湿跑道条件下纵向坡度和横向坡度对飞机制动距离的影响及其对着陆超限事故概率的影响。在可接受的纵向/横向坡度和路面纹理深度范围内,该框架在不同的水膜厚度、最大着陆重量(MLW)和着陆速度概率分布下运行。开发了一个模拟器代码,首先计算飞机主齿轮(取决于飞机类别)下由于强降水而产生的现有水膜厚度,然后将该变量作为飞机制动距离计算的主要输入之一。从得到的结果来看,纵向梯度虽然会影响流道长度,但对地表现有水深的影响并不显著。此外,1% ~ 1.5%的横向坡度可以使跑道表面的水迅速排出,大大降低了跑道偏移事故的发生概率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ASSESSING THE IMPACT OF THE SLOPES ON RUNWAY DRAINAGE CAPACITY BASED ON WHEEL/PATH SURFACE ADHESION CONDITIONS
Aircraft braking distance is dependent on the friction between the main gear tires and runway pavement surface.Pavement texture, which is divided into macrotexture and micro-texture, has a noticeable effect upon friction, especially when the surface is wet. A risk analysis framework is developed to study the effects of longitudinal and transverse slopes on the aircraft braking distance in wet runway conditions and their influences on the probability of landing overrun accidents.This framework is operating under various water-film thicknesses, Maximum Landing Weights (MLW), and touchdown speed probability distributions for an acceptable range of longitudinal/transverse slopes and pavement texture depths.A simulator code is developed that initially computes the existing water-film thickness, as the result of intense precipitation,under aircraft main gear (depend on aircraft category) and then applies this variable as one of the main inputs to the aircraft braking distance computation. According to the obtained results, longitudinal gradient does not have a significant effect on the existing water depth on the surface although it affects the flow path length. Furthermore, 1% to 1.5% transverse slope causes rapid drainage of water from the runway surface and considerably decreases the probability of runway excursion accidents.
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来源期刊
Aviation
Aviation ENGINEERING, AEROSPACE-
CiteScore
2.40
自引率
10.00%
发文量
20
审稿时长
15 weeks
期刊介绍: CONCERNING THE FOLLOWING FIELDS OF RESEARCH: ▪ Flight Physics ▪ Air Traffic Management ▪ Aerostructures ▪ Airports ▪ Propulsion ▪ Human Factors ▪ Aircraft Avionics, Systems and Equipment ▪ Air Transport Technologies and Development ▪ Flight Mechanics ▪ History of Aviation ▪ Integrated Design and Validation (method and tools) Besides, it publishes: short reports and notes, reviews, reports about conferences and workshops
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