基于飞机滑水安全的沥青道面积水评价指标  

作　　者：宗辉杭 李岳[1] 蔡靖[1] 戴轩 ZONG Huihang;LI Yue;CAI Jing;DAI Xuan(College of Transportation Science and Engineering,Civil Aviation University of China,Tianjin 300300,China)

机构地区：[1]中国民航大学交通科学与工程学院,天津300300

出　　处：《北京航空航天大学学报》2024年第3期765-773,共9页Journal of Beijing University of Aeronautics and Astronautics

基　　金：中央高校基本科研业务费专项资金(3122019103)。

摘　　要：沥青道面积水深度受横坡与轮辙变形共同影响分布复杂,是诱发飞机轮胎滑水事故的重要条件。当前,仅针对飞机起降运行给出污染跑道积水厚度范围,积水评价方式与实际运行环境脱节。基于轮辙横断面变形特征分析,提出一种考察飞机轮载横向累积作用概率分布的当量水膜厚度(EWT)指标。根据道面不同区域积水条件,分段建立轮胎滑水仿真分析模型,探讨滑水行为差异及轮辙积水影响机理,验证EWT的合理性与适用范围。结果表明:轮辙内部积水引起局部水膜增厚,当飞机滑行经过时,积水侵入轮胎底部,轮胎前缘轮廓模糊且接地面积降低;当前分段临界滑水速度减小,降幅与轮载累积作用概率正相关;轮辙变形导致轮胎“最不利”滑行位置自跑道边缘向中心线内移;EWT对应表征安全接地宽度更大,覆盖轮载累积作用概率约为平均水膜厚度(AWT)的2倍,滑水风险指标仅为AWT的36%~81%。所提评价指标克服了最大水膜厚度(MWT)取值过于严格的缺陷,更适用于机场管理实践,可为起降条件保障和滑水风险分级提供量化参照。The primary causes of aircraft tire hydroplaning accidents were rut deformation and cross slope on asphalt pavement,which had a notable impact on the distribution of accumulated water-film depth.At present,an acceptable range of water-film thickness of contaminated runway was given in the regulations considering aircraft take-off and landing process.The evaluation procedure of accumulated water-film was not consitant with reality.Based on feature analysis of the rut section,an equivalent water-film thickness(EWT)evaluation index was proposed in this paper considering the transverse distribution of the cumulative probability of aircraft wheel load.A series of simulation models of tire hydroplaning were then established according to accumulated water-film conditions at different runway segmentations.The difference in hydroplaning behavior between segmentations and the mechanism of rutting impact was fully discussed.The feasibility and applicable range of EWT were then examined and verified.Study results indicate that accumulated water within the rut section caused the increase of overall water-film thickness,which can seriously invade the tire print interface when aircraft tire taxing through.The outline at the tire frontier blurred and the contact area was reduced consequently.At such segmentations,the essential hydroplaning speed dropped,and the cumulative probability of aircraft wheel load was positively correlated with the reduction’s magnitude.The most unfavorable taxing segmentation shifted from the edge of the runway to the area near the central line due to rut deformation.The hydroplaning risk of EWT was only 36%to 81%of that of average water-film thickness(AWT),and the cumulative likelihood of aircraft wheel load involved in EWT was up to twice that of AWT due to the greater representative breadth of safety taxing of EWT.The proposed EWT index may overcome the defection of the maximum water-film thickness(MWT)index that can be too strict to apply.Therefore,EWT is considered more suitable in airport manag

关 键 词：飞机轮胎 轮胎滑水 积水评价 道面轮辙 滑水风险 

分 类 号：V351.11[航空宇航科学与技术—人机与环境工程] U8[交通运输工程]