火山灰
火山
环境科学
沉积(地质)
火山灾害
危害分析
喷气发动机
危害
大气科学
地质学
地球科学
矿物学
地球化学
化学
热力学
航空航天工程
物理
地貌学
工程类
有机化学
沉积物
作者
Wenjia Song,Yan Lavallée,Kai‐Uwe Hess,Ulrich Kueppers,Corrado Cimarelli,Donald B. Dingwell
摘要
Abstract The ingestion of volcanic ash by jet engines is widely recognized as a potentially fatal hazard for aircraft operation. The high temperatures (1,200–2,000 °C) typical of jet engines exacerbate the impact of ash by provoking its melting and sticking to turbine parts. Estimation of this potential hazard is complicated by the fact that chemical composition, which affects the temperature at which volcanic ash becomes liquid, can vary widely amongst volcanoes. Here, based on experiments, we parameterize ash behaviour and develop a model to predict melting and sticking conditions for its global compositional range. The results of our experiments confirm that the common use of sand or dust proxy is wholly inadequate for the prediction of the behaviour of volcanic ash, leading to overestimates of sticking temperature and thus severe underestimates of the thermal hazard. Our model can be used to assess the deposition probability of volcanic ash in jet engines.
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