Affiliation:
1. ISTANBUL MEDENIYET UNIVERSITY
2. İSTANBUL AYDIN ÜNİVERSİTESİ
Abstract
Air transport is considered to be the safest means of transport. However, if an accident occurs, it often ends in catastrophe. Thus, significant efforts have been paid to sustain successful operations in aviation. Several studies have been carried out to understand the underlying reasons for accidents. This study used Fault Tree Analysis (FTA), Failure Mode and Effects Analysis (FMEA) and Causal Analysis based on Systems Theory (CAST) methods to analyse Tenerife aircraft accident and to compare the findings of different methods. The findings showed that while all three methods provided some overlapping findings, the CAST method led to the identification of all causes that were identified by other methods. Considering the nature of the causal factors, FMEA provided more causal factors that are related to organisation and technology than FTA. This study indicates that CAST has a significant value to identify all causes that can be identified by the use of traditional methods.
Publisher
Gazi University Journal of Science
Subject
Multidisciplinary,General Engineering
Reference61 articles.
1. Antoine, B., 2013. Systems Theoretic Hazard Analysis (STPA) applied to the risk review. MIT.
2. Armed Forces, 1978. Aircraft accident report: accident reconstruction by evaluation of injury patterns, Washington, DC.
3. Arnaldo Valdés, R.M. and Gómez Comendador, F., 2011. Learning from accidents: Updates of the European regulation on the investigation and prevention of accidents and incidents in civil aviation. Transport Policy, 18(6), pp.786–799.
4. Bennett, S.A., 2019. Aviation crew resource management–a critical appraisal, in the tradition of reflective practice, informed by flight and cabin crew feedback. Journal of Risk Research, 22(11), pp.1357–1373.
5. BS EN IEC 31010, 2019. ISO/IEC 31010 : 2019 BSI Standards Publication Risk management – Risk assessment, London.
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