Projecte llegit
Títol: Quantification of Moderate or Great CAT over Europe in the period 1950-2025
Estudiants que han llegit aquest projecte:
PASCUAL PADILLA, GABRIEL (data lectura: 13-02-2026)- Cerca aquest projecte a Bibliotècnica
PASCUAL PADILLA, GABRIEL (data lectura: 13-02-2026)Director/a: MAZÓN BUESO, JORDI
Departament: FIS
Títol: Quantification of Moderate or Great CAT over Europe in the period 1950-2025
Data inici oferta: 16-07-2025 Data finalització oferta: 16-03-2026
Estudis d'assignació del projecte:
- GR ENG SIST AEROESP
| Tipus: Individual | |
| Lloc de realització: EETAC | |
| Segon director/a (UPC): PINO GONZÁLEZ, DAVID | |
| Paraules clau: | |
| CAT, Europe, trend, climate change | |
| Descripció del contingut i pla d'activitats: | |
| Clear air turbulence (CAT) is one of the most significant causes of delay and economic losses for airlines (e.g. Kauffmann, 2002; Sharman, 2016), as well as being a source of passenger discomfort and incidents, which can lead to physical injury (Williams, 2017; Kharoufah et al., 2018). Several studies have shown that CAT on transatlantic flights between Europe and the United States has increased due to global warming (e.g. Storer et al., 2017 and 2019; Williams et al., 2013). In a recent study (see below) based on ERA5 reanalysis data at pressure levels of 200 and 225 hPa, variant 1 of the Ellrod index has been used to evaluate the CAT at cruising altitudes over Europe. The study analyzes trends at monthly, seasonal and annual timescales, and the probability of finding moderate or intense turbulence (MOG) following the methodology of Prosser et al. (2023). This study has shown interesting preliminary results, but a more detailed analysis in aspects is recommended.
The work proposed here aims to: - Analyze CAT over a larger domain centered in Europe that includes southern latitudes to determine the role of the subtropical jet stream in the formation of CAT. - Extend the analysis period, from the mid-20th century to the present, to be able to detect possible CAT patterns and relate them to other cycles (for example, solar cycles, ENSO phenomena, NAO, ...). - Analyze the role of the great mountain ranges of Europe (especially the Alps) in the formation of CAT - Apply additional indexes to quantify CAT. https://mitra.upc.es/SIA/PFC_PUBLICA.DADES_PFC?w_codipfc=11889 |
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| Overview (resum en anglès): | |
| Turbulence represents one of the main hazards for aviation. Among the different types of turbulence, this study focuses on Clear Air Turbulence (CAT), which represents a special threat, as it mostly happens in cloudless areas, being visually undetectable and difficult to forecast. Consequently, flights that encounter CAT experience violent changes in altitude and damage can be caused to the aircraft, crew and passengers, compromising the safety.
Previous works have studied the increase of CAT in severity and frequency because of climate change, but only over North America and the North Atlantic. To assess the increase of CAT, prior investigations have used 21 different turbulent indices. Among these 21 indices, 7 of them have been selected for this study based on the consistent results shown in previous studies and their definitions, so different perspectives can be obtained. The 7 indices are Horizontal Divergence, Negative Richardson Number, North Carolina State University Index (NCSUI), Brown Index, variants 1 and 2 of the Ellrod Index and Potential Vorticity. To compute them, the present study uses the ERA 5 reanalysis data at 200 hPa and 225 hPa over Europe from 1950 to 2025. To evaluate the possible increase of CAT, four different analyses have been performed. Using annual and seasonal averages, horizontal cross sections of the indices over the domain and plots have been obtained to determine the trends. A correlation test was performed to determine whether the different indices show similar trends, and Fast Fourier Transforms were used to relate the results of the indices with other atmospheric phenomena such as solar cycles. The horizontal cross sections showed a possible relationship between the North Atlantic Oscillation (NAO) and the turbulent indices. Therefore, a correlation analysis has been carried out between the NAO and the indices. The results showed that for all the indices except the Negative Richardson number, that a medium correlation exists with the NAO. Different results regarding the trends were obtained depending on the index. Horizontal Divergence and variant 2 of the Ellrod Index did not show an increase in CAT. Negative Richardson Number showed a decrease, and variant 1 of the Ellrod Index, Brown Index, Potential Vorticity and NCSUI showed an increase of CAT in the studied period. In consequence, it is important to keep improving the ability to forecast CAT as well as conduct new research on the increase of this phenomenon and its impact on aviation. |
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