Projecte matriculat
Títol: Comparative Cost, Efficiency and Reliability Analysis of the Boeing 787 and Airbus A350
Director/a: ALTMEYER, SEBASTIÁN ANDREAS
Departament: FIS
Títol: Comparative Cost, Efficiency and Reliability Analysis of the Boeing 787 and Airbus A350
Data inici oferta: 31-12-2025 Data finalització oferta: 31-07-2026
Estudis d'assignació del projecte:
GR ENG SIS TELECOMUN- GR ENG SIST AEROESP
- GR ENG TELEMÀTICA
| Tipus: Individual | |
| Lloc de realització: EETAC | |
| Paraules clau: | |
| Efficiency, Reliability, Boeing 787 Airbus A350 | |
| Descripció del contingut i pla d'activitats: | |
| 1. Analysis of the A350's Operational Efficiency on Long-Haul Routes
This analysis explores how the A350 is designed to maximize operational efficiency on long-haul flights, highlighting aerodynamic optimization, fuel consumption, and reduced operating costs. Its performance is compared to other long-range aircraft such as the Boeing 787, evaluating how the A350's technology and design enable cost reduction on transcontinental routes. 2. Comparative Study of the Economics of Flexibility in Seat and Cargo Configuration This study focuses on how the interior design flexibility of the A350 and the B787 impacts the economic efficiency of airlines. Payload capacity and seat density are evaluated in both aircraft, analyzing which offers greater adaptability for operating on diverse routes. Furthermore, it compares how these configurations optimize space utilization and affect airline operating costs. 3. Comparative Study of A350 vs. B787 Operating Costs The objective of this study is to compare the overall operating costs of the A350 and the B787, considering fuel consumption, maintenance, and aircraft reliability. Long-term costs are analyzed, including differences in maintenance frequency and operational profitability. Furthermore, the study evaluates how each aircraft is suited to different types of routes, from transatlantic flights to short-haul regional flights. 4. Impact of Wing Geometry on Payload Capacity and Weight Distribution This analysis investigates how the aerodynamic design of the wings on the A350 and the B787 influences payload capacity. It assesses how weight distribution and the center of gravity affect operational efficiency and fuel consumption, especially when the aircraft are fully loaded. The flexibility of the wing configuration to adapt to variations in passenger and cargo loads is also analyzed. 5. Study of Economic and Aerodynamic Flexibility in Long-Haul Aircraft for New Routes This study explores how the flexibility of the A350 and B787 in terms of seating configuration and aerodynamic performance enables profitable operation on new long-haul routes. It compares the adaptability of both aircraft to emerging markets and lower-demand routes, evaluating the cost-benefit of airline expansion on these types of routes and operational efficiency in these contexts. This involves creating a new route, optimizing aircraft layout, and calculating aerodynamic data on different segments of the route based on more frequent weather conditions. 6. Analysis of Cabin Configuration and its Impact on Operational Profitability This study investigates how flexibility in cabin configuration affects the operational profitability of the A350 and B787. This analysis examines how class distribution and seat density influence operating economics and airlines' ability to adapt to market demand. Efficient space utilization is key to determining operating costs and profitability. |
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| Orientació a l'estudiant: | |
| The student will learn the key features operational efficiency on long-haul flights consider fuel consumption, maintenance, and aircraft reliability. Different aerodynamic designs will be analyzed and evaluated. Particular focus will be given to the flexibility of the two planes, A350 and B787, with respect to passenger numbers, range and rearrange possibilities. Key features on operating conditions will be evaluated. The student has to familiarize with operational and planing procedures from efficiency and economical perspective.
Supervisor and student will meet regular basis about once a week to evaluate the progress and discuss the following steps. In case of bigger problems the student can approach the supervisor any time in order to solve the problems as soon as possible in order to avoid any hold backs. |
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| Requereix activitats hardware: No | |
| Requereix activitats software: No | |
| Horari d'atenció a estudiants per a l'assignació de projecte: Regular meetings of about 1-2h will be setup weekly in order to check, discuss and evaluate the progress as well to plan the following steps. In case of bigger problems extraordinary meetings will be done as soon as possible. |
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