The European Union Aviation Safety Agency (EASA) has awarded the Type Certificate for the Airbus A321XLR, marking the conclusion of a certification process that spanned over five years. This milestone represents a significant achievement for Airbus, which aimed to offer a narrowbody aircraft with enhanced fuel capacity, making it suitable for long-haul flights.
EASA Issues Type Certificate to Airbus A321XLR: How We Certified a Design Novelty
A Bold New Project
Airbus introduced a new fuel tank, known as the Rear Central Tank (RCT), for the A321XLR. This proposal was classified as a major significant change based on its predecessor, the A321Neo. The RCT represented an innovative and unusual design not fully covered by the existing CS-25 certification specifications, which are the primary technical requirements for certifying large commercial aircraft.
Special Conditions for Safety
To address the gaps in the CS-25 specifications, EASA established « Special Conditions » tailored to the unique aspects of the RCT. These conditions define the safety standards that any manufacturer must meet to gain certification approval, without prescribing the exact methods to achieve them. « The aim of every action taken by EASA is to ensure that the aircraft is safe, » stated EASA Executive Director Florian Guillermet. « Our requirements can be quite stringent and pose significant challenges to the manufacturer, in this case, Airbus. But we have a truly common aim of ensuring safety. »
Addressing Safety Challenges
The integration of the new fuel tank within the fuselage, in the aircraft’s underbelly, posed specific safety challenges. The Special Conditions focused on crash safety, fire safety, and occupant protection. For example, the risk of fire needed to be mitigated to allow for the safe evacuation of passengers and crew in an accident. « We needed to be sure that the design location of the tank would not in itself trigger a safety issue, that the tank was adequately robust and crash-resistant, even in a case where the landing gear failed or an unknown threat such as debris on the runway could damage the tank, and finally we wanted proof that if the tank was compromised, the leakage rate would be limited so as not to pose a threat, » explained Michael Singer, Head of Department – Large Aeroplanes at EASA.
Airbus’s Response
In response, Airbus developed a sophisticated design for the tank integration, enhancing crash resistance by using stronger materials and adding additional structural support to protect the fuselage during uncontrolled landings. An inner liner was also introduced to the tank to limit potential leakage. The modifications extended beyond the RCT itself, including reinforcing the landing gear and making structural changes to accommodate the increased take-off weight due to the extra fuel. The fuel system was adapted to integrate the RCT, and enhancements were made to the flight controls.
Extensive Collaboration and Testing
Leading up to the certification, EASA and Airbus conducted over 400 joint meetings of technical experts, 900 flight test hours on three test aircraft, and produced, reviewed, and signed off more than 500 certification documents. Tests were witnessed, inspections carried out, and audits completed, showcasing a rigorous and comprehensive certification process.
Conclusion
The certification of the Airbus A321XLR by EASA marks a significant milestone in aviation safety and innovation. The extensive collaboration, rigorous testing, and adherence to stringent safety standards ensure that this new aircraft model not only meets but exceeds the necessary safety requirements. As a result, the A321XLR stands ready to redefine long-haul narrowbody travel, offering enhanced performance and safety for airlines and passengers alike.