airBaltic Appoints Erno Hildén as CEO

Riyadh Air and IBM Launch the World’s First AI-Native Airline **Riyadh, Saudi Arabia and Armonk, N.Y., December 8, 2025** – Riyadh Air and IBM have jointly announced the creation of the world’s first airline conceived and built as an AI-native enterprise. Unveiled at IBM Think Riyadh 2025, this initiative represents a transformative milestone in the aviation sector, positioning Riyadh Air to redefine operational agility and deliver a unified experience for both employees and passengers. Building an AI-Driven Aviation Enterprise Riyadh Air’s operations have been developed from the ground up without reliance on legacy technology, leveraging IBM Consulting’s industry expertise alongside the IBM watsonx Orchestrate platform. The collaboration involved coordinating 59 distinct workstreams and engaging over 60 partners, including major technology firms such as Adobe, Apple, FLYR, and Microsoft. This integrated, AI-powered technology strategy, supported by the IBM Consulting Advantage platform, aims to accelerate value creation and streamline the airline’s end-to-end processes. With initial flights already in progress and the first commercial service anticipated in early 2026, the three-year partnership has reached a critical juncture. Riyadh Air’s Chief Financial Officer, Adam Boukadida, underscored the airline’s visionary approach, stating, “We had a clear choice—be the last airline built on legacy technology or the first built on the platforms that will define the next decade of aviation. With IBM, we’ve stripped out fifty years of legacy in a single stroke. Riyadh Air isn’t just built for today; it’s built for the future and creating a pathway for many airlines to follow in the years to come.” IBM Consulting Senior Vice President Mohamad Ali emphasized the broader implications for the industry, noting, “By embedding AI into the very foundation of its operations, Riyadh Air is setting a new blueprint for what it means to build a modern, adaptive enterprise from the ground up. As a company born in the AI era, Riyadh Air is redefining what’s possible in aviation.” Transforming Passenger and Employee Experiences Central to Riyadh Air’s innovation is the integration of generative and agentic AI capabilities into daily workflows, fostering a synchronized environment where technology and personnel collaborate seamlessly. This approach is designed to enhance both employee efficiency and passenger experience, creating a new standard for travel interactions. Despite these advancements, the airline and IBM face considerable challenges in pioneering this AI-native model. The integration of advanced AI technologies must navigate complex regulatory frameworks across international jurisdictions, while ensuring stringent data security and privacy protections. Industry analysts observe that traditional carriers may approach this transformation with skepticism, questioning the practicality and benefits of such a radical shift. It is anticipated that competitors will respond by exploring similar AI-driven solutions or forming strategic alliances with AI technology providers to maintain their market positions. Looking ahead, Riyadh Air aims to expand its network to over 100 destinations by 2030, relying on IBM’s technological expertise to drive this ambitious growth and reshape the future landscape of air travel.

Range Comparison Between Airbus A321XLR and Boeing 737 MAX In the increasingly competitive single-aisle aircraft market, range has emerged as a pivotal factor influencing airline fleet strategies. Carriers are seeking narrowbody jets capable of flying longer distances to open new city pairs and replace widebodies on long-thin routes. This dynamic has brought the Airbus A321XLR and Boeing 737 MAX families into sharp focus. With the A321XLR now certified and entering service, and the 737 MAX-10 still pending FAA approval, the question of how much greater range Airbus offers compared to Boeing is more pertinent than ever. Range: The Defining Difference Airbus markets the A321XLR with a maximum range of up to 4,700 nautical miles and an endurance of approximately 11 hours. This extended reach is achieved through increased fuel capacity and aerodynamic improvements, representing a significant advancement for the A320 family. The A321XLR now enables missions traditionally served by smaller widebodies such as the Boeing 767 or Airbus A310. By contrast, Boeing’s largest MAX variant, the 737 MAX-10, offers a maximum range of 3,100 nautical miles. Even the longest-range MAX model, the MAX-7, reaches only 3,800 nautical miles. This results in the A321XLR having a range advantage of roughly 1,600 nautical miles over the MAX-10, equating to more than 50% greater reach. Operationally, this allows the A321XLR to connect city pairs like New York–Rome, London–Vancouver, Delhi–London, and Sydney–Kuala Lumpur—routes that exceed the capabilities of the 737 MAX-10. Strategic and Operational Implications The additional range of the A321XLR enables airlines to pursue hub-bypass long-haul flights, thereby opening new markets and enhancing efficiency on thinner routes. The aircraft’s 101-tonne maximum takeoff weight, permanent Rear Center Tank, and aerodynamic refinements contribute to fuel burn reductions of up to 30% compared to previous-generation competitors. This efficiency is particularly significant as airlines increasingly prioritize cost management and sustainability. Industry Context: Challenges and Shifting Dynamics Both Airbus and Boeing face notable challenges amid these developments. Airbus recently confronted a quality issue involving metal panels and a software recall affecting approximately 6,000 A320 family aircraft, which unsettled investors and led to a decline in its share price. Additionally, Wizz Air has reduced its commitment to the A321XLR and delayed deliveries, reflecting some market caution. Boeing continues to manage the repercussions of safety concerns and production delays, most recently underscored by a door-plug blow-out incident on the 737 MAX. Despite these setbacks, Boeing has received positive developments: the FAA has approved an increase in MAX production to 42 aircraft per month, and TUI has acknowledged improvements at Boeing. Furthermore, Turkish Airlines’ selection of GE Aerospace engines for its new Boeing 787s signals sustained confidence in Boeing’s widebody offerings. Conclusion While both manufacturers navigate operational and reputational challenges, the A321XLR’s substantial range advantage positions it as a transformative option for airlines aiming to expand long-haul narrowbody operations. The 737 MAX-10, although offering high capacity, remains focused on shorter routes. As the A321XLR enters service and the MAX-10 awaits certification, the evolving landscape of single-aisle long-haul travel is poised to reshape global airline networks.

Malaysia Aviation Group Advances Fleet Modernisation Amid Strategic Transition Malaysia Aviation Group (MAG), the parent company of Malaysia Airlines, is progressing with its comprehensive fleet renewal strategy as it prepares to select the next generation of widebody aircraft to replace its current long-haul fleet of leased Airbus A350s. This forthcoming decision represents the final major phase in MAG’s long-term passenger fleet modernisation plan, underscoring the group’s commitment to enhancing its operational capabilities and passenger experience. Leadership Transition and Strategic Focus The fleet renewal initiative has been a central priority under the leadership of MAG Managing Director Izham Ismail, who is scheduled to retire at the end of January 2026. The responsibility for overseeing the completion of this strategic plan will transition to his successor, former Chief Operating Officer Nasaruddin Bakar. This leadership change comes at a critical juncture as the group navigates complex market dynamics and operational challenges. Delivery Delays and Capacity Expansion MAG has encountered significant delays in the delivery of its existing orders for Boeing 737 MAX and Airbus A330neo aircraft, which have affected its capacity planning and operational flexibility. Nevertheless, recent improvements in delivery schedules are enabling the airline to expand its capacity and introduce upgraded cabin products, thereby enhancing the overall passenger experience. These developments are vital as MAG seeks to maintain competitiveness in a region marked by rapid aviation growth. Financial and Operational Challenges Despite these positive strides, MAG faces considerable financial and logistical challenges associated with acquiring new aircraft and integrating them into its existing operations. The high capital expenditure required for fleet renewal, coupled with the complexities of operational transition, demands careful management to ensure financial stability. Industry observers are closely monitoring MAG’s ability to execute this transition smoothly, particularly as regional competitors intensify their own fleet expansions. Regional Competition and Market Dynamics The competitive landscape in Southeast Asia and beyond is becoming increasingly dynamic. Ethiopian Airlines is expanding its Boeing MAX fleet while exploring new widebody options, and Philippine Airlines continues to augment its Airbus A320 fleet. Additionally, Boeing’s robust delivery performance in October 2025 has reinforced its position as a dominant player in the widebody market, a factor likely to influence MAG’s forthcoming fleet decisions. As Malaysia Aviation Group advances its fleet renewal efforts, its capacity to balance operational efficiency, financial prudence, and competitive positioning will be pivotal. The outcome of the widebody aircraft selection campaign and the successful integration of new aircraft will significantly influence the airline’s future trajectory within a rapidly evolving global aviation environment.

More Than 75% of Planes Operating in Nigeria Are Wet-Leased For several years, Nigeria’s aviation sector has been characterized by a heavy reliance on wet-leased aircraft—planes that are provided, crewed, maintained, and insured by foreign lessors but operate under local airline branding. Recent data reveals that over 75% of the aircraft flying within Nigeria are wet-leased, highlighting the industry’s dependence on this expensive and complex arrangement. Challenges of Wet Leasing in Nigeria’s Aviation Sector This dependence on wet leasing is driven largely by necessity rather than preference. Fewer than a quarter of the aircraft in Nigeria are owned outright by local carriers, and many of these are currently grounded due to maintenance issues or financial constraints. The shortage of operational, locally owned aircraft has resulted in frequent flight delays and cancellations, eroding passenger confidence and impeding the sector’s growth. Financially, the wet-lease model presents significant challenges. Payments for wet leases are denominated in US dollars, while Nigerian airlines generate revenue in the depreciated Nigerian Naira. This currency mismatch exposes operators to considerable financial risk, depletes the country’s foreign exchange reserves, and complicates long-term strategic planning. The high costs associated with wet leasing compel airlines to increase ticket prices, thereby restricting the expansion of domestic air travel and diminishing the competitiveness of Nigerian carriers relative to foreign airlines. Operationally, wet leasing limits local control over maintenance schedules and necessitates reliance on foreign crews and technical personnel. This reliance stifles the development of indigenous expertise and perpetuates dependence on external partners. The recent grounding of several MD-11 aircraft due to safety concerns has further tightened the availability of wet-leased planes, potentially triggering market adjustments and heightened scrutiny from investors. Efforts to Reform and Build Capacity Industry stakeholders have commended the Minister of Aviation and Aerospace Development, Festus Keyamo, for initiatives aimed at addressing these systemic issues. A notable development was the domestication of the Cape Town Convention (CTC) last year, which aligns Nigeria’s legal framework with international standards to facilitate aviation financing. The CTC is designed to reduce lender risk, lower borrowing costs, and streamline asset recovery processes, thereby creating conditions conducive to more favorable dry-lease agreements in the future. Nonetheless, experts warn that the benefits of the CTC may take up to five years to fully materialize. In the interim, Nigerian airlines remain largely excluded from the global dry-lease market due to historical regulatory non-compliance, necessitating continued reliance on wet leases. Competitors may seek to negotiate better lease terms or invest in expanding their own fleets to reduce dependency, but such transitions require substantial time and capital investment. As Nigeria’s aviation sector contends with these challenges, the emphasis remains on enhancing local capacity, improving regulatory adherence, and fostering a more sustainable business environment. Until these objectives are achieved, the predominance of wet-leased aircraft will continue to define both the opportunities and obstacles facing the industry.

BOC Aviation to Lease Two Airbus A350-1000s to Philippine Airlines BOC Aviation has finalized a purchase-and-leaseback agreement with Philippine Airlines (PAL) for two Airbus A350-1000 aircraft, marking the lessor’s inaugural delivery of this widebody model. The aircraft, equipped with Rolls-Royce Trent XWB engines, are slated for delivery beginning in December 2025. Strategic Partnership and Fleet Modernization Steven Townend, CEO and Managing Director of BOC Aviation, expressed enthusiasm about the new partnership, emphasizing that the delivery of the A350-1000 underscores the company’s dedication to providing the latest technology in aviation. For Philippine Airlines, the acquisition represents a significant milestone in its ongoing fleet modernization efforts. PAL President Richard Nuttall highlighted that the investment aligns with the airline’s objective to maintain one of the youngest and most fuel-efficient fleets in the region. He further noted that the collaboration with BOC Aviation is expected to enhance PAL’s global competitiveness and support its plans for network expansion. Operational and Market Implications The integration of the A350-1000s into PAL’s existing fleet will necessitate extensive crew training and operational adjustments. Moreover, the financial commitments associated with the new lease agreements will require careful management to ensure the airline’s long-term sustainability. Industry analysts observe that PAL’s move occurs amid intensifying competition in Southeast Asia, where regional carriers are actively pursuing fleet modernization and expansion. The introduction of these advanced aircraft is anticipated to strengthen PAL’s market position, while potentially prompting competitors to accelerate their own fleet upgrades, thereby intensifying the competitive landscape. Despite these challenges, PAL’s investment in next-generation aircraft reflects a wider industry trend toward enhanced efficiency and environmental performance, as airlines strive to meet evolving passenger expectations and increasingly stringent regulatory standards.

How Many Boeing 777X Prototypes Were Built? Boeing’s 777X program has relied on a dedicated fleet of prototypes to conduct its extensive and often delayed testing campaign. Throughout the majority of its flight testing, Boeing has operated four primary prototypes: WH001 (N779XW), WH002 (N779XX), WH003 (N779XY), and WH004 (N779XZ). In August 2025, a fifth aircraft, WH286 (N2007L), joined the test program. Unlike the earlier prototypes, WH286 is a production-standard Boeing 777-9, constructed to closely mirror the configuration that airlines will ultimately receive. This aircraft is notably devoid of the complex flight-test instrumentation present on the other prototypes, enabling Boeing to perform tests in a more realistic operational environment, including assessments of electromagnetic interference and lightning strike safety. Upon completion of certification, WH286 is expected to be delivered to Singapore Airlines. Beyond these five specialized test aircraft, Boeing has significantly expanded its 777X prototype fleet. As of August 12, 2025, the company has built a total of 26 prototypes. This larger fleet reflects both the scale of testing required and Boeing’s efforts to prepare for commercial deliveries. Emirates, one of the program’s largest customers, has placed a substantial order for 65 additional 777X aircraft. However, the program has faced challenges, including ongoing certification delays that have resulted in the removal of 33 orders from Boeing’s backlog. Despite these setbacks, Boeing remains optimistic, targeting the 777X’s entry into commercial service by 2027. The Role of Each 777X Prototype Each of the five main test aircraft has fulfilled a distinct role in the certification process. WH001 has focused on stability, flutter, avionics, brakes, aerodynamics, and control systems, with much of its testing conducted at low speeds. WH002 has been dedicated to ground-effect testing, autoland certification, and expanding the flight-control envelope. WH003 has primarily supported GE9X engine integration, as well as avionics and flight-load measurement. WH004 has concentrated on real-world operations, including cabin systems, environmental controls, noise, reliability, and ETOPS testing. The newest addition, WH286, as a near-production aircraft, facilitates operational testing without the constraints imposed by heavy instrumentation, although it has yet to be fully fitted with seats and sidewalls. Collectively, these prototypes have accumulated over 4,000 flight hours across more than 1,400 flights. The use of multiple airframes has allowed Boeing to maintain testing momentum even when technical issues arise. For instance, in August 2024, structural cracks in WH003’s thrust-link grounded the aircraft and eventually affected others. Nevertheless, the availability of several prototypes enabled Boeing to implement corrective measures without halting the entire test campaign. Looking Ahead As Boeing continues to expand its prototype fleet and address certification challenges, the company remains committed to bringing the 777X to market. With 26 prototypes built and major customers such as Emirates awaiting delivery, the 777X is positioned to become a significant player in the next generation of long-haul aviation, contingent on successful certification and entry into service, now targeted for 2027.

AerFin Expands Global A320neo Inventory Amid Market Challenges AerFin has significantly expanded its global inventory of A320neo components, now offering over 6,000 parts through its international warehouse network. This growth follows the recent teardown of five A320neo aircraft in France and the Philippines, each yielding between 1,200 and 1,400 quality-assured components. Key assets and high-demand parts have been strategically positioned in Newport and Gatwick, while a partnership with B&H Worldwide in Singapore ensures enhanced availability for the Asia-Pacific region. Additionally, AerFin plans to introduce fast-moving A320neo parts into its Miami warehouse, extending support to customers across the Americas. Strategic Distribution to Address Supply Chain Pressures AerFin’s coordinated distribution strategy aims to provide operators, lessors, and asset owners with rapid access to inventory regardless of their geographic location. Simon Goodson, AerFin’s CEO, emphasized the company’s commitment to assisting A320neo operators amid ongoing supply chain challenges. He stated, “A320neo operators are navigating sustained supply-chain pressures, and our role is to help them use the difficulty. By recovering material at scale and positioning it across our global network, we’re giving customers dependable access to the quality components they need to keep their fleets flying.” The aviation sector continues to face disruptions, including production delays at Airbus caused by fuselage panel inspections and software issues affecting the A320 family. These factors have contributed to fluctuating market demand and delivery slowdowns, impacting leasing rates and customer acquisition timelines. The competitive environment remains intense, with rival leasing and parts suppliers likely to respond through aggressive pricing or enhanced marketing efforts to secure market share. Supporting Operational Resilience with Comprehensive Inventory Despite these challenges, AerFin is focused on providing reliable solutions that help operators minimize downtime, control costs, and maintain operational resilience. The expanded inventory includes major structural assemblies, nacelles, auxiliary power units (APUs), landing gear, and a broad range of rotables and consumables, all supported by AerFin’s technical expertise and quality assurance. The collaboration with B&H Worldwide further strengthens AerFin’s presence in the Asia-Pacific region, improving distribution speed and service levels amid rising regional demand. AerFin’s A320neo inventory is available immediately, with new material arriving weekly. Operators can access individual components, tailored support, or strategic material packages designed to keep their fleets operational and resilient amid ongoing industry challenges.

Petrobras Delivers Brazil’s First Sustainable Aviation Fuel Petrobras has announced the delivery of Brazil’s inaugural batch of sustainable aviation fuel (SAF), a landmark development in the country’s pursuit of decarbonizing its aviation sector. Produced at the Duque de Caxias Refinery (Reduc) in Rio de Janeiro, the fuel is immediately available for use and can replace traditional kerosene without necessitating any modifications to aircraft or airport infrastructure. Production and Certification The state-owned energy company highlighted that this pioneering SAF complies with stringent international aviation standards and holds certification under ISCC-CORSIA, ensuring both sustainability and traceability. Petrobras President Magda Chambriard described the launch as a decisive step toward reducing aviation emissions and aligning Brazil with global environmental objectives. She emphasized the product’s competitiveness and its capacity to meet international market demands. The SAF is manufactured through co-processing at Petrobras’ refineries, blending renewable feedstocks such as technical corn oil and soybean oil with conventional kerosene. This hybrid composition produces a fuel chemically identical to traditional jet fuel in terms of operational safety, while enabling a reduction in net CO₂ emissions by up to 87%, according to company estimates. Market Context and Expansion Plans This achievement places Brazil among a select group of nations advancing commercial-scale production of sustainable fuels. Nevertheless, Petrobras faces growing competition from global entities like LanzaJet and Shell, which are investing in alternative carbon reduction technologies, including direct air capture. European airlines, responding to regulatory and public pressures, are increasingly shifting away from superficial environmental claims and committing to tangible emissions reductions through SAF adoption. Petrobras is actively expanding its SAF production capabilities, conducting tests at other refineries such as Revap, with plans to initiate commercial operations at Replan, Regap, and additional facilities by 2026. This expansion is designed to meet rising demand driven by new environmental regulations. The International Civil Aviation Organization (ICAO), through its CORSIA program, will mandate the use of SAF by Brazilian airlines on international flights starting in 2027, with domestic requirements expected to increase under the Future Fuel Act. Challenges Ahead Despite these advances, Petrobras’ capacity to scale renewable fuel production may be constrained by recent reductions in capital expenditure, a response to lower oil prices. This financial tightening could affect future investments in SAF and other renewable initiatives, particularly as competitors such as Shell and Boeing accelerate their carbon removal and sustainable fuel projects. The introduction of SAF by Petrobras underscores Brazil’s commitment to the global energy transition and reinforces its alignment with international sustainability standards. As the aviation industry faces intensifying pressure to reduce emissions, Petrobras’ entry into the SAF market represents both a strategic opportunity and a significant test of its ability to compete in a rapidly evolving sector.

Unique Mixed-Propulsion eVTOL Completes Transition Flight Testing China’s TCab Tech has reached a pivotal milestone with the successful completion of transition flight tests for its full-scale E20 eVTOL demonstrator. This achievement validates the aircraft’s capability to manage the most complex phase of its flight envelope—transitioning from vertical hover to forward cruise—a critical requirement for any electric vertical takeoff and landing (eVTOL) air taxi aspiring to commercial operation. Advancing a Novel Propulsion System Based in Shanghai, TCab Tech has been steadily progressing toward this objective since conducting transition tests with a sub-scale prototype in 2022. Earlier this year, the company completed its first crewed hover flight, with the CEO aboard. Since 2021, TCab has conducted approximately 1,000 flight tests across various E20 prototypes, refining a distinctive propulsion system that integrates multiple VTOL concepts. Unlike conventional lift-and-cruise designs, which employ separate fixed propellers for vertical and horizontal flight, or vectored thrust systems such as those on the Joby S4 that tilt rotors to transition between flight modes, the E20 combines both approaches. The aircraft is equipped with four tilting propellers and two coaxial stacks of fixed vertical lift propellers. The outer tilting propellers are mounted on the wing tips, incorporating elements of tilt-wing technology as well. Transition flights represent one of the most demanding phases for eVTOL aircraft, requiring precise coordination of multiple systems to shift from rotor-based lift to wing-borne flight. The E20’s design addresses these challenges through built-in redundancies, including four battery packs and six motors. The aircraft is configured to seat four passengers and a pilot, featuring amenities such as gull-wing doors, a dedicated luggage compartment, and 270-degree panoramic glass. It boasts a top speed of 200 mph (320 km/h) and a range of 125 miles (200 km). TCab asserts that its 800-volt fast-charging system can recharge the E20’s batteries from 20% to 85% in just 20 minutes, facilitating rapid turnaround between flights. Positioning Amidst Intensifying Global Competition TCab’s progress unfolds amid intensifying global competition in the urban air mobility sector. In the United Arab Emirates, Archer Aviation recently completed transition flight testing for its mixed-propulsion Midnight eVTOL, though it continues to face challenges including regulatory approval, safety validation, and integration with existing air traffic management systems. The broader market is witnessing increased investor interest, while established players such as Joby Aviation and other Chinese firms accelerate their development and certification efforts. Upon certification, TCab will enter a crowded Chinese market that includes competitors like eHang, which already operates a certified pilotless commuter aircraft and is expanding its network of urban landing sites. The competitive landscape is further shaped by ongoing regulatory processes, including the FAA’s Type Certification, and the industry’s gradual shift toward autonomous commercial air operations. As eVTOL manufacturers race to achieve certification and commercial deployment, milestones such as TCab’s successful transition flight testing represent crucial progress toward the realization of urban air mobility.

Are C-17 Globemaster Engines Derived from Boeing 757? Shared Lineage but Distinct Variants The assertion that the U.S. Air Force’s C-17 Globemaster III is powered by Boeing 757 engines is a common but oversimplified claim within the aviation community. The C-17, introduced in the 1990s as a strategic and tactical airlifter, is equipped with four Pratt & Whitney F117-PW-100 turbofan engines. These engines are not directly transplanted from the Boeing 757; rather, they share a common heritage. The F117 is a military adaptation of the Pratt & Whitney PW2000 family, specifically derived from the PW2040 model that powers certain Boeing 757 variants. While the engines share design foundations, the F117s are distinct variants engineered to meet the rigorous demands of military operations. This differentiation is critical. The F117 engines on the C-17 have been ruggedized to enhance reliability, maintainability, and performance in challenging environments, distinguishing them from their commercial counterparts. Claims suggesting that the C-17 uses the “same engine” as the 757 can be misleading, as they imply identical hardware and operational characteristics, which is not the case. The C-17’s Operational Role and Challenges Ahead The C-17 Globemaster III serves as a versatile workhorse capable of transporting outsized cargo, vehicles, and personnel. Its design incorporates an advanced high-lift wing, powerful thrust reversers, and robust systems that enable operations from short, unimproved airstrips. Typically crewed by a pilot, copilot, and loadmaster, the aircraft can be rapidly reconfigured for diverse missions, including airdrops and aeromedical evacuations, allowing it to deliver directly into austere environments and reduce dependence on intermediate hubs. Despite its capabilities, the future of large military airlifters such as the C-17 and the larger C-5 Galaxy faces significant challenges. Extending the operational life of these aircraft may incur costs as high as €200,000 per month per plane, raising concerns about long-term sustainability. These financial pressures coincide with rapid advancements in engine technology and evolving market dynamics, complicating decisions about fleet modernization and replacement. Broader Industry Context In the commercial aviation sector, Boeing continues to exert considerable industrial and political influence despite recent financial difficulties. However, competition is intensifying as airlines increasingly adopt newer models like the Airbus A321XLR to replace aging fleets, including the Boeing 757. This shift reflects a broader industry trend toward more efficient, next-generation aircraft. Meanwhile, manufacturers such as Embraer are making strides in resolving technical challenges with their geared turbofan (GTF) engines, marking a pivotal moment for their E2 twinjets and further intensifying the technological competition within the sector. In conclusion, while the C-17 Globemaster III’s engines share a lineage with those used on the Boeing 757, they are distinct variants tailored to different operational requirements. This distinction highlights the complexity of modern engine development and the evolving landscape of both military and commercial aviation.