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Iranian Inventor Develops Propeller-Free Propulsion System for Flying Taxis
October 14, 2025By ePlane AI
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Urban Air Mobility
Propeller-Free Propulsion
Flying Taxi Technology
Iranian Inventor Develops Propeller-Free Propulsion System for Flying Taxis
A Novel Approach to Urban Air Mobility
Mohsen Bahmani, an Iranian-born mechanical engineer and seasoned inventor, has introduced an innovative propulsion system that could transform the future landscape of urban air transportation. Departing from the conventional reliance on propellers or jet engines, Bahmani’s design operates without either, instead utilizing the principles of Newton’s third law of motion, which states that every action has an equal and opposite reaction. This fundamental concept underpins the system’s unique method of generating lift and thrust.
Bahmani’s inventive career began at the age of 17 with the creation of floating shoes inspired by hovercraft technology, enabling users to walk on water. This invention earned him international recognition, including awards at invention fairs in Moscow, Romania, and Geneva, where he secured second place among more than 1,200 competitors. The success of this early innovation also led to a lucrative agreement with an Italian company, which acquired the rights for several million euros. Following his studies at Karaj Azad University in Tehran and the Karlsruhe Institute of Technology in Germany, Bahmani has now focused his expertise on developing what he terms the “reaction propulsion system.”
The Mechanics and Potential of the Reaction Propulsion System
Bahmani’s propulsion system functions by accelerating weighted blocks along a curved track, using the resulting centrifugal force to generate lift. This mechanism eliminates the need for noisy and polluting propellers or jet engines, offering a quieter, cleaner, and more efficient alternative. Such attributes are particularly advantageous for flying cars and drones intended to operate within densely populated urban areas, where noise pollution and environmental impact are critical concerns.
In an interview with bne IntelliNews, Bahmani emphasized the forward-looking nature of his work, stating, “Our team wants to develop technologies that not only work today but actively shape the future. Our goal is to redefine movement: quiet, sustainable, autonomous.” This vision aligns with the growing global interest in electric vertical takeoff and landing (eVTOL) vehicles, which promise to revolutionize urban transportation.
Challenges and Industry Context
Despite its innovative design and potential benefits, Bahmani’s propulsion system faces considerable hurdles before it can be commercialized. The regulatory landscape for new aviation technologies is complex and demanding, requiring extensive technical validation to ensure safety and operational efficiency. Moreover, the eVTOL market is highly competitive, with established companies such as Archer Aviation, Joby Aviation, and EHang investing heavily in their own propulsion technologies and vehicle designs.
Industry experts acknowledge the novelty of Bahmani’s approach but remain cautious, noting that widespread acceptance will depend on demonstrable advantages over existing systems. Should the reaction propulsion system prove viable, it could attract significant interest from investors and industry players alike. Established eVTOL manufacturers might explore partnerships or integration opportunities, while competitors could accelerate their own innovation efforts to maintain market leadership.
As Bahmani continues to refine his invention, the aviation and technology sectors watch closely to determine whether this propeller-free propulsion system will emerge as a foundational technology for next-generation urban air mobility or remain an ambitious experiment in the evolving quest to redefine flight.
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Airbus to Update A380 Engine Software by Q1 2026
Airbus to Implement A380 Engine Software Upgrade by Early 2026
Airbus is preparing to introduce a critical engine software update for its A380 fleet by the first quarter of 2026, following a directive from the European Union Aviation Safety Agency (EASA). This measure aims to provide a permanent solution to repeated Loss-of-Thrust-Control (LOTC) incidents affecting the Rolls-Royce Trent 900 engines that power the A380 superjumbo. The update comes amid ongoing software challenges for Airbus, which is concurrently managing a major recall affecting its A320-series aircraft.
Addressing Safety Concerns in the A380 Fleet
Internal documents obtained by The Federal reveal that at least 11 LOTC events—serious digital-control failures in large turbofan engines—have been reported on A380 aircraft since 2011. EASA’s directive targets this persistent safety issue, which has impacted several leading international carriers operating the A380, including Emirates, Singapore Airlines, Qatar Airways, British Airways, and Lufthansa. These airlines frequently operate routes to major Indian cities such as Delhi, Mumbai, Bengaluru, and Hyderabad. Consequently, the mandated software upgrades and any associated maintenance downtime could disrupt flight schedules, reduce seat availability, and affect connectivity on long-haul routes to and from India.
Although Indian carriers are unlikely to be directly affected by the A380 engine software update—given their fleets primarily consist of A320 and A350 aircraft—the operational ripple effects may be felt by Indian passengers traveling with international airlines. Temporary disruptions and delays could arise as carriers adjust to the maintenance requirements imposed by the upgrade.
Broader Software Challenges Across Airbus Fleets
The A380 engine software update is part of a broader set of software issues confronting Airbus. Recently, the manufacturer issued an urgent directive affecting nearly 6,000 A320 family aircraft worldwide after discovering that intense solar radiation could corrupt data in flight-control computers. Rather than releasing an immediate software patch, Airbus instructed operators to revert to a previously stable software version. This fleetwide rollback has impacted major Indian carriers such as Air India and IndiGo, with the Directorate General of Civil Aviation (DGCA) reporting that 200 IndiGo aircraft and 138 Air India and Air India Express planes are involved. Airlines are working to comply with a Sunday deadline for the rollback, which is expected to cause short-term operational disruptions.
The global nature of these software challenges is further highlighted by reports from American Airlines and Wizz Air, both of which have experienced operational impacts due to the required updates. American Airlines, for example, anticipates delays affecting 340 aircraft as a result of the software changes. Despite these difficulties, Airbus has emphasized its commitment to maintaining operational continuity and minimizing flight cancellations.
As Airbus addresses the immediate concerns surrounding the A320 software, it must also finalize and deploy the A380 engine software fix by early 2026. The company faces the complex task of complying with safety directives while striving to avoid further disruptions to airline operations and passenger travel.
Outlook for Aviation MRO Surface Treatment Market Through 2030
Outlook for Aviation MRO Surface Treatment Market Through 2030
The global aviation Maintenance, Repair, and Overhaul (MRO) surface treatment solutions market is anticipated to experience steady growth, with projections estimating a market value of $0.75 billion by 2030. This growth corresponds to a compound annual growth rate (CAGR) of 4.7% from 2023 to 2030, according to recent industry analyses.
Surface treatment processes—including anodizing, chemical treatments, plating, coating, painting, etching, and non-destructive inspection—are integral to the aviation sector. These techniques enhance the durability, corrosion resistance, and aesthetic quality of critical aircraft components. They are essential in maintaining the performance and extending the lifespan of parts such as fuel nozzles, engine components, landing gear, and navigation systems.
Key Growth Drivers
The expansion of the aviation MRO surface treatment market is driven by several significant factors. Increasing environmental and mechanical stresses on aircraft components have heightened the demand for chemical surface treatments, which provide essential protection and prolong component life. Additionally, government investments in aviation infrastructure and maintenance facilities are fostering technological advancements within the sector. Innovations in coating technologies are also contributing to market growth; modern aerospace coatings not only shield aircraft from corrosion and adverse weather conditions but also enhance operational efficiency by reducing drag and improving dirt resistance. Furthermore, these coatings enable airlines to establish distinctive branding, offering a competitive advantage in a crowded marketplace.
Market Challenges
Despite a positive growth outlook, the market faces several challenges. Regulatory constraints remain a significant hurdle, as stringent safety, environmental, and quality standards in aviation restrict the flexibility of surface treatment processes. Compliance with these rigorous regulations demands substantial resources and expertise. The industry is also grappling with a shortage of skilled labor capable of operating advanced surface treatment systems, which may impede the adoption of new technologies. Economic and operational pressures further complicate the landscape. For instance, tariffs have affected demand for major players such as Lufthansa Technik, as noted in recent MRO reports. Additionally, ongoing operational difficulties experienced by airlines, including those reported by Spirit Airlines, could influence market dynamics and procurement decisions.
Emerging Trends and Competitive Responses
Innovation is transforming the surface treatment segment of aviation MRO. The deployment of robotic aircraft painting systems is enhancing both efficiency and consistency in surface applications. Concurrently, the integration of 3D printing in aircraft manufacturing is generating demand for novel surface treatment solutions tailored to these advanced components. These technological advancements present opportunities for companies to offer more precise, efficient, and customizable services.
In response to economic pressures and shifting market conditions, industry competitors are increasingly prioritizing cost-efficiency and technological innovation. Efforts to develop advanced surface treatment technologies aim to sustain competitive advantage and adapt to evolving procurement strategies within the aviation sector.
Outlook
The aviation MRO surface treatment market is positioned for growth through 2030, contingent upon how effectively industry participants address regulatory challenges, labor shortages, and broader economic factors. Continued investment in innovation and operational efficiency will be critical for capitalizing on emerging opportunities and supporting sustained market expansion.
American Airlines Software Glitch Disrupts Thanksgiving Travel
American Airlines Software Glitch Disrupts Thanksgiving Travel
American Airlines is confronting a major software malfunction that has grounded over 200 of its Airbus A320 aircraft, causing significant disruption amid the peak Thanksgiving travel period. Initially, the problem was believed to affect 340 planes, but subsequent inspections reduced the number to 209. This incident comes at a critical time when millions of Americans are traveling for the holiday, intensifying the impact on air travel and tourism.
Cause and Response to the Software Issue
The glitch has been traced to a vulnerability in the aircraft’s software, linked to intense solar radiation that can corrupt data essential for flight controls. This discovery prompted a global recall and urgent software updates across the affected fleets. American Airlines crews have been working tirelessly to implement these fixes, with fewer than 150 jets still awaiting updates as of Friday night. The airline has reiterated its commitment to passenger safety and is making every effort to restore full operational capacity before the height of holiday travel.
The disruption extends beyond American Airlines. Delta Air Lines has issued warnings that some of its aircraft may also be affected, though it anticipates only minor operational disturbances. United Airlines reported that six of its planes require software updates, with minimal expected delays. International carriers, including the European low-cost airline Wizz Air, have also begun rolling out necessary patches to prevent similar issues.
Impact on Travel and Airport Operations
The timing of this software glitch poses a significant challenge for the tourism sector, which depends heavily on seamless air travel during Thanksgiving. With approximately six million travelers expected to fly for family reunions and vacations, delays and cancellations are placing considerable strain on airport operations nationwide. According to FlightAware, more than 3,700 flights within the United States were delayed on Friday, and nearly 100 were canceled, leaving thousands of passengers scrambling for alternatives.
Major travel hubs such as New York, Los Angeles, and Orlando are experiencing heightened congestion as travelers face uncertainty regarding their flight schedules. The ripple effects extend beyond American Airlines, with airports across the country managing backlogs and longer wait times. Passengers are being advised to monitor their flight status closely, arrive at airports early, and consider travel insurance to mitigate the financial consequences of cancellations.
Broader Implications for the Aviation Industry
This incident underscores the increasing reliance of the aviation industry on complex technology and the challenges airlines face in maintaining operational reliability during peak travel periods. While airlines and ground crews are working urgently to resolve the issue, the disruption highlights the vulnerability of modern air travel to unforeseen technical problems, particularly during critical holiday seasons.
Airbus Limits A320 Operations in Cold Weather for Jets with Pratt & Whitney Engines
Airbus Imposes Cold-Weather Operating Restrictions on A320neo Jets with Pratt & Whitney Engines
Airbus has implemented new cold-weather operating restrictions for certain A320neo-family aircraft equipped with Pratt & Whitney’s PW1100G-JM engines, the company confirmed on November 28. These updated procedures aim to enhance safety and reliability during ground handling and engine operation when temperatures drop below freezing.
Updated Procedures and Operational Impact
The revised protocols specifically address A320neo jets powered by the PW1100G-JM geared turbofan, an engine that has experienced ongoing reliability challenges. These include premature wear caused by contaminated powdered-metal components and a global shortage of replacement parts. Airbus described the new measures as precautionary, designed to mitigate risks associated with engine start-up and warm-up in extreme cold conditions. Low temperatures can adversely affect engine components, oil viscosity, vibration patterns, and sensor accuracy, potentially leading to abnormal indications or slow spool-up during pre-flight checks.
A significant element of the restrictions is a prohibition on take-offs in freezing fog when visibility falls below 150 meters. This limitation has already led airlines such as Air Astana to modify their operations. Additional adjustments may involve extended engine warm-up periods, altered pushback sequences, and more rigorous monitoring of engine parameters prior to departure. Airbus has disseminated these changes through updated operational documentation and safety bulletins, although full procedural details have not been publicly disclosed.
A company spokesperson emphasized that these modifications are not a response to any recent safety incident but are based on accumulated operational data. “Airbus has modified existing procedures for engine operations on the ground in freezing conditions to ensure safe and reliable handling of affected aircraft,” the spokesperson stated.
Broader Context and Industry Response
The PW1100G-JM engine powers hundreds of A320neo aircraft worldwide and remains under close regulatory scrutiny by both the Federal Aviation Administration (FAA) and the European Union Aviation Safety Agency (EASA). Numerous airlines across Europe, Asia, and North America have temporarily grounded parts of their fleets pending inspections or the availability of replacement components. The introduction of cold-weather restrictions presents an additional operational challenge, particularly for carriers operating in northern climates such as Scandinavia, Canada, Russia, and the northern United States, where freezing conditions are prevalent.
Pratt & Whitney is collaborating closely with Airbus to resolve the engine issues, while Airbus continues to maintain communication with affected operators. This situation highlights the operational difficulties airlines face in adverse weather and underscores the importance of ongoing coordination between the two manufacturers to ensure sufficient engine supply and production capacity.
Despite these challenges, Airbus has affirmed that the affected aircraft remain airworthy and safe to operate. The company is working alongside Pratt & Whitney and global aviation authorities as winter conditions intensify and more operational data becomes available. Industry analysts observe that while airlines can adapt to the procedural changes, persistent engine reliability concerns and supply constraints continue to strain operations. Some carriers have been compelled to adjust schedules, reduce flight frequencies, or lease additional aircraft to maintain service continuity.
Airbus Issues Repair Directive for 6,000 A320 Family Jets
Airbus Issues Repair Directive for 6,000 A320 Family Jets
Aviation authorities and Airbus have issued an urgent directive mandating immediate repairs and inspections for approximately 6,000 A320 family aircraft worldwide. This action follows a recent flight-control incident involving a JetBlue aircraft, which experienced an uncontrolled "pitch down" event last month. The incident has raised significant safety concerns regarding one of the most widely operated commercial aircraft families globally.
Cause and Response
Investigations have identified a vulnerability in the flight-control computers of the affected jets, linked to software that may be susceptible to interference from solar radiation. In response, Airbus has ordered a comprehensive software update across its entire A320 family fleet, which includes the A318, A319, A320, and A321 models. The update is designed to address the identified flaw and enhance the resilience of the flight-control systems.
The modifications are classified as urgent and are expected to require approximately two hours per aircraft to complete. Airlines worldwide are now engaged in a concerted effort to implement the necessary changes, resulting in operational disruptions during a peak travel season. Several carriers have reported delays and cancellations as maintenance teams work continuously to minimize the impact on passengers and restore full service.
Industry and Market Implications
The directive has also prompted reactions within financial markets, with investors expressing concerns about the potential economic consequences for airlines compelled to ground aircraft for repairs. Operational efficiency is under heightened scrutiny, and some industry analysts suggest that competitors may attempt to leverage any perceived vulnerabilities in Airbus’s fleet management to their advantage.
Beyond the immediate logistical and financial challenges, the incident has sparked broader discussions about aviation safety and the industry's capacity to address emerging technological risks. It highlights the critical importance of robust software safeguards in modern aircraft and the necessity for swift, coordinated responses when potential hazards are detected.
Airbus has emphasized that the software update is a precautionary measure, reaffirming that passenger safety remains its highest priority. Regulators continue to monitor the situation closely as airlines work to complete the mandated repairs and return affected aircraft to service.
Airlines Address Software Glitch on A320 Aircraft Causing Flight Disruptions
Airlines Address Software Glitch on A320 Aircraft Causing Flight Disruptions
Global Response to Software Vulnerability
Airlines worldwide encountered significant operational challenges this past weekend as they worked to resolve a software glitch affecting the Airbus A320 family of aircraft. The issue came to light following an investigation into a JetBlue incident last month, where a sudden and unexplained drop in altitude was traced to corrupted flight control data. Airbus disclosed on Friday that intense solar radiation likely compromised critical onboard computer systems, necessitating an urgent software update.
The European Union Aviation Safety Agency (EASA) identified that a recent software update to the A320’s flight systems introduced the vulnerability. Both EASA and the U.S. Federal Aviation Administration (FAA) have mandated airlines to implement a corrective software patch immediately. More than 500 U.S.-registered A320 aircraft are affected, with carriers around the globe mobilizing swiftly to minimize disruption and ensure passenger safety.
Operational Impact and Airline Measures
The software update has caused varying degrees of disruption across different airlines and regions. American Airlines, which operates approximately 480 A320 family aircraft, reported that 209 planes required the software fix. The airline anticipated some delays but sought to limit cancellations, emphasizing that safety remains the foremost priority. The update process, which takes roughly two hours per aircraft, was expected to be largely completed by Friday, with a few remaining into Saturday.
United Airlines identified six affected aircraft within its fleet and projected only minor disruptions to a limited number of flights. Delta Air Lines reported that fewer than 50 of its A321neo aircraft were impacted. JetBlue and other U.S. carriers also faced operational delays affecting hundreds of aircraft. In Asia, All Nippon Airways canceled 65 domestic flights on Saturday and warned of potential further cancellations as it worked to update more than 30 planes. Air India stated that engineers had completed the reset on over 40% of its affected aircraft, with no cancellations reported to date. Hawaiian Airlines confirmed it was unaffected by the glitch.
The timing of the software fix coincided with the busy U.S. Thanksgiving travel period, compounding the challenge for airlines striving to maintain schedules amid heightened passenger volumes. Market observers have closely monitored the situation as carriers balance the urgency of compliance with the need to minimize passenger inconvenience.
International Developments and Safety Assurance
In Europe, authorities responded promptly. French Transport Minister Philippe Tabarot reported that the situation had stabilized, with most software updates installed and French airports returning to near-normal operations. In the United Kingdom, disruptions were minimal; British Airways required updates on only three aircraft, while EasyJet cautioned that schedule changes remained possible.
The issue extended even to the Vatican, where Pope Leo XIV’s ITA Airways A320neo charter required the software fix during his inaugural foreign trip. Technicians and the necessary components were dispatched to Istanbul to ensure the papal flight could proceed safely to Lebanon.
Airbus has emphasized the critical importance of the software upgrade, underscoring that the fix is essential to maintaining flight safety. Airlines are working around the clock to implement the changes and mitigate delays, with most expecting a swift return to normal operations. As the updates near completion, the aviation industry remains focused on restoring schedules and reassuring passengers that safety remains the highest priority.
Thousands of Airbus Aircraft Grounded by Software Glitch
Thousands of Airbus Aircraft Grounded by Software Glitch
Critical Software Vulnerability Grounds Airbus A320 Fleet
Airbus was compelled to ground a substantial portion of its global fleet late Friday after detecting a critical software vulnerability affecting its A320 family of aircraft. The issue, linked to intense solar radiation, raised serious concerns about potential data corruption within flight control systems, prompting immediate and widespread action across the aviation sector.
The European manufacturer confirmed that over 6,000 A320 family aircraft worldwide were impacted by the malfunction. The company explained that “intense solar radiation may corrupt data critical to the functioning of flight controls,” and acknowledged identifying a significant number of affected planes. This vulnerability threatened the integrity of flight data during periods of heightened solar activity, necessitating urgent intervention.
Regulatory Response and Industry Impact
In response, the European Union Aviation Safety Agency (EASA) temporarily suspended flights on certain Airbus models. This decision followed an incident involving a JetBlue flight from Florida to Mexico, which was forced to make an emergency landing after experiencing a sudden loss of altitude. Reports indicated that approximately 15 passengers required hospitalization as a result of the event.
The grounding occurred amid the peak holiday travel season, causing widespread disruption. Major airlines including Lufthansa, Swiss, Austrian Airlines, and American Airlines rapidly mobilized to deploy emergency software updates aimed at rectifying the vulnerability. Sara Ricci, communications chief for Airbus’s commercial aircraft division, stated that approximately 85 percent of the affected aircraft could be remedied swiftly, with most updates or software reversions completed in under two hours per plane. “The vast majority will be back in the sky very soon,” Ricci affirmed.
While some carriers, such as Brussels Airlines, reported no impact on their operations, others managed to complete the necessary software adjustments by the end of the day, thereby minimizing the duration of the disruptions.
Challenges of Modern Aircraft Systems and Solar Radiation
This incident has brought into sharp focus the increasing complexity of modern aircraft systems and the particular vulnerabilities posed by solar radiation to “fly-by-wire” technology, which depends extensively on electronic flight controls. As airlines and regulators worked expeditiously to restore normal operations, the episode underscored the critical importance of robust software safeguards in maintaining aviation safety.
Urban Ascent: Coventry takes flight as a drone-ready City
Urban Ascent: Coventry Takes Flight as a Drone-Ready City
Coventry is poised to establish itself as a national frontrunner in the integration of urban drones and air taxis through the launch of Urban Ascent, an ambitious initiative designed to create a comprehensive framework for aerial mobility services across the United Kingdom. This collaborative effort unites technology companies, academic institutions, and local government to develop a city-wide blueprint that ensures the safe and sustainable incorporation of drones and electric vertical take-off and landing (eVTOL) aircraft into everyday urban environments.
Transforming Urban Services Through Aerial Mobility
Urban Ascent aims to explore the transformative potential of drones across several critical sectors. In medical logistics, drones could facilitate the rapid transport of samples, medicines, and essential supplies for the National Health Service (NHS), significantly enhancing response times. Emergency services stand to benefit from the delivery of life-saving equipment such as defibrillators, alongside the provision of live aerial footage to improve situational awareness during incidents. The project also envisions automated infrastructure inspections, enabling efficient surveys of roads, bridges, and utilities that reduce costs, minimize risks, and limit disruptions. Furthermore, Urban Ascent is laying the groundwork for future urban air taxi operations, which promise to improve mobility while alleviating congestion and reducing emissions.
Councillor Jim O’Boyle, cabinet member for jobs, regeneration, and climate change, underscored Coventry’s pioneering role in transport innovation. He remarked, “This project will see us take the next step in aligning technology with public needs. We’re talking about drones flying urgent medical supplies between hospitals, inspecting bridges and roads, and providing overviews of incidents like road accidents and congestion. We’re proud to help shape the next chapter of UK aviation from the heart of Coventry.”
Building the Framework for Future Urban Drone Operations
Unlike live flight demonstrations, Urban Ascent focuses on establishing the necessary frameworks to support future urban drone activities. This includes developing a robust business case for urban air mobility, evaluating regulatory and infrastructure readiness, and planning for vertiports—specialized hubs designed to accommodate eVTOL aircraft. The project’s comprehensive approach aims to ensure that Coventry is well-prepared to integrate these emerging technologies into its urban fabric.
Despite its promise, the initiative faces significant challenges. The electric VTOL aircraft sector has experienced slow progress and high operational costs, factors that may influence the speed of drone infrastructure development in Coventry. Market responses are expected to vary, with some investors showing greater confidence in logistics and drone operations over passenger air taxi services. Concurrently, competing cities and regions are likely to enhance their own urban infrastructure and logistics capabilities, increasingly utilizing mobile crowd data and urban digital twins to inform planning and decision-making processes.
Mariya Tarabanovska, Innovation Lead – Future Flight at Innovate UK, highlighted the collaborative spirit driving the project: “Urban Ascent is a strong example of how local authorities, industry, and academia can come together to prepare for the safe and scalable integration of new aviation services that benefit local communities and drive growth across the UK.”
A Consortium Driving Innovation
Funded by Innovate UK and the Department for Transport through the Future Flight Regional Demonstrator programme, Urban Ascent is led by Coventry City Council in partnership with Skyfarer Ltd, Coventry University, the Manufacturing Technology Centre (MTC), SLiNK-TECH, and Odys Aviation. The Midlands Aerospace Alliance also supports the consortium, building on insights gained from the earlier Drone Ready Cities initiative.
Coventry City Council leverages its established reputation as a hub for transport innovation, having pioneered the UK’s first electric bus fleet and served as a testbed for autonomous vehicle technologies. Each partner contributes specialized expertise spanning aerospace, systems integration, transport research, urban planning, and public service design, collectively creating a model for place-based innovation. Skyfarer, recognized for its leadership in drone operations and flight safety, will play a pivotal role in operational and regulatory planning as Coventry charts its course toward a drone-enabled future.
Chandrasekaran Says Air India Is a Responsibility, Not Just a Business Opportunity for Tata Group
Chandrasekaran: Air India Represents a Responsibility Beyond Business for Tata Group
Mumbai — Tata Sons Chairman N. Chandrasekaran underscored on Saturday that Air India is more than a mere business venture for the Tata Group; it embodies a profound responsibility. Speaking at an event commemorating the 121st birth anniversary of J.R.D. Tata, Chandrasekaran highlighted the ongoing challenges confronting the aviation sector, including volatile global supply chains, scarcity of aircraft parts, and delays in fleet modernization.
Challenges in the Aviation Sector and Air India’s Transformation
Chandrasekaran emphasized the persistent difficulties faced by the aviation industry, noting that disruptions in global supply chains have rendered the availability of essential aircraft components and infrastructure uncertain. He remarked, "Every plan that you have is becoming difficult because of the situations that you face in this area." He further pointed out that aviation remains a capital-intensive sector with narrow profit margins, complicating efforts to achieve sustained profitability.
Since acquiring the loss-making Air India and Air India Express in January 2022, the Tata Group has embarked on an ambitious five-year plan to transform the airline. However, progress has been slower than expected, hindered by operational challenges and supply chain constraints. The financial burden of Air India’s losses has also had wider implications. Singapore Airlines, a stakeholder in the Tata-led airline, reported an 82% decline in net profit for the second quarter, attributing much of the downturn to Air India’s impact on earnings. Despite these setbacks, Singapore Airlines has reaffirmed its commitment to supporting Air India’s turnaround, while competitors remain cautious amid the shifting market dynamics.
Growth Prospects and Strategic Initiatives
Chandrasekaran highlighted the significant growth potential within India’s aviation sector, linking it closely to the country’s economic expansion. He stated, "Every single percentage growth in GDP will give a 2 per cent growth for the domestic aviation sector. If India grows 8 per cent, the aviation industry grows 16 per cent. This game will play out and continue for a long time, at least the next three decades." He described the current period as an "exciting phase of economic growth," particularly for aviation.
In an effort to strengthen Air India’s market position and enhance connectivity, the airline recently reinstated its codeshare agreement with Air Canada. This strategic partnership aims to expand travel options between India and Canada, supporting Air India’s efforts to broaden its global footprint amid ongoing operational challenges.
Chandrasekaran concluded by reaffirming the Tata Group’s dedication to Air India’s revival, framing the airline’s transformation as both a formidable challenge and a solemn duty. "I firmly believe for the Tata Group, Air India is just not a business opportunity. It’s a responsibility," he asserted.
Airbus Issues Emergency Recall of 6,000 A320 Jets Following JetBlue Incident
Airbus Issues Emergency Recall of 6,000 A320 Jets Following JetBlue Incident
Airbus SE has initiated an emergency recall affecting 6,000 A320-family aircraft worldwide after a recent incident involving a JetBlue jet revealed a critical software vulnerability linked to solar radiation. The recall, announced on Friday, mandates immediate repairs and has triggered widespread operational disruptions across major markets including the United States, Europe, Asia, and Latin America.
Incident and Recall Details
The recall was prompted by an event on October 30, when a JetBlue A320 experienced an unexpected loss of altitude due to a malfunction in its flight-control system. Airbus attributed the failure to intense solar flares that compromised essential data within the aircraft’s flight-control computers. In response, the manufacturer has ordered operators to revert to an earlier software version before the affected jets can resume passenger service. Airbus acknowledged the significant inconvenience caused, stating, “This action will lead to operational disruptions to passengers and customers. We apologize for the inconvenience.” This recall represents one of the largest in Airbus’s 55-year history and comes shortly after the A320 surpassed Boeing’s 737 as the world’s most-delivered jet.
Technical Vulnerability and Repair Requirements
The software flaw was identified in the Elevator and Aileron Computer (ELAC), which controls the aircraft’s pitch and roll functions. Airbus has warned that over 1,000 jets may also require hardware modifications, potentially prolonging downtime for some operators. The French aerospace supplier Thales Group clarified that the affected software is outside its scope of responsibility. According to an internal Airbus bulletin, all necessary repairs must be completed before the aircraft’s next flight, placing considerable pressure on airlines to expedite maintenance.
Impact on Airlines and Travel Disruptions
The recall has caused immediate and significant disruptions during a peak travel period. American Airlines, the largest operator of A320 jets globally, reported that 340 of its aircraft require the mandated fix. United Airlines is similarly affected. European carrier Air France has canceled dozens of flights, while Colombia’s Avianca has suspended ticket sales through December 8. Other airlines, including IndiGo, Lufthansa, easyJet, Volaris, and Air New Zealand, have issued warnings of delays and cancellations as they temporarily ground affected aircraft. Although most repairs are expected to take approximately two hours per jet, airlines have expressed concern that labor shortages and existing maintenance backlogs may hinder rapid restoration of service.
Airbus Financial Performance Amid Recall
Despite the operational challenges posed by the recall, Airbus reported a 7% increase in consolidated revenue, reaching €47.4 billion for the first nine months of 2025. This growth was driven by robust deliveries across its commercial, helicopter, and defense divisions. The company recorded 610 gross aircraft orders and 514 net orders during this period, ending with a backlog of 8,665 jets. Commercial aircraft revenue rose to €33.9 billion, supported by 507 deliveries, while Airbus Helicopters posted a 16% revenue increase to €5.7 billion. The emergency recall highlights the growing complexities and technological risks confronting the global aviation industry as manufacturers and airlines navigate operational pressures.
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