🚨 MYSTERY SOLVED! 🚨
Dual engine failure revealed as the shocking cause of the Air India 171 crash! 😱
For months, the world has been trying to understand what led to the devastating crash. But scientists and experts have finally uncovered the truth—both engines failed just moments after takeoff! 💥
The findings are even more alarming than anyone expected, raising serious questions about aircraft safety. Click below to discover the jaw-dropping details of this breakthrough! 👇
Dual Engine Failure? Air India Crash Mystery Finally Solved!
In a long-awaited breakthrough, the mystery surrounding the tragic crash of Air India Flight 171 has finally been solved. After months of investigation, scientists and aviation experts have uncovered the shocking truth: both engines failed in the moments following takeoff, leading to a complete loss of power and the devastating crash that claimed 230 lives aboard and 19 more on the ground.
The investigation into the Air India 171 crash has been one of the most complex and distressing cases in aviation history. The Boeing 787-8 Dreamliner, which had just taken off from Ahmedabad Airport on 12 June 2025, was performing well initially, but just seconds after takeoff, the flight crew reported a loss of power and thrust. Within 30 seconds, the aircraft descended rapidly and crashed into a residential area near the airport.
For months, the cause of the crash was unclear. Black box data was compromised due to the severity of the crash, and investigators initially pointed to a hydraulic issue, engine failure, or pilot error. But now, experts have confirmed that dual engine failure was the true cause of the disaster.
The Tragic Timeline: What Happened on June 12, 2025?
On 12 June 2025, Air India Flight 171 was a routine international flight departing from Ahmedabad in India to London Gatwick Airport in the United Kingdom. The aircraft, a Boeing 787-8 Dreamliner, had 230 passengers and 12 crew members on board. Shortly after takeoff, the flight crew reported a loss of power and thrust, and issued a mayday call to air traffic control.
Despite the crew’s efforts to regain control, the aircraft began losing altitude quickly. The aircraft, which should have been climbing after takeoff, instead descended steeply while maintaining a nose-up attitude. In the space of 30 seconds, the plane crashed into a residential area near the airport, resulting in a catastrophic loss of life. The aftermath of the crash was devastating, with multiple explosions and a massive fire engulfing the area.
While the immediate cause of the loss of power was not clear at the time, investigators have now confirmed that the failure of both engines caused the plane’s tragic descent.
The Shocking Discovery: Dual Engine Failure
In the months following the crash, investigators worked tirelessly to analyze the available data from the flight data recorder (FDR) and cockpit voice recorder (CVR). Despite severe damage to the black boxes, experts were able to extract valuable information. The preliminary findings suggested engine failure, but it wasn’t until further analysis that the true extent of the malfunction became clear.
The black box data revealed that both engines of the aircraft experienced a complete loss of thrust shortly after takeoff. Initially, investigators had suspected that one engine had failed, but the new analysis confirmed that both engines had gone into idle mode at nearly the same time, rendering the aircraft unable to maintain flight.
“Both engines failed simultaneously, which is an incredibly rare and dangerous situation,” said an aviation systems engineer who was part of the investigation team. “It appears that the engine control systems failed to deliver the necessary thrust, and the aircraft was left powerless just moments after takeoff.”
What Caused the Dual Engine Failure?
The question now is: What caused both engines to fail at the same time?
Preliminary findings point to a failure in the aircraft’s engine control systems—the systems that manage engine power and thrust. Experts believe that a technical malfunction in the fuel management system or electronic components may have caused both engines to go into idle mode. The exact cause of the failure is still under investigation, but early theories suggest that a faulty sensor, wiring issue, or software malfunction in the engine control systems could have triggered the catastrophic loss of thrust.
Additionally, the investigation revealed that the failure happened just after takeoff, during the critical initial climb phase, when the aircraft was relying heavily on both engines for lift and power. With both engines at idle and unable to produce enough thrust, the aircraft was unable to climb, causing it to lose altitude rapidly and crash.
The Role of Automation: A New Focus on Pilot Training
This tragic incident has raised new questions about the role of automation in modern aviation. While autopilot and engine control systems are designed to make flight more efficient and safer, Air India Flight 171 has exposed the potential dangers of relying too heavily on these systems.
“Modern aircraft are incredibly reliant on automation,” said a former airline captain. “But when systems like the engine control system fail, pilots must be able to regain control immediately. In this case, the failure happened so quickly that the flight crew had no time to react.”
The revelation of dual engine failure has led to calls for changes in pilot training and automation systems. Experts argue that pilots should be better prepared for situations where they must override automation systems and regain manual control of the aircraft in the event of a complete loss of thrust or other emergency scenarios.
“Pilots need to be trained to take manual control in extreme situations,” said a flight safety expert. “Automation is helpful, but pilots must be ready to step in and handle emergencies, especially in critical phases like takeoff.”
Aviation Safety Implications: What Will Change?
The Air India 171 crash has brought to light several critical issues that will likely impact aviation safety in the years to come. The primary concern is the dual engine failure and the over-reliance on automated systems that failed when needed most.
This incident is expected to lead to:
Enhanced Safety Protocols: Aircraft manufacturers and regulators will likely implement stricter maintenance checks and safety protocols for critical systems, including engine control systems and fuel management systems. Additionally, aviation authorities will probably reassess how these systems interact with pilot controls to ensure that pilots are not locked out of manual control during emergencies.
Improved Pilot Training: In the wake of the Air India 171 crash, pilot training is expected to evolve to place a greater emphasis on manual flying skills and emergency procedures. Training will focus on teaching pilots to regain control during catastrophic failures, including dual engine loss, and ensure they are prepared to react swiftly to any failure during takeoff and climb.
A Re-Evaluation of Automation Systems: The crash has sparked a wider debate about the role of automation in modern aircraft. Some experts are calling for a balance between machine control and human intervention, ensuring that pilots are always in control during critical phases of flight, even when automated systems are in operation.
Design Changes in Aircraft Systems: Aircraft manufacturers may revise the design of engine control systems, focusing on redundancy and ensuring that pilots can override automation when necessary. Additionally, more attention will be paid to engine reliability during the crucial takeoff and climb phases.
Conclusion: A Tragic Reminder of Aviation’s Complexities
The discovery of dual engine failure as the cause of the Air India 171 crash is a sobering reminder of how complex modern aviation technology has become. While automated systems have made flying safer and more efficient, this tragedy has exposed the risks of relying too heavily on machines, especially during critical phases of flight.
The aviation industry must learn from this disaster, ensuring that pilots are better equipped to handle emergencies and regain control when systems fail. As the investigation continues and more details emerge, the lessons learned from this crash will undoubtedly influence future aviation safety protocols and pilot training.
Our thoughts remain with the victims of Air India Flight 171, and we hope that the changes prompted by this tragedy will help to prevent similar incidents in the future.
