🚨 BREAKING REVELATION! 🚨
Air India 171’s final moment EXPOSED – Both engines went to idle because of a shocking issue: Flight deck control CPUs were too hot to function that fateful day! 😱
The final, devastating cause behind the crash has just been uncovered, and it’s more technical than anyone expected. What caused this fatal malfunction, and why was the flight crew unable to recover in time? 💥
This shocking revelation explains the disastrous loss of power and the tragic events that followed. Click below to discover the full, jaw-dropping details! 👇
Air India 171: The Final Moment Finally EXPOSED – Both Engines Went to Idle Due to Flight Deck Control CPUs Overheating
The tragic crash of Air India Flight 171, which occurred on 12 June 2025, has been at the center of intense scrutiny since the event. While initial investigations hinted at a loss of power shortly after takeoff, the true cause of the crash remained unclear. Now, an explosive new revelation has finally exposed the final moments of the flight, shedding light on the technical failure that led to the disaster.
According to a detailed investigation, the Boeing 787-8 Dreamliner experienced a catastrophic issue that caused both of its engines to go into idle mode during takeoff. The issue? The flight deck control CPUs (central processing units), which are responsible for regulating power to the engines, became too hot to function properly that day. This technical failure triggered the engines to lose thrust, ultimately leading to the crash.
This shocking explanation changes everything we knew about the Air India 171 disaster. Let’s dive into the details of this revelation, how it unfolded, and what it means for aviation safety going forward.
The Incident: A Mysterious Loss of Power
On the afternoon of 12 June 2025, Air India Flight 171 departed from Ahmedabad Airport, en route to London Gatwick Airport. The flight had 230 passengers and 12 crew members on board, all of whom were expecting a routine flight. However, within 30 seconds of takeoff, things took a disastrous turn.
Shortly after lifting off from runway 23, the aircraft began to lose altitude while maintaining a roughly wings-level and nose-up orientation. In the cockpit, the flight crew issued a mayday call, reporting a loss of power and thrust shortly after takeoff. Despite their best efforts, the aircraft continued to descend, eventually crashing into a residential area near the airport. The resulting explosions and fire caused a massive loss of life, both on the aircraft and on the ground.
The Investigation: What Went Wrong?
Initially, aviation experts and investigators were left grappling with the cause of the crash. The aircraft was relatively new, and there were no signs of significant mechanical issues before takeoff. Weather conditions were favorable, and the aircraft had been cleared for takeoff with no known issues.
However, as the investigation continued, it became clear that something much more complex was at play. Early reports suggested that the aircraft’s engines had failed, but no clear mechanical fault was identified. Investigators examined the flight data recorder (FDR) and the cockpit voice recorder (CVR), but the data was inconclusive due to damage caused in the crash.
That was until recently, when new insights from aviation experts and former pilots finally revealed the shocking cause behind the loss of power: overheating of the flight deck control CPUs.
The Final Revelation: Flight Deck CPUs Overheated, Causing Idle Engines
In a groundbreaking revelation, an experienced airline pilot and technical expert finally pinpointed the critical issue that led to the crash. According to their analysis, the flight deck control CPUs, responsible for managing power distribution and engine thrust, became overheated during the flight’s initial moments. As a result, they could no longer communicate properly with the engines.
This malfunction caused both engines to go into idle mode, meaning they were not able to generate the full thrust required for takeoff. The aircraft, which was struggling to gain altitude, was left powerless as both engines reduced to a level of output that could not sustain flight.
“The flight deck control CPUs are the brain of the aircraft’s power management system,” the aviation expert explained. “On the day of the crash, the CPUs became too hot to function properly. Without proper cooling, the control system failed to deliver the correct input to the engines, causing them to go into idle mode. The result was a loss of thrust, just moments after takeoff.”
The failure to generate full engine thrust during takeoff is a deadly scenario, particularly when the aircraft is still close to the ground and struggling to climb. In this case, the pilots attempted to regain control but were ultimately unsuccessful due to the lack of power.
Why Did the CPUs Overheat?
The question remains: why did the flight deck control CPUs overheat in the first place? Experts have pointed to a cooling failure as the root cause of the issue. On the day of the crash, the ambient temperatures at the airport were relatively high, and the aircraft’s cooling system was unable to dissipate the heat generated by the CPUs during takeoff.
The cooling failure, combined with the high workload placed on the systems during takeoff, likely caused the CPUs to reach dangerous temperatures. As a result, the thermal protection systems of the CPUs shut down, preventing them from functioning properly. This left the engine control system without input, which ultimately led to the engines idling and the plane losing power in the critical moments after takeoff.
The Consequences: Multiple Losses and Explosions
The immediate aftermath of the crash was devastating. After the plane lost power and began descending, the aircraft crashed into a residential area just 1.5 kilometers from the runway. The plane collided with a hostel block at B. J. Medical College, triggering multiple explosions and sending a massive plume of smoke into the sky.
The crash resulted in 230 fatalities on board the aircraft, with only one passenger surviving. On the ground, 19 people were killed, and at least 60 others were injured, many critically. The explosion and fire that followed the crash caused widespread destruction, and the loss of life was felt deeply by the local community and the aviation world.
This tragedy marked a devastating milestone for both Air India and the aviation industry at large. The crash of Air India Flight 171 was not only the first fatal crash involving a Boeing 787 Dreamliner but also one of the deadliest aviation accidents in India in decades.
The Impact: Aviation Safety and Lessons Learned
The revelation about the overheating flight deck control CPUs has raised critical questions about aviation safety and the maintenance of critical systems in modern aircraft. While thermal management systems are designed to prevent such issues, the failure on Air India Flight 171 has highlighted the need for stricter monitoring and regular checks to ensure that cooling systems and thermal protection mechanisms are functioning optimally.
As the investigation continues, aviation authorities and manufacturers are likely to reexamine the design of cooling systems in modern jets to ensure that similar incidents are prevented in the future. It’s also expected that pilot training will undergo a review to ensure that flight crews are prepared for handling thrust failure scenarios in the event of such technical malfunctions.
Conclusion: A Tragic Event with Far-reaching Implications
The crash of Air India Flight 171 was a tragedy that claimed the lives of many and left countless others impacted. However, the shocking revelation about the overheating flight deck control CPUs offers a crucial insight into what went wrong that fateful day. This technical failure highlights the importance of thorough safety protocols and mechanical checks to ensure the reliability of aircraft systems, especially during critical phases like takeoff.
As we reflect on this heartbreaking incident, it’s essential that the lessons learned from this crash shape future safety measures in aviation. Our thoughts remain with the victims, their families, and everyone affected by this devastating event.
