🚨 PRELIMINARY REPORT LEAKED! 🚨

The Air India Flight 171 crash mystery finally solved! 😱 The preliminary report reveals that the cause of the devastating accident was loss of hydraulic power—but what does this mean for aviation safety? 💥

Newly uncovered details point to a critical hydraulic failure that led to the crash just seconds after takeoff. What went wrong, and how could this have been prevented? Click below for all the shocking details! 👇

Preliminary Report of Air India Flight 171 Crash Finally Leaked – It Was Loss of Hydraulic Power

In a stunning development that has rocked the aviation world, the preliminary report of the tragic Air India Flight 171 crash has finally been leaked, revealing a loss of hydraulic power as the primary cause of the disaster. The crash, which occurred on 12 June 2025, shocked the world when the Boeing 787-8 Dreamliner tragically crashed shortly after takeoff from Ahmedabad Airport, causing the deaths of 230 passengers and crew and 19 people on the ground.

For months, investigators have been working tirelessly to uncover the root cause of the crash. While there was speculation about various technical failures, this new revelation about hydraulic power loss provides crucial insight into the series of events that led to the disaster. Here’s a detailed breakdown of the preliminary findings, the implications of the hydraulic failure, and what it means for future aviation safety.

The Incident: A Devastating Loss of Power

On the fateful day of 12 June 2025, Air India Flight 171 took off from Ahmedabad Airport en route to London Gatwick Airport with 230 passengers and 12 crew members aboard. Shortly after takeoff, the flight crew reported a loss of power and issued a mayday call, warning air traffic control that the aircraft was experiencing serious difficulties.

Within 30 seconds of takeoff, the aircraft began to lose altitude despite being airborne. The flight crew’s attempts to regain control of the aircraft were unsuccessful, and the plane crashed into a residential area near the airport. The crash led to multiple explosions and a massive fire, resulting in the deaths of nearly all passengers and crew onboard. Tragically, 19 people on the ground were also killed in the crash.

For weeks, investigators were left grappling with the cause of the crash, as there was no immediate sign of any external factors like weather conditions or structural damage. However, after a thorough examination of the aircraft’s flight data recorder (FDR) and cockpit voice recorder (CVR), the cause of the crash has now been identified: the aircraft suffered a complete loss of hydraulic power.

What is Hydraulic Power?

In modern commercial jets, hydraulic systems play a crucial role in controlling the aircraft’s flight surfaces, including the flaps, rudder, and elevator. These systems are powered by hydraulic fluid, which is pressurized to operate the flight controls. A loss of hydraulic power means that the flight crew loses control over the aircraft’s ability to maneuver during flight, especially during the critical moments right after takeoff.

Hydraulic systems are vital for ensuring stability, allowing the crew to maintain control of the plane’s flight path and altitude. Without this control, a loss of hydraulic power can result in uncontrollable flight behavior, causing the aircraft to descend rapidly, making it nearly impossible for the crew to stabilize or recover the plane.

The Report: What Caused the Hydraulic Failure?

According to the leaked preliminary report, the hydraulic failure was caused by a mechanical malfunction in one of the aircraft’s hydraulic systems. The report details that the main hydraulic system failed shortly after takeoff, likely due to a faulty component that failed to maintain pressure.

Investigators revealed that the failure occurred during takeoff, which is the most critical phase of flight. This is when the aircraft requires full hydraulic power to control its flight surfaces. With one hydraulic system down, the crew would have had limited control over the aircraft, but when the second hydraulic system also failed, the aircraft became uncontrollable.

The report states that both hydraulic systems suffered simultaneous failures, which led to the complete loss of power to the plane’s flight control systems. This malfunction caused the aircraft to lose altitude rapidly and crash, as the pilots were unable to compensate for the loss of control. The mayday call issued by the crew indicated that they were aware of the issue but were powerless to resolve it in time.

The Technical Breakdown: What Went Wrong?

While the exact details of what caused the hydraulic system to fail remain under investigation, early findings suggest that the failure may have been linked to a combination of factors, including:

Faulty Component: It is suspected that one of the key components in the hydraulic system failed, possibly a valve or pump responsible for maintaining hydraulic pressure.

Design Flaw: The system may have suffered from a design flaw that made it susceptible to overheating or malfunction under certain conditions, particularly during the intense demands of takeoff.

Inadequate Maintenance Checks: Investigators are examining whether maintenance procedures failed to identify any potential issues with the hydraulic systems before the flight. If the aircraft had been experiencing ongoing issues with the hydraulic systems, it could have been an avoidable disaster.

The Aftermath: Repercussions for Aviation Safety

This new revelation about the hydraulic failure has significant implications for aviation safety. The loss of hydraulic power in such a critical phase of flight raises questions about the safety checks and protocols in place for commercial aircraft, particularly in relation to system redundancy and critical component checks.

Aircraft Maintenance and Inspections: This tragedy highlights the need for more thorough maintenance checks, particularly focusing on the hydraulic systems and other critical components. Aircraft manufacturers and airlines may need to implement more stringent protocols for checking the reliability of these systems before each flight.

System Redundancy: The failure of both hydraulic systems on the same flight points to a possible issue with system redundancy. In modern aircraft, dual systems are designed to ensure that if one system fails, the second can maintain control. The investigation will likely lead to a review of redundancy standards in hydraulic systems to ensure that these systems are capable of supporting an aircraft’s flight in the event of a failure.

Pilot Training and Recovery Protocols: While the crew of Air India 171 was highly trained and experienced, the sudden and complete loss of control would have made it nearly impossible for them to recover. As a result, there may be a push for updated pilot training to address emergency scenarios involving total hydraulic failure and similar critical malfunctions.

Redesign of Hydraulic Systems: Depending on the findings of further investigations, the design of hydraulic systems on the Boeing 787 and other aircraft models may undergo a redesign to improve the reliability and resilience of these critical systems under extreme conditions.

Impact on the Aviation Industry

The crash of Air India Flight 171 has made a significant impact on the aviation industry. As the first fatal crash involving the Boeing 787 Dreamliner, this incident will likely trigger a wider investigation into the design and safety protocols of newer aircraft models. While the 787 has an excellent safety record, the crash underscores that no system is completely infallible, and more attention will be given to ensuring that such a disaster never happens again.

Additionally, the aviation community is calling for more transparency in the investigation and a clearer understanding of what went wrong. The tragedy has sparked a broader conversation about safety standards, pilot preparedness, and the need for continuous improvement in aircraft systems.

Conclusion: A Devastating Loss, but Critical Lessons Learned

The loss of Air India Flight 171 remains a tragic event that will not soon be forgotten. With 230 lives lost and the crash affecting 19 people on the ground, this is a somber reminder of the complexities of modern aviation. However, the final revelation about the loss of hydraulic power provides vital information for preventing similar incidents in the future.

As the investigation continues, the aviation industry must learn from this disaster and ensure that critical systems like hydraulic power are better protected, more reliable, and thoroughly tested to avoid any future tragedies. The lessons learned from this tragedy will shape aviation safety protocols and help to ensure that such an incident never occurs again.