An expert in aviation has unveiled a significant strategy that could potentially resolve the enduring mystery surrounding the disappearance of flight MH370.
Following the suspension of search operations for the aircraft, Ismail Hamad expressed his belief that taking decisive action could bring closure to the tragic event that has affected many. Recent exploration efforts by a marine robotics company, Ocean Infinity, were halted in April, with Malaysia’s Transport Minister, Anthony Loke, attributing the pause to seasonal factors.
Although the search has not yet resumed, the Boeing 777, carrying 227 passengers and 12 crew members, vanished on its journey from Kuala Lumpur to Beijing on 8 March 2014. This incident remains a baffling enigma in the aviation world and stands as the deadliest single occurrence involving a missing plane.
Mr. Loke indicated that the search operation would recommence by the end of the year. Meanwhile, Ismail Hamad, the Chief Engineer at Egyptair, is confident that his proposed solution could save time and resources while unraveling the mystery that has perplexed authorities and families. Ismail cast doubt on the authenticity of the plane wreckage images recovered from the ocean, citing inconsistencies in the aircraft’s paint condition.
Dismissing conspiracy theories, Ismail pointed to a possible hijacking scenario as the cause of the disappearance, speculating on potential landing locations within the Philippine archipelago. He emphasized the challenges a hijacker would face in navigating over open waters for an extended period.
Ismail elaborated on the complexities of flying a large aircraft like the B777-200 for such a duration without advanced navigation systems. He suggested narrowing down the search area to the Malacca Strait and the Perth coast, considering various factors that could have impacted the flight path.
In conclusion, the engineer underscored the significance of advanced navigation aids in determining the fate of the missing aircraft, urging a focused search effort in specific regions based on calculated factors.