Climate change is creating stronger turbulence. Aircraft designers hope innovative new techniques will reduce its effects.

"We saw blood on the ceiling… It was just complete havoc." This was one passenger's description of the scene after a Singapore Airlines flight was hit by severe turbulence while passing over the south of Myanmar in 2024. A lot of people were on the floor." Early this spring, a United Airlines Boeing 787 also hit severe turbulence while cruising above the Philippines. A flight attendant was thrown against the ceiling, resulting in a concussion and a broken arm.

Turbulence incidents like these are increasing as a result of human-caused climate change. Severe clear-air turbulence (Cat), meaning very rough air that is invisible to satellites, radar and the human eye, has increased 55% since 1979 – when reliable meteorological records began, according to research by Paul Williams, professor of atmospheric science at the University of Reading.

Turbulence is expected to treble worldwide by the 2050s and will likely have a major impact on routes across East Asia and the North Atlantic. It could affect people's willingness to fly at all. Among the most common reasons people give when justifying a fear of flying are loss of control and a past experience with turbulence.

But turbulence, besides being potentially dangerous, also costs the aviation industry money, causing wear and tear to vehicles and lengthening some flights as pilots try to evade it. Such manoeuvres mean using up more fuel and increasing emissions. Although turbulence is usually a matter of discomfort rather than injury or death, the rising volume of chaotic motions in the atmosphere means airlines, scientists and engineers are faced with coming up with ways of mitigating the problem.

Turbulence Solutions based in Baden, Austria, has developed small "flaplets" that may be added to larger flaps (or ailerons) on aircraft wings. The flaplets adjust their angle slightly in order to counteract changes in airflow based on pressure readings taken immediately in front of them on the wing's leading edge. It helps to stabilise the plane, a bit like how birds use tiny adjustments of their feathers while flying.

The company says its technology can reduce turbulence loads felt by passengers by more than 80%. So far it has only tested the technology on small aircraft – though CEO Andras Galffy, himself an aerobatics pilot, feels confident that it will scale to support far larger planes.

"The common view is you can either avoid or accept turbulence and deal with it by buckling up and reinforcing the wing," he tells me. "But we say you don't need to accept it. You........

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