Why is diesel not used in planes?

0 views

Diesels unsuitability for aircraft jet engines stems from its susceptibility to gelling at near-freezing temperatures. This property poses a significant challenge for high-altitude aircraft, which encounter temperatures as low as -50°C. Consequently, jet fuel, which remains liquid in such conditions, is the preferred choice.

Comments 0 like

Why Diesel Won’t Get You Flying: The Cold, Hard Truth

While diesel engines reliably power trucks and trains across the globe, you won’t find them propelling commercial airliners. The reason isn’t a lack of power, but rather a fundamental issue with diesel fuel at high altitudes: its tendency to gel in extreme cold.

The physics are straightforward. Diesel fuel contains paraffin wax, which under normal temperatures remains dissolved. However, as temperatures plummet, these wax molecules begin to crystallize and link together, forming a gel-like substance. This process, aptly called “gelling,” effectively thickens the fuel, hindering its flow through fuel lines and filters. Imagine trying to sip a milkshake through a coffee straw – that’s essentially what happens to a diesel engine attempting to draw geled fuel.

Cruising altitudes for commercial aircraft typically reach 30,000 to 40,000 feet, where temperatures can easily drop to -50°C (-58°F) or even lower. At these frigid temperatures, diesel fuel would quickly become unusable, potentially leading to engine failure mid-flight, a catastrophic scenario.

Jet fuel, specifically designed for aviation, avoids this problem. Also known as kerosene, jet fuel has a much lower freezing point than diesel, remaining liquid even in the extreme cold encountered at high altitudes. This crucial difference makes jet fuel the only practical choice for powering aircraft.

While some smaller aircraft have experimented with diesel engines, the cold-weather performance limitations remain a significant hurdle. Specialized additives and heating systems can mitigate gelling to some extent, but they add complexity and weight, impacting overall efficiency. Furthermore, these solutions aren’t always reliable in the face of the truly extreme temperatures found at cruising altitude.

So, the next time you’re soaring through the sky, remember the crucial role of jet fuel in keeping you aloft. It’s not just about power; it’s about reliability and safety in the face of the extreme challenges posed by high-altitude flight. The simple fact is, diesel’s susceptibility to the cold makes it unfit for the demanding environment thousands of feet above the ground.