Drogue parachute

A drogue parachute is a parachute designed for deployment from a rapidly moving object. It can be used for various purposes, such as to decrease speed, to provide control and stability, or as a pilot parachute to deploy a larger parachute. Vehicles that have used drogue parachutes include multistage parachutes, aircraft, and spacecraft recovery systems. The drogue parachute was invented by Russian professor and parachute specialist Gleb Kotelnikov in 1912, who also invented the knapsack parachute. The Soviet Union introduced its first aircraft fitted with drogue parachutes during the mid 1930s; use of the technology expanded during and after the Second World War. A large number of jet-powered aircraft have been furnished with drogue parachutes, including the Boeing B-52 Stratofortress strategic bomber and the Eurofighter Typhoon multirole aircraft; they were also commonly used within crewed space vehicle recovery programmes, including Project Mercury and Project Gemini. The drogue parachute has also been extensively used upon ejection seats as a means of stabilisation and deceleration. The drogue parachute was first used during 1912 in a ground-based parachute test in the absence of airplanes, by Russian inventor Gleb Kotelnikov, who had patented an early canister-packed knapsack parachute a few months before this test. On a road near Tsarskoye Selo (now part of St. Petersburg), Kotelnikov successfully demonstrated the braking effects of such a parachute by accelerating a Russo-Balt automobile to its top speed and then opening a parachute attached to the back seat. During 1937, the Soviet Union decided to adopt the drogue parachute for the first time on a limited number of their aircraft, specifically those assigned to operate within the Arctic to provide logistical support for the famous polar expeditions of the era, such as the first drifting ice stations North Pole-1, which was launched that same year. The drogue parachute was credited with enabling airplanes to land safely on smaller ice floes that were otherwise unfeasible landing sites.