Space X şirketinin yeni jenerasyon uzaya astronot taşıma aracı Dragon V2nin uçuş animasyonu. Ayrıntılı bilgiyi aşağıda bulabilirsiniz. --- Flight animation of Dragon V2 which is designed to carry astronauts to space by Space X. --- Dragon V2 includes the following features: Reuses: fully reusable; capable of being flown multiple times,resulting in a significant reduction in the cost of access to space.SpaceX anticipates on the order of ten flights are possible before significant refurbishment of the space vehicle would be required. Capacity: capable of carrying seven astronauts Landing: supports both propulsive-landing almost anywhere in the world with the accuracy of a helicopter, plus a backup parachute-enabled landing capability. Four extensible landing legs Engines: eight side-mounted SuperDraco engines, clustered in redundant pairs in four engine pods, with each engine capable of producing 71 kilonewtons (16,000 lbf) of thrust the first fully printed engine, the SuperDraco. Engine combustion chamber is printed of Inconel, an alloy of nickel and iron, using a process of direct metal laser sintering. Engines are contained in a protective nacelle to prevent fault propagation in the event of an engine failure. Docking: capable of autonomous docking to space stations. Dragon V1 utilized berthing, a non-autonomous method of attachment to the ISS that was completed by use of the Canadarm robotic arm. Pilot capability to park the spacecraft using manual controls if necessary Reservoirs: composite-carbon-overwrap titanium spherical tanks for holding the helium used for engine pressurization and also for the SuperDraco fuel and oxidizer Shield: updated third-generation PICA-X heat shield Controls: tablet-like computer that swivels down for optional crew control by the pilot and co-pilot Interior design: tan leather seats a reusable nose cone which can pivot on a hinge to enable in-space docking, while returning to the covered position for reentry and future launches The landing system is being designed to accommodate three types of landing scenarios: propulsive landing, parachute landing, similar to previous American manned space capsules parachute landing with propulsive assist, similar to that used by the Soyuz (spacecraft) The whole landing system is designed so that it’s survivable if there’s no propulsive assist at all. So if you come down chutes only with the landing legs, we anticipate no crew injury. It’ll be kind of like landing in the Soyuz. The parachute system was totally redesigned from the one used in the Dragon V1 capsule, due to the requirement to deploy the parachutes under a variety of launch abort scenarios.
Posted on: Wed, 24 Dec 2014 19:04:33 +0000