1. Orion Multi-Purpose Crew Vehicle Solving and Mitigating the Two Main Parachute Pendulum Problem
- Author
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Christopher Madsen, Brian Anderson, Bruce Sommer, Yasmin Ali, and Tuan Troung
- Subjects
020301 aerospace & aeronautics ,0209 industrial biotechnology ,Engineering ,Spacecraft ,business.industry ,Human spaceflight ,Crew ,Pendulum ,02 engineering and technology ,Mars Exploration Program ,Cluster (spacecraft) ,020901 industrial engineering & automation ,0203 mechanical engineering ,Aeronautics ,Landing performance ,Descent (aeronautics) ,Aerospace engineering ,business - Abstract
The Orion Multi-purpose Crew Vehicle (MPCV) Orion spacecraft will return humans from beyond earth's orbit, including Mars and will be required to land 20,000 pounds of mass safely in the ocean. The parachute system nominally lands under 3 main parachutes, but the system is designed to be fault tolerant and land under 2 main parachutes. During several of the parachute development tests, it was observed that a pendulum, or swinging, motion could develop while the Crew Module (CM) was descending under two parachutes. This pendulum effect had not been previously predicted by modeling. Landing impact analysis showed that the landing loads would double in some places across the spacecraft. The CM structural design limits would be exceeded upon landing if this pendulum motion were to occur. The Orion descent and landing team was faced with potentially millions of dollars in structural modifications and a severe mass increase. A multidisciplinary team was formed to determine root cause, model the pendulum motion, study alternate canopy planforms and assess alternate operational vehicle controls & operations providing mitigation options resulting in a reliability level deemed safe for human spaceflight. The problem and solution is a balance of risk to a known solution versus a chance to improve the landing performance for the next human-rated spacecraft.
- Published
- 2017
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