# Fluid-Structure Interaction Modeling of the Orion Spacecraft Parachutes

@inproceedings{Moorman2010FluidStructureIM, title={Fluid-Structure Interaction Modeling of the Orion Spacecraft Parachutes}, author={Creighton Moorman}, year={2010} }

- Published 2010

Fluid-Structure Interaction Modeling of the Orion Spacecraft Parachutes by Creighton J. Moorman The Team for Advanced Flow Simulation and Modeling (T*AFSM) at Rice University has been developing the Stabilized Space-Time Fluid-Structure Interaction core technologies in conjunction with an array of special techniques to overcome the complexities present in modeling ringsail parachutes. Flight characteristics of single and clustered ringsail parachutes are explained. Ringsail modeling techniques… CONTINUE READING

#### Citations

##### Publications citing this paper.

SHOWING 1-4 OF 4 CITATIONS

## Aerodynalllics Modeling of the Reefed Stages of Ringsail Parachutes

VIEW 7 EXCERPTS

CITES BACKGROUND & METHODS

HIGHLY INFLUENCED

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VIEW 1 EXCERPT

CITES BACKGROUND

## Computational aerodynamics modeling of the reefed stages of ringsail parachutes

VIEW 2 EXCERPTS

CITES BACKGROUND & METHODS

#### References

##### Publications referenced by this paper.

SHOWING 1-10 OF 83 REFERENCES

## Interface projection techniques for fluid–structure interaction modeling with moving-mesh methods

VIEW 18 EXCERPTS

HIGHLY INFLUENTIAL

## Computation of moving boundaries and interfaces and stabilization parameters

VIEW 7 EXCERPTS

HIGHLY INFLUENTIAL

## Knacke. Parachute Recovery Systems: Design Manual

VIEW 5 EXCERPTS

HIGHLY INFLUENTIAL

## Developing the Parachute System for NASA's Orion: An Overview at Inception

VIEW 3 EXCERPTS

HIGHLY INFLUENTIAL

## Parachute fluid-structure interactions: 3-D computation

VIEW 4 EXCERPTS

HIGHLY INFLUENTIAL