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Team Member Travis Noffke Decelerator System
Parachute Characterization Aeroshell Separation System Integration Hours: 104
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Primary Goals Provide deceleration force to top of aeroshell
Clearance of unnecessary system components -Includes: Backshell Majority of separation system Misc. components Minimize payload descent stability disruption 11/19/2008 Travis Noffke
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Decelerator System Mortar Slug 11/19/2008 Travis Noffke
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Requirements Deploy decelerator at altitude which allows for airship inflation prior to final separation and deployment 10 meter clearance between top aeroshell and leading payload within 5 seconds (Approximately 400 N of drag required) Maintain stable descent of each payload component to respective deployment phase 10 meters Payload Containment 11/19/2008 Travis Noffke
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System Events F parachute drag Mortar fires deployment bag
Payload V payload V backshell F parachute drag Mortar fires deployment bag Aeroshell separation mechanism fires Parachute inflates Deceleration on top aeroshell Complete separation 11/19/2008 Travis Noffke
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Process Geometry Selection Parachute Characterization
Sizing Opening Forces Material Selection Conical Ribbon Parameters Various Diameters Loading Mass Ratio Ballistic Coefficient Tensile Strength Comparison 11/19/2008 Travis Noffke
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Canopy Canopy profile [1]: Conical Ribbon Geometric Porosity [1]: 30%
Diameter: m Effective Surface Area: m2 Vent Area: m2 Maximum Oscillation [1]: degrees [1] Knacke T. W., Parachute Recovery Systems Design Manual 11/19/2008 Travis Noffke
![Canopy Canopy profile [1]: Conical Ribbon Geometric Porosity [1]: 30%](http://slideplayer.com/slide/9255253/27/images/7/Canopy+Canopy+profile+%5B1%5D%3A+Conical+Ribbon+Geometric+Porosity+%5B1%5D%3A+30%25.jpg "Diameter: 1.5 m. Effective Surface Area: m2. Vent Area: m2. Maximum Oscillation [1]: 3 degrees. [1] Knacke T. W., Parachute Recovery Systems Design Manual. 11/19/2008. Travis Noffke.")
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Drag Generation Drag vs. Altitude from 0 to 60 km Drag (N)
Altitude: km Atmospheric Density (ρ): kg/m3 v deploy: m/s v terminal: m/s c D: Drag (N) Altitude (km) 11/19/2008 Travis Noffke
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Deployment Parachute Inflation Time (s) vs. Diameter (m)
11/19/2008 Travis Noffke
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Velocity Effect Velocity After Line-Stretch Velocity (m/s)
Diameter (m) 11/19/2008 Travis Noffke
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Opening Forces for Select Diameters
Opening Forces (N) Diameter (m) 11/19/2008 Travis Noffke
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Separation Mechanism Concept
Example: Pyrotechnic Fastener Simplicity Commonly used in spacecraft One of several methods available Pyrotechnic Pneumatic Action Loaded Spring Etc… [2] Nasa.gov Separation Mechanism Concept 11/19/2008 Travis Noffke
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Stability Geometric Centroid Post-Separation: 0.49 m from leading edge
r = 50 mm mm Geometric Centroid Post-Separation: m from leading edge Even Mass Packing Stability Requirement: CG Shedding vs. Buoyancy Force 11/19/2008 Travis Noffke
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Material Selection Kevlar© 29 Highest strength-weight ratio
Superior tensile strength Space tested Used in heritage systems Canopy Riser Extension Lines Tenacity is measured as grams of breaking force per denier unit of yarn or filament size. Tenacity (Gpd) [3] Dupont.com 11/19/2008 Travis Noffke
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Further Studies Detailed Design Separation System
Nominal functionality test Drop testing Parachute Decelerator System Deployment Test Drop Test Stability Analysis Test body flow measurements for appropriate Re 11/19/2008 Travis Noffke
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Additional Information (Backup Slides)
Deceleration Method Trade Study Rockets Parachutes Aero-control Surfaces Complexity: High Low Med Cost: Risk: Efficiency: Availability Effectiveness 11/19/2008 Travis Noffke
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Additional Information (Backup Slides)
Parachute Geometry Study Characterization Conical Ribbon Disc-Gap-Band Reliability: High Mass: Less More Average Oscillation Angle ±3° ±10 to 15° Drag Coefficient Range .5 to .6 .52 to .58 Opening Force Coefficient 1.05 to 1.3 1.3 Performance Comparison Conical Ribbon Disc-Gap-Band Reliability: + Mass: - Average Oscillation Angle: Drag Coefficient Range: Opening Force Coefficient: 11/19/2008 Travis Noffke
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Single Conical Ribbon Parachute
Additional Information (Backup Slides) Parachute Cluster Configuration Trade Study Cluster Single Conical Ribbon Parachute Reliability: High Difficulty: Med Low Redundancy: Stability High+ High- Cost: Mass: Andy Welsh 11/19/2008 Travis Noffke
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Rocket Assisted Separation
Additional Information (Backup Slides) Parachute Avoidance Trade Study Rocket Assisted Separation Parachute Separation Complexity: High Med Cost: Low Risk: Effectiveness: Med- Andy Welsh 11/19/2008 Travis Noffke
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Additional Information (Backup Slides)
Derivations: Newton’s Eqns. Of Motion Second Law 11/19/2008 Travis Noffke
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Additional Information (Backup Slides)
11/19/2008 Travis Noffke
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