Presentation is loading. Please wait.

Presentation is loading. Please wait.

Stephen Hu Deployment Vehicle Selection Helicopter Design Hours Worked: 102 1 Team Member Stephen Hu.

Published byOphelia Franklin Modified over 8 years ago

Similar presentations

Presentation on theme: "Stephen Hu Deployment Vehicle Selection Helicopter Design Hours Worked: 102 1 Team Member Stephen Hu."— Presentation transcript:

1 Stephen Hu Deployment Vehicle Selection Helicopter Design Hours Worked: 102 1 Team Member Stephen Hu

2 Constraints Environment – Cryogenic Conditions Icing occurs above 10 km (around T~91 K) – Wind: 0-10 m/s – Solar Energy: Minimal - None – Atmospheric Density: 5.44 kg/m 3 Volume/Storage – Diameter of Heat Shield: 3.75 m – Airship Storage Stephen Hu2

3 3 Type: Coaxial Airfoil: NACA 0012 Helicopter Characteristics

4 Deployment 4Stephen Hu

5 Blade Radius vs. Power Required 5Stephen Hu

6 Forward Velocity vs. Power Required 6Stephen Hu

7 Altitude Ceiling Stephen Hu7

8 8 Characteristics/PerformanceExpectedMaximum Expected Mass Total Mass (kg)*155.4186.5 Payload Mass (kg)21.6025.92 Rotor Radius (m)1.34 1.41 Main Blade Chord (m)0.089 0.094 Fuselage Length (m)2.56 Fuselage Height (m)0.77 Total Height (m)1.0 Total Width (m)0.8 Max Climb Rate (m/s)1.94 0.965 Spin-up Time (s)16.7 19.43 Max Cruise Velocity (m/s)7.51 7.00 Optimal Cruise Velocity (m/s)3.24 3.54 Range (km)*183.7/100 176.1/100 Altitude (km)*12.6/10 8.47 Conclusions Stephen Hu

9 Characteristics /Performance Georgia Tech Helicopter NASA AirshipDesigned Combination (Max. Mass) Total Mass (kg)318.8 Max Cruise Velocity (m/s) 4 7.00/ Optimal Cruise Velocity (m/s) 2.8 3.54/ Max Climb Rate (m/s) 4 Range (km)* 100 Altitude (km)* 10

10 Recommendations More in-depth aerodynamic design Materials Payload Deployment 10Stephen Hu

11 References 1."The Vertical Profile of Winds on Titan." www.nature.com. 8 Dec. 2005. Nature: International Weekly Journal of Science.. 2.Wright, Henry S. Design of a Long Endurance Titan VTOL Vehicle. Georgia Institute of Technology.. 3.Leishman, Gordon. Principles of Helicopter Aerodynamics. Cambridge UP, 2006. 4.Prouty, Raymond W. Helicopter Aerodynamics. 2nd ed. Peioria, ILL: PJS Publications, 1985. 5.Lorenz, R. D. "Flexibility for Titan Exploration: The Titan Helicopter." Innovative Approaches to Outer Planetary Exploration 2001-2020. Lunar and Planetary Lab, University of Arizona, Tucson, Az.. 6.Young, Larry A. "Vertical Lift - Not Just for Terrestrial Flight." Www.Nasa.gov. Army/NASA RotorCraft Division, Ames Research Center, Moffett Field, CA.. 7.Lorenz, Ralph D. "Post-Cassini Exploration of Titan: Science Rationale and Mission Concepts." University of Arizona Lunar and Planetary Laboratory. Lunar and Planetary Lab, University of Arizona, Tucson, Az.. 11Stephen Hu

12 Mass and Power Constraints 12Stephen Hu

13 Helicopter Design 13 Introduction General Characteristics Constraints Deployment Conclusions Recommendations 13Stephen Hu

14 Introduction 1.Investigation of the surface and lakes of Titan 2.VTOL capability 3.Dependable performance in hostile environments 4.Able to last four months under constant operation 14Stephen Hu

Download ppt "Stephen Hu Deployment Vehicle Selection Helicopter Design Hours Worked: 102 1 Team Member Stephen Hu."

Similar presentations

A Brief Introduction to Helicopters

A Brief Introduction to Helicopters
Stephen Hu Deployment Vehicle Selection Helicopter Design Hours Worked: 102 1 Team Member Stephen Hu.

Stephen Hu Deployment Vehicle Selection Helicopter Design Hours Worked: Team Member Stephen Hu.
M. R. Tetlow and C.J. Doolan School on Mechanical Engineering

M. R. Tetlow and C.J. Doolan School on Mechanical Engineering
Robbie Hood NOAA UAS Program Director 20 June 2013.

Robbie Hood NOAA UAS Program Director 20 June 2013.
Virtual Solar System Name_________. Planet #1 Diameter (km) Mass (kg) Period of Rotation Period of Revolution Avg. Distance from Sun (km)

Virtual Solar System Name_________. Planet #1 Diameter (km) Mass (kg) Period of Rotation Period of Revolution Avg. Distance from Sun (km)
Babakin Space Center, Space Research Insitute, Makeev Rocket Design Bureau COSMOS ONE: THE FIRST SOLAR SAIL a project of The Planetary Society with Cosmos.

Babakin Space Center, Space Research Insitute, Makeev Rocket Design Bureau COSMOS ONE: THE FIRST SOLAR SAIL a project of The Planetary Society with Cosmos.
1 Titan EDD Fall Semester 12/02/2008 Andrew Welsh Jon Anderson Nick Delucca Steve Hu Travis Noffke Pawel Swica CDR Andrew Welsh.

1 Titan EDD Fall Semester 12/02/2008 Andrew Welsh Jon Anderson Nick Delucca Steve Hu Travis Noffke Pawel Swica CDR Andrew Welsh.
Guidelines Presentation. Aircraft Aim & Judging The aircraft needs to transport the mirror segments of the ESO European Extremely Large Telescope, being.

Guidelines Presentation. Aircraft Aim & Judging The aircraft needs to transport the mirror segments of the ESO European Extremely Large Telescope, being.
Space & Planetary Robotics Group Aerobots for Planetary Exploration Dave Barnes Head of Space Robotics Department of Computer Science Aberystwyth University.

Space & Planetary Robotics Group Aerobots for Planetary Exploration Dave Barnes Head of Space Robotics Department of Computer Science Aberystwyth University.
Mars EDL CubeSat Mission Jekan Thanga 1, Jim Bell 1 Space and Terrestrial Robotic Exploration Laboratory School of Earth and Space Exploration (SESE) Arizona.

Mars EDL CubeSat Mission Jekan Thanga 1, Jim Bell 1 Space and Terrestrial Robotic Exploration Laboratory School of Earth and Space Exploration (SESE) Arizona.
LRO/LEND LEND 1 LCROSS Site Selection Workshop October 16 th 2006 Lunar Exploration Neutron Detector Evaluation of Potential LCROSS Impact Sites Igor Mitrofanov.

LRO/LEND LEND 1 LCROSS Site Selection Workshop October 16 th 2006 Lunar Exploration Neutron Detector Evaluation of Potential LCROSS Impact Sites Igor Mitrofanov.
Zeppelin NT, a new Platform for Atmospheric Studies in the Planetary Boundary Layer Frank Holland, FZJ 3rd COPS and GOP Workshop Univ. Hohenheim, 10-11.

Zeppelin NT, a new Platform for Atmospheric Studies in the Planetary Boundary Layer Frank Holland, FZJ 3rd COPS and GOP Workshop Univ. Hohenheim,
UAV observations of the wintertime boundary layer over the Terra Nova Bay polynya John Cassano and Shelley Knuth Department of Atmospheric and Oceanic.

UAV observations of the wintertime boundary layer over the Terra Nova Bay polynya John Cassano and Shelley Knuth Department of Atmospheric and Oceanic.
AAE450 Senior Spacecraft Design Atul Kumar Presentation Week 3: February 1 st, 2007 Aerodynamics Team Re-Entry vehicle analysis - Lifting body 1.

AAE450 Senior Spacecraft Design Atul Kumar Presentation Week 3: February 1 st, 2007 Aerodynamics Team Re-Entry vehicle analysis - Lifting body 1.
Deep Water Offshore Wind Energy By Paul D. Sclavounos Horns Rev Wind Farm (Denmark) - Rated Power 160 MW – Water Depth 10-15m.

Deep Water Offshore Wind Energy By Paul D. Sclavounos Horns Rev Wind Farm (Denmark) - Rated Power 160 MW – Water Depth 10-15m.
Group 3 Heavy Lift Cargo Plane

Group 3 Heavy Lift Cargo Plane
Flying, Hopping and Perching Microbots for Extreme Environment Exploration Deployed Using CubeSats Jekan Thanga 1, Jim Bell 1 Space and Terrestrial Robotic.

Flying, Hopping and Perching Microbots for Extreme Environment Exploration Deployed Using CubeSats Jekan Thanga 1, Jim Bell 1 Space and Terrestrial Robotic.
Review Chapter 12. Fundamental Flight Maneuvers Straight and Level Turns Climbs Descents.

Review Chapter 12. Fundamental Flight Maneuvers Straight and Level Turns Climbs Descents.
Introduction to Aeronautical Engineering

Introduction to Aeronautical Engineering
Stephen Hu Deployment Vehicle Selection Helicopter Design Hours Worked: 98 1 Team Member Stephen Hu.

Stephen Hu Deployment Vehicle Selection Helicopter Design Hours Worked: 98 1 Team Member Stephen Hu.

Similar presentations

Ads by Google