colorado space grant consortium gateway to space asen 1400 / astr 2500 class #23 gateway to space...
TRANSCRIPT
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Colorado Space Grant Consortium
Gateway To SpaceASEN 1400 / ASTR 2500
Class #23
T-18
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- Announcements
- Guest Lecture – Spacecraft Propulsion
- Launch is in 18 days
Today:
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3
Announcements…
Brady’s Talk…- What did you think?
HW #8…- Everyone turn it in?
Movie Night Tonight…- Show of hands as to who is coming
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Colorado Space Grant Consortium
Next Class…Guest Lecture on Structures
+ Mission Simulations
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Colorado Space Grant Consortium
Next Class…Guest Lecture on Structures
+ Mission Simulations
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6
Mission Simulations…
Bring all hardware- Be prepared to give a 60 second into- Be prepared to activate at beginning of class- Be prepared to give a 60 second wrap up at end
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Colorado Space Grant Consortium
Spacecraft PropulsionSteve HevertLockheed Martin
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An Introduction to
Space PropulsionStephen Hevert
Affiliate Professor
Metropolitan State College of Denver
http://my.execpc.com/~culp/space/as07_lau.jpg
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What Is Propulsion?
• Initiating or changing the motion of a body• Translational (linear, moving faster or
slower)• Rotational (turning about an axis)
• Space propulsion• Rocket launches• Controlling satellite motion• Maneuvering spacecraft
• Jet propulsion• Using the momentum of ejected mass
(propellant) to create a reaction force, inducing motion
At one time it was believed that rockets could not work in a vacuum -- they
needed air to push against!!
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rlih
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Jet Propulsion Classifications
• Air-Breathing Systems• Also called duct propulsion.• Vehicle carries own fuel;
surrounding air (an oxidizer) is used for combustion and thrust generation
• Gas turbine engines on aircraft…
• Rocket Propulsion• Vehicle carries own fuel and
oxidizer, or other expelled propellant to generate thrust:
• Can operate outside of the Earth’s atmosphere
• Launch vehicles, upper stages, Earth orbiting satellites and interplanetary spacecraft … or
www.gadgets-reviews.com
…or go karts!
www.the-rocketman.com
… a rocket powered scooter!
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Space Propulsion Classifications
Systems that use an expellant (e.g. on-board propellant)
Stored Gas or Vaporo Compressed gaso Ammoniao Butaneo Nitrous Oxide
Chemicalo Liquido Solido Hybrid
Electrico Electrothermalo Electrostatico Electromagnetic
Nuclearo Nuclear thermalo Nuclear electrico Antimatter
Solaro Solar thermalo Solar electric
Beamed Energyo Laser thermalo Microwave thermal o Microwave electric
Systems that do not carry an expellant (extract energy/force from external source)
Sailso Solar sails (light or solar wind)o M2P2 (charged particles)
Beamed Energyo Laser reflector (light sail)o Microwave (Starwisp)
Tetherso Stationaryo Rotatingo Electrodynamico Pumped
Aero/Gravity Assisto Aero assisto Aero brakingo Aero captureo Gravity assist
Breakthrough Propulsion Physicso Space drives (warp drives)o Wormholeso Antigravity
Interstellar Ramjeto Bussard drive
We’ll look at some of these today…
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Space Propulsion Applications
Terrestrial/Atmosphere/Suborbital
Earth to Orbit
In-Space
Orbit TransferEarth Orbiting
Lunar MissionsInterplanetary Missions
Interstellar Space Exploration
The Future
Realm of Existing Technology
Launch Vehicles
Upper Stages& Satellites
www.army-technology.com
blog.wired.com
www.psrd.hawaii.edu
Space Exploration
Tactical MissilesSounding RocketsBallistic Missiles
Star Trek!!
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Space Propulsion Functions
• Primary propulsion• Launch and ascent• Maneuvering
• Orbit transfer, station keeping, trajectory correction
• Auxiliary propulsion• Attitude control• Reaction control• Momentum management
www.nasm.si.edu
www.ksc.nasa.gov
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A Brief History of Rocketry• China (1232 AD)
• Earliest recorded use of rockets• Black powder
• Russia (early 1900’s)• Konstantin Tsiolkovsky• Orbital mechanics, rocket equation
• United States (1920’s)• Robert Goddard• First liquid fueled rocket (1926)
• Germany (1940’s)• Wernher von Braun• V-2• Hermann Oberth
• Russia (USSR)• Phenomenal contributions…• Korolev, Glushko, Keldysh
Wan-Hu tried to launch himself to the moon by attaching 47 black powder rockets to a large wicker chair! (…Chinese folk tale)
onenew.wordpress.com
Prof. Tsiolkovsky
Dr. Goddardgoddard.littletonpublicschools.net
Dr. von Braunwww.britannica.com
www.geocities.com
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Stored Gas Propulsion
• Primary or auxiliary propulsion• High pressure gas (propellant)
is fed to low pressure nozzles through pressure regulator
• Release of gas through nozzles (thrusters) generates thrust
• Currently used for momentum management of the Spitzer Space telescope
• Propellants include nitrogen, helium
• Very simple in concept
P
Gas
FillValve
PressureGage
High Pressure IsolationValve
PressureRegulator
Filter
Thruster
Propellant Tank
Low Pressure IsolationValve
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Chemical Propulsion Classifications
• Liquid Propellant• Pump Fed
• Launch vehicles, large upper stages
• Pressure Fed• Smaller upper stages,
spacecraft• Monopropellant
• Fuel only• Bipropellant
• Fuel & oxidizer• Solid Propellant
• Launch vehicles, Space Shuttle, spacecraft
• Fuel/ox in solid binder• Hybrid
• Solid fuel/liquid ox• Sounding rockets, X Prize
www.aerospaceweb.org
en.wikivisual.com
news.bbc.co.uk
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Monopropellant Systems
• Hydrazine fuel is most common monopropellant.• N2H4
• Decomposed in thruster using iridium catalyst to produce hot gas for thrust.
• Older systems used hydrogen peroxide (H2O2) before the advent of hydrazine catalysts.
• Typically operate in blowdown mode (pressurant and fuel in common tank).
PFuel Fill ValvePressureGage
Isolation Valve
Filter
Thrusters
Propellant Tank
Nitrogen or helium
Hydrazine
Thrusts of 1 to 400 N (0.2 to 100 lbf ) are common.
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Monopropellant Systems
www.aerojet.com
Northrop Grumman5 lbf thrusters used on the Compton Space Telescope (Gamma Ray Observatory)
1 lbf thrustersmanufactured by Northrop Grumman
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Bipropellant Systems
• A fuel and an oxidizer are fed to the engine through an injector and combust in the thrust chamber of the engine
• Combustion products accelerate in a converging-diverging nozzle
• Hypergolic: no igniter needed -- propellants react on contact in thrust chamber
• Cryogenic propellants include LOX (-423 ºF) and LH2 (-297 ºF).• Igniter required
• Storable propellants include kerosene (RP-1), hydrazine, nitrogen tetroxide (N2O4), monomethylhydrazine (MMH)
FUEL OX
P P
Isolation Valves
Engine
Thrust Chamber
Nozzle
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Bipropellant Thrusters AMPAC-ISP
Astrium
4 N
AMPAC-ISP
Bipropellant thrusters are used for orbit transfer and for attitude control, with thrusts ranging from 4 to 440 N (1 to 100 lbf )
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Liquid Propellant Systems
• Pump fed systems• Propellant delivered to engine using
turbopump• Gas turbine drives centrifugal or
axial flow pumps• Large, high thrust, long burn
systems: launch vehicles, space shuttle
• Different cycles developed.
Photos history.nasa.govF-1 Engine Turbopump
H-1 Engine Turbopump
F-1 engine turbopump:• 55,000 bhp turbine drive• 15,471 gpm (RP-1)• 24,811 gpm (LOX)
A 35’x15’x4.5’ (ave. depth) backyard pool holds about 18,000 gallons of water. How quickly could the F-1 turbopumps empty it ?
Ans: In ~27 seconds!
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Rocket Engine Power Cycles
• Gas Generator Cycle• Simplest• Most common• Small amount of fuel and
oxidizer fed to gas generator• Gas generator combustion
products drive turbine• Turbine powers fuel and
oxidizer pumps• Turbine exhaust can be
vented through pipe/nozzle, or dumped into nozzle
• Saturn V F-1
www.aero.org/publications/ crosslink/winter2004/03_sidebar3.html
www.answers.com
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Rocket Engine Power Cycles - cont
• Expander• Fuel is heated by nozzle and
thrust chamber to increase energy content
• Sufficient energy provided to drive turbine
• Turbine exhaust is fed to injector and burned in thrust chamber
• Higher performance than gas generator cycle
• Pratt-Whitney RL-10www.aero.org/publications/ crosslink/winter2004/03_sidebar3.html
science.nasa.gov
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Rocket Engine Power Cycles - cont
• Staged Combustion• Fuel and oxidizer burned
in preburners (fuel/ox rich)
• Combustion products drive turbine
• Turbine exhaust fed to injector at high pressure
• Used for high pressure engines
• Most complex, requires sophisticated turbomachinery
• Not very common, but very high performance
• SSME (2700 psia)
www.aero.org/publications/ crosslink/winter2004/03_sidebar3.html
www.rocketrelics.com
shuttle.msfc.nasa.gov
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The Big Engines…
F-1 EngineSaturn V
1.5 million lbs thrust (SL)LOX/Kerosene
www.flickr.com
Main EngineSpace Shuttle
374,000 lbs thrust (SL)LOX/H2
spaceflight.nasa.gov
RD-1701.78 million lbs thrust (SL)
LOX/Kerosene
www.aerospaceguide.net
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www.nationalmuseum.af.mil
Solid Propellant Motors
• Fuel and oxidizer are in solid binder.
• Single use -- no restart capability.
• Lower performance than liquid systems, but much simpler.
• Applications include launch vehicles, upper stages, and space vehicles.
www.aerospaceweb.org
www.propaneperformance.com
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Hybrid Motors
• Combination liquid-solid propellant• Solid fuel• Liquid oxidizer
• Multi-start capability• Terminate flow of oxidizer
• Fuels consist of rubber or plastic base, and are inert.• Just about anything that
burns…
• Oxidizers include LO2, hydrogen peroxide (H2O2) and nitrous oxide (NO2)
• Shut-down/restart capability.
Solid Propellant
Oxidizer Tank
Ox Control Valve
Nozzle
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Propulsion Calculations
• Thrust & Specific Impulse• Thrust is the amount of
force generated by the rocket.
• Specific impulse is a measure of performance (analogous to miles per gallon)
• Units are seconds
• Rocket Equation
V gIsp lnmim f
Isp Fw
F rocket thrust
w weight flowrate of propellant
g 9.8 m/s2 mi mass of vehicle before burnmf mass of vehicle after burnmp mass of propellant for V
mi mf
mp mi 1 e
V
gI sp
Rocket equation assumes no losses (gravity effects, aerodynamic drag). Actually very accurate for short burns in Earth orbit or in deep space!
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Specific Impulse Comparison
• Stored gas• Monopropellant hydrazine• Solid rocket motors• Hybrid rockets• Storable bipropellants• LOX/LH2
• 60-179 sec• 185-235 sec• 280-300 sec• 290-340 sec• 300-330 sec• 450 sec
Specific impulse depends on many factors: altitude, nozzle expansion ratio, mixture ratio (bipropellants), combustion temperature, combustion pressure
This thruster was used on the Viking Lander. It has a specific impulse of about 225 seconds.www.rocketrelics.com
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Mission Delta-V Requirements
Mission (duration) ΔV (km/sec)
Earth surface to LEO 7.6
LEO to Earth Escape 3.2
LEO to Mars (0.7 yrs) 5.7
LEO to Neptune (29.9 yrs) 13.4
LEO to Neptune (5.0 yrs) 70
LEO to Alpha-Centauri (50 yrs) 30,000
LEO = Low Earth orbit (approx. 274 km)
That’s actually very low….
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Propellant Calculation Exercise
• Determine the mass of propellant to send a 2500 kg spacecraft from LEO to Mars (0.7 yr mission).• Assume the 2500 kg includes the propellant on-board at
the start of the burn.• Assume our engine has a specific impulse of 310 sec
(typical of a small bipropellant engine).• Use the rocket equation:
mp 2500 1 e
5700
9.8 310
2117 kg
Most of our spacecraft is propellant! Only 383 kg is left for structure, etc! How could we improve this?
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Electric Propulsion
• Classifications• Electrothermal• Electrostatic• Electromagnetic
• Characteristics• Very low thrust• Very high Isp
• > 1000 sec• Requires large amounts of power
(kilowatts)
This image of a xenon ion engine, photographed through a port of the vacuum chamber where it was being tested at NASA's Jet Propulsion Laboratory, shows the faint blue glow of charged atoms being emitted from the engine. The ion propulsion engine is the first non-chemical propulsion to be used as the primary means of propelling a spacecraft.
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w-s
sc
.ig
pp
.uc
la.e
du
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Electrothermal Propulsion
• Electrical power is used to add energy to exhaust products
• Resistojet• Catalytic decomposition of
hydrazine is augmented with high power electric heater
• 800 – 5,000 W
• Arcjet• High voltage arc at nozzle
throat adds thermal energy to exhaust
• Various gaseous or vaporized propellants can be used.
rocket.itsc.uah.edu
www.waynesthisandthat.comwww.nasa.gov
www.fathom.com
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Electrostatic Propulsion
• Electrostatic forces are used to accelerate charged particles to very high velocities
• Xenon Ion Thruster• Xenon propellant• Xenon is ionized by electron
bombardment• Thermionic cathode
• Positively charged particles accelerated by grid
• Electrons routed to second anode and injected into beam to neutralize
www.plasma.inpe.br
aerospace.engin.umich.edu ESA’s SMART-1 uses a xenon ion propulsion system (XIPS)
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Electromagnetic Propulsion
• Electromagnetic forces are used to accelerate a plasma• A gas consisting of positive ions,
electrons• 5000 – 9000 R
• Neutral beam is produced• Higher thrust per unit area than
electrostatic thruster• Classifications
• Magnetoplasmadynamic• Pulsed plasma
• Electric discharge creates plasam from solid Telfon
• Hall effect • Developed in Russia• Flew on U.S. STEx mission (1998)
www.nasa.gov
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Interstellar Missions – The Future
• The challenges are formidable• Immense distances…
• Alpha Centauri = 4.5 LY (closest interstellar neighbor) 1 LY = 9.46x1012 km = 5.878x1012 mi Universe = ~156 billion LY across
• Immense size & mass & energy & speeds required…• Propulsion systems with dimensions of 1000’s km• Power levels 1000’s x greater than Human Civilization now
produces ( > 14 TW est.)• Speeds ~ .4c - .6c (c = speed of light)
• Trip times… Robotic Rendezvous goals• 4.5 LY in < 10 years• 40 LY in < 100 years (radius of nearest 1000 stars)
• Relativistic effects…• Because of time dilation and mass increase; length contraction• On telecommunications • From collisions with interstellar matter
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Consider the Voyager I Spacecraft…
• 29 years after launch in 1977:• It had travelled ~100 AU
• Far beyond Pluto• ~150 million km• 13.9 light-hours from sun
• Moving at 17.4 km/s • 0.006% of the speed of light• One of the fastest man-made vehicles
• It would take another 74,000 years to reach Alpha Centauri at this rate
• Advanced technologies and breakthroughs will be necessary to reach the stars…
spacetoday.org
Source: Frisbee, R., “Impact of Interstellar Vehicle Acceleration and Cruise Velocity on Total Mission Mass and Trip Time,” AIAA 2006-5224, July 2006
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Future Propulsion Technologies
Interstellar Ramjet
• Bussard Drive (1960)• Electromagnetic scoop
gathers interstellar hydrogen for propellant
• EM “Scoop” is 1000’s of km in size!
Beamed Energy
• Laser Light Sails• Driven by massive space-
based laser and space-based optics
bibliotecapleyades.net
daviddarling.info
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Future Propulsion Technologies- cont
Matter-Antimatter Other Space Drive Ideas…• Highest energy per unit
mass of any reaction known in physics
• Energy released by annihilation of matter by antimatter counterpart
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Future Propulsion Technologies- cont
Breakthrough Physics
• Yes, NASA funds research on• Wormholes• Warp drives
bibliotecapleyades.net
daviddarling.info
When I began my career in the late 1970’s, we’d joke about electric propulsion being the “propulsion of the future…and always will be!” Today it is used on communications satellites and interplanetary spacecraft. What does the future hold for interstellar propulsion? Now it is the “propulsion of the future”... but will it always be?
Wormhole: a “shortcut” through the spacetime continuum
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References
• Theory and design• Sutton, G. P. and Biblarz, O., Rocket Propulsion
Elements, 7th ed. ,Wiley, 1987• A classic; covers most propulsion technologies
• Huzel, D.K, and Huang, D. H., Modern Engineering for Design of Liquid Propellant Rocket Engines (revised edition), Progress in Aeronautics and Astronautics, Vol. 147, American Institute for Aeronautics and Astronautics, 1992
• Dieter Huzel was one of the German engineers who came to the U.S. after WW II.
• Humble, R. W., et. al., Space Propulsion Design and Anaylsis (revised edition), McGraw-Hill, 1995
• Covers chemical (liquid, solid, hybrid), nuclear, electric, and advanced propulsion systems for deep space travel
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References - cont
• Rocket engine history• Macinnes, P., Rockets: Sulfur, Sputnik and Scramjets,
Allen & Unwin, 2003• Clary, D. A., Rocket Man: Robert H. Goddard and the
Birth of the Space Age, Hyperion Special Markets, 2003• Ordway, F. I. and Sharpe, M., The Rocket Team, Apogee
Books, 2003• The story of Werner von Braun, the V-2 and the
transition of the German engineers to the United States following WW II
• Sutton, G. P., History of Liquid Propellant Rocket Engines, American Institute for Aeronautics and Astronautics, 2006
• New, over 800 pages of rocket engine history
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When things go badly…
http://www.youtube.com/watch?v=gDnkEOKR1BE