ROCKETS AND MISSION ANALYSIS
SOLID PROPELLANT ROCKETS Solid fuel rockets rely on controlled explosion of a mixture of substances Nearly a homogeneous material that is burned Similar to gunpowder ~ (75% potassium nitrate, 10% carbon, and 15% sulfur) Example: STS Solid Rocket Boosters: Contain ammonium perchlorate as an oxidizer and aluminum as a fuel Rest of mixture devoted to bonding two reactants Once a solid rocket is ignited, can not be turned off
OVERVIEW: SOLID ROCKET COMPONENTS
SPACE SHUTTLE SOLID ROCKET BOOSTERS SRBs are largest solid propellant motors ever flown and first designed for reuse Diameter = 12.17 ft Length = 149.16 ft Sea Level Thrust: 3,300,000 lb Weight With propellant: 1,300,000 lb Inert: 192,000 lb Provide ~ 71% of thrust at lift-off and ascent Propellant mixture by weight Ammonium perchlorate: 69.6% Aluminum: 16% Iron oxide (catalyst): 0.4% Polymer binder: 12.04% Epoxy curing agent: 1.96% Propellant is 11 point star shape in forward motor segments and double truncated cone in aft segments
ADDITIONAL EXAMPLES
MINUTEMAN SOLID ROCKET Minuteman first stage motor Minuteman missile systems, operated by Air Force Combat Command are long-range, solid-fuel, three-stage intercontinental ballistic missiles capable of carrying single or multiple nuclear warheads. The program began in 1958 and is one of Boeing's longest military contracts.
PEGASUS SOLID ROCKET
Burning Rate Characteristics of RDX Composite
GRAIN DESIGNS
GRAIN CROSS-SECTIONAL GEOMETRIES
SOLID PROPELLANT ROCKETS
DIMENSIONS SUMMARY OF CURRENT SRBs
MASS SUMMARY OF CURRENT SRBs
PERFORMANCE SUMMARY FOR CURRENT SRBs
SOLID ROCKET FUEL DATA
SOLID ROCKETS AND NOZZLE FLOW Special issue with solid propellants that use powdered metals as a fuel additive Adding aluminum to formation of solid propellant increases gas temperature, but incurs performance penalties related to solid particles that are generated Aluminum burns with oxygen to form Al2O3 particles Particles are initially liquid and solidify during expansion process Also tend to agglomerate to become large particles Large particles do not accelerate as quickly as the gas surrounding them These particles may constitute as much as 10-25% of total mass Need to consider this in nozzle design, which must account for two-phase flow Simplified models exist for analysis of performance: Results indicate that large particle sizes are a detriment However, for small particles, there is an optimum amount of Al to add
ROCKET FUEL SELECTION GUIDE Desirable Physical Properties Low freezing point High specific gravity (dense propellant) Stability (with time) Heat transfer properties Pumping properties (low vapor pressure, low viscosity) Small variation in physical characteristics with temperature Ignition, combustion, and flame properties Performance of Propellants Economic Factors Physical Hazards (Explosion, Fire, Spills) Health Hazzards Corrosion
HYBRID ROCKETS Solid Fuel, Liquid Oxidizer Example