Hybrid Propulsion System Design Dr. Andrew Ketsdever Hybrid Propulsion System Design Notes | EduRev

: Hybrid Propulsion System Design Dr. Andrew Ketsdever Hybrid Propulsion System Design Notes | EduRev

 Page 1


Hybrid Propulsion System 
Design 
Dr. Andrew Ketsdever 
Page 2


Hybrid Propulsion System 
Design 
Dr. Andrew Ketsdever 
Hybrid Ballistics 
Page 3


Hybrid Propulsion System 
Design 
Dr. Andrew Ketsdever 
Hybrid Ballistics Hybrid Ballistics 
• Fuel is vaporized as a result of heat transferred from the 
flame zone to the fuel grain 
– Convection 
– Radiation 
• Vaporized fuel and oxidizer mix in the port 
• The flame is established at a location within the 
boundary layer determined by stoichiometric conditions 
Page 4


Hybrid Propulsion System 
Design 
Dr. Andrew Ketsdever 
Hybrid Ballistics Hybrid Ballistics 
• Fuel is vaporized as a result of heat transferred from the 
flame zone to the fuel grain 
– Convection 
– Radiation 
• Vaporized fuel and oxidizer mix in the port 
• The flame is established at a location within the 
boundary layer determined by stoichiometric conditions 
Hybrid Ballistics 
Page 5


Hybrid Propulsion System 
Design 
Dr. Andrew Ketsdever 
Hybrid Ballistics Hybrid Ballistics 
• Fuel is vaporized as a result of heat transferred from the 
flame zone to the fuel grain 
– Convection 
– Radiation 
• Vaporized fuel and oxidizer mix in the port 
• The flame is established at a location within the 
boundary layer determined by stoichiometric conditions 
Hybrid Ballistics 
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