Liquid rocket thrust chambers : aspects of modeling, analysis, and design /

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Yang, Vigor
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Reston, Va. : American Institute of Aeronautics and Astronautics, ©2004.
Colección:Progress in astronautics and aeronautics ; v. 200.
Temas:
Liquid propellants.
Propergols liquides.
Liquid propellants
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • Title
  • Copyright
  • Table of Contents
  • Preface
  • Acknowledgments
  • Chapter 1 Propellant Injection Systems and Processes
  • Introduction
  • Rocket Application Design Requirements
  • Thrust Level and Operating Pressure
  • Propellant Type
  • Engine Cycle or Feed System
  • Common Combustion Device Development Risks
  • Combustion Instability
  • Combustion Chamber Overheating and Burnout
  • Injector Face Erosion
  • Low Thrust Chamber Assembly Performance
  • Unsafe Transients
  • Injection System Design Considerations
  • Engine Pressure ScheduleNozzle Expansion Ratio
  • Contraction Ratio
  • Chamber Length
  • Injection Element and Pattern
  • Critical Combustion Processes
  • Injector Manifold Distribution
  • Injector Spray Atomization
  • Propellant Droplet Vaporization
  • Bipropellant Mixing
  • Candidate Injectors for Liquid Rocket Applications
  • Coaxial Jet Injectors
  • Impinging Jet Injectors
  • Parallel Jet (Showerhead) Injectors
  • Injector Design Synthesis
  • Conclusions and R e commendations
  • References
  • Chapter 2 Design and Dynamics of Jet and Swirl Injectors
  • NomenclatureIntroduction
  • Classification of Injectors and Methods of Mixture Formation
  • Liquid Injectors
  • Gas-Liquid Injectors
  • Intensification of Propellant Atomization and Mixing in Liquid Injectors
  • Intensification of Propellant Atomization and Mixing in Gas-Liquid Injectors
  • Theory and Design of Liquid Monopropellant Jet Injectors
  • Flow Characteristics
  • Effect of Injector Configuration
  • Flow Coefficient
  • Design Procedure
  • Theory and Design of Gaseous Monopropellant Jet Injectors
  • Flow Characteristics
  • Design Procedure
  • Theory and Design of Gas-Liquid Jet InjectorsTheory and Design of Liquid Monopropellant Swirl Injectors
  • Flow Characteristics of Ideal Swirl Injector
  • Flow Characteristics of Real Swirl Injectors
  • Effect of Viscosity on Injector Operation
  • Design Procedure
  • Theory and Design of Liquid Bipropellant Swirl Injectors
  • Injectors with External Mixing
  • Injectors with Internal Mixing
  • Modulation of Liquid Spray Characteristics of Swirl Injectors
  • Design of Gas Swirl Injectors
  • Design Procedure
  • Selection of Geometric Dimensions and Flow Parameters
  • Dynamics of Liquid Rocket InjectorsLinear Dynamics of Jet Injectors
  • Linear Dynamics of Swirl Injectors
  • Acknowledgments
  • References
  • Chapter 3 Atomization in Coaxial-Jet Injectors
  • Nomenclature
  • Introduction
  • Phenomenological Description and Literature Review
  • General Scheme of Jet Disintegration and Drop Formation
  • Studies of Elementary Processes
  • Numerical Simulations of the Atomization Process
  • Derivation of Droplet Size Distribution Functions
  • Investigations of Atomization in Shear Coaxial Injectors

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