Steady State Heat Transfer Analysis on Injector

Steady State Heat Transfer Analysis on Injector
Actual Injector Half Modeled Injector Half 2/10/2005 Thrust Chamber Assembly Concept Design Review

Outline of Procedure Used
Get Chamber Properties from NASA code Density Sonic Velocity Viscosity Specific Heat Thermal Conductivity Pick Mach number tangent to surface: 0.4 Steady state heat transfer iteration for gas-side wall temperature for oxidizer and fuel sections Compute fuel pressure loss through injector 2/10/2005 Thrust Chamber Assembly Concept Design Review

Thrust Chamber Assembly Concept Design Review
Fuel-Side Analysis Copper Wall Fuel Flow Camber Gases Convection Conduction Convection 2/10/2005 Thrust Chamber Assembly Concept Design Review

Gas-side Wall Temperature Iteration Steps
Guess Gas-Side Wall Temperature, Twg Bartz Equation: 2/10/2005 Thrust Chamber Assembly Concept Design Review

Fuel-Side Iteration Gas-Side Heat Flux: Fuel-side Wall Temperature: 2/10/2005 Thrust Chamber Assembly Concept Design Review

Fuel-Side Iteration Seider-Tate Forced Convection: Correlations as a function of temperature at 350psi for transport and physical properties of Propene from NIST Chemistry Web book Temperature at previous position used, Tinitial=405°R 2/10/2005 Thrust Chamber Assembly Concept Design Review

Fuel-Side Iteration Fuel-side Heat Flux: If fuel-side heat flux = gas-side heat flux, continue, else choose another guess for Twg Fuel Temperature at current position: 2/10/2005 Thrust Chamber Assembly Concept Design Review

Fuel-Side Iteration Pressure Iteration: Move to next axial position and repeat 2/10/2005 Thrust Chamber Assembly Concept Design Review

Oxidizer-Side Analysis
Copper Wall Stagnant O2 Camber Gases Conduction Convection Fixed Temperature, Liquid O2 = 162°R Copper Wall Same procedure as fuel-side except Two is fixed at liquid oxygen temperature 2/10/2005 Thrust Chamber Assembly Concept Design Review

Fuel-Side Results, M = 0.4 dTwg ≈ 82°R 2/10/2005 Thrust Chamber Assembly Concept Design Review

Overall Results, M = 0.4 2/10/2005 Thrust Chamber Assembly Concept Design Review

Fuel Convective Heat Transfer Coefficient
2/10/2005 Thrust Chamber Assembly Concept Design Review

Steady State Heat Transfer Analysis on Injector

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Steady State Heat Transfer Analysis on Injector

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