Add to ORKGHeat-transfer coefficients were obtained on a thrust chamber which simulated the geometry of the NERVA nuclear rocket. The tests were performed with and without peripheral film cooling over a chamber pressure range of 1.05 million to 5.84 million newtons per square meter (153 to 847 psia). With no film cooling, the overall axial variation in the value of the correlation coefficient C of the equation (Stanton)* (Prandtl)* to the 0.7ths power = C(Reynolds)* to the -0.2ths power, where * indicates the reference enthalpy condition, was reduced 66 percent when the local diameter in the Reynolds number was replaced by the axial distance from the injector face. The average peak values of C were reduced 25 percent with 2 and 3.75 percent cooling an...
Small scale nozzle tests using heated nitrogen were run to obtain effectiveness and wall heat transf...
The applicability of gaseous-film cooling to a rocket motor was investigated using a small JP-4- gas...
Variable property heat transfer equations and their applicability to nozzle of nuclear rocket Phoebu...
An experimental investigation was conducted to determine the coolant-side, heat transfer coefficient...
The effects of: (1) a reactive environment on film cooling effectiveness, and (2) film cooling on ro...
Hot-gas side heat-transfer rates for liquid oxygen and hydrogen propellant rocket nozzl
Comparison of predicted nozzle coolant side heat transfer and fluid flow with experimental values fr...
A nuclear-rocket regenerative-cooling analysis was conducted over a range of reactor power of 46 to ...
An experimental investigation was conducted to determine the hot-gas-side heat transfer characterist...
The mixing and heat transfer phenomena in small rocket flow fields with fuel film cooling is not wel...
In order to validate the benefits of high aspect ratio cooling channels in a large scale rocket comb...
Variable property heat transfer and friction equations to rocket nozzle coolant passages and compari...
Correlation equations for predicting gas-side heat transfer of axisymmetric rocket engine nozzle
Cooling systems for liquid propellant rocket engines operating at high chamber pressure
Effects of flow turning, flow acceleration, and supersonic flow on film cooling were determined expe...
Small scale nozzle tests using heated nitrogen were run to obtain effectiveness and wall heat transf...
The applicability of gaseous-film cooling to a rocket motor was investigated using a small JP-4- gas...
Variable property heat transfer equations and their applicability to nozzle of nuclear rocket Phoebu...
An experimental investigation was conducted to determine the coolant-side, heat transfer coefficient...
The effects of: (1) a reactive environment on film cooling effectiveness, and (2) film cooling on ro...
Hot-gas side heat-transfer rates for liquid oxygen and hydrogen propellant rocket nozzl
Comparison of predicted nozzle coolant side heat transfer and fluid flow with experimental values fr...
A nuclear-rocket regenerative-cooling analysis was conducted over a range of reactor power of 46 to ...
An experimental investigation was conducted to determine the hot-gas-side heat transfer characterist...
The mixing and heat transfer phenomena in small rocket flow fields with fuel film cooling is not wel...
In order to validate the benefits of high aspect ratio cooling channels in a large scale rocket comb...
Variable property heat transfer and friction equations to rocket nozzle coolant passages and compari...
Correlation equations for predicting gas-side heat transfer of axisymmetric rocket engine nozzle
Cooling systems for liquid propellant rocket engines operating at high chamber pressure
Effects of flow turning, flow acceleration, and supersonic flow on film cooling were determined expe...
Small scale nozzle tests using heated nitrogen were run to obtain effectiveness and wall heat transf...
The applicability of gaseous-film cooling to a rocket motor was investigated using a small JP-4- gas...
Variable property heat transfer equations and their applicability to nozzle of nuclear rocket Phoebu...