Add to ORKGAn evaluation of an existing analytical heat transfer model was made to develop the technology of boundary film/conduction cooled rocket thrust chambers to the space storable propellant combination oxygen difluoride/diborane. Critical design parameters were identified and their importance determined. Test reduction methods were developed to enable data obtained from short duration hot firings with a thin walled (calorimeter) chamber to be used quantitatively evaluate the heat absorbing capability of the vapor film. The modification of the existing like-doublet injector was based on the results obtained from the calorimeter firings
A 6-month program was conducted to fabricate, acceptance test, and deliver to JPL two FLOX/MMH rocke...
Efforts have been made at the Propulsion Laboratory (MSFC) to design and develop new liquid rocket e...
Design Criteria, Experimental Studies of Supersonic Shock Wave Interaction with Film Cooling, and Hi...
Chamber technology for space storable propellant combinations featuring oxygen difluorid
Analysis, design, fabrication, and test efforts were performed for the existing OF2/B2H6 regenerativ...
A conjugate heat transfer computational fluid dynamics (CFD) model to describe regenerative cooling ...
Complexities of liquid rocket engine heat transfer which involve the injector faceplate and film coo...
Boundary flow composition in rocket motor combustion chamber with exhaust system samplin
Includes bibliographical references (pages 38-41)An analytical method was developed to predict the t...
Empirical heat transfer values and thermodynamic models were verified and expanded for a uni-element...
Heat transfer, altitude performance, and combustion efficiency evaluated in study of space storable ...
Cooling systems for liquid propellant rocket engines operating at high chamber pressure
The effects of: (1) a reactive environment on film cooling effectiveness, and (2) film cooling on ro...
Injector design criteria are provided for gaseous hydrogen-gaseous oxygen propellants. Design equati...
Heat-transfer coefficients were obtained on a thrust chamber which simulated the geometry of the NER...
A 6-month program was conducted to fabricate, acceptance test, and deliver to JPL two FLOX/MMH rocke...
Efforts have been made at the Propulsion Laboratory (MSFC) to design and develop new liquid rocket e...
Design Criteria, Experimental Studies of Supersonic Shock Wave Interaction with Film Cooling, and Hi...
Chamber technology for space storable propellant combinations featuring oxygen difluorid
Analysis, design, fabrication, and test efforts were performed for the existing OF2/B2H6 regenerativ...
A conjugate heat transfer computational fluid dynamics (CFD) model to describe regenerative cooling ...
Complexities of liquid rocket engine heat transfer which involve the injector faceplate and film coo...
Boundary flow composition in rocket motor combustion chamber with exhaust system samplin
Includes bibliographical references (pages 38-41)An analytical method was developed to predict the t...
Empirical heat transfer values and thermodynamic models were verified and expanded for a uni-element...
Heat transfer, altitude performance, and combustion efficiency evaluated in study of space storable ...
Cooling systems for liquid propellant rocket engines operating at high chamber pressure
The effects of: (1) a reactive environment on film cooling effectiveness, and (2) film cooling on ro...
Injector design criteria are provided for gaseous hydrogen-gaseous oxygen propellants. Design equati...
Heat-transfer coefficients were obtained on a thrust chamber which simulated the geometry of the NER...
A 6-month program was conducted to fabricate, acceptance test, and deliver to JPL two FLOX/MMH rocke...
Efforts have been made at the Propulsion Laboratory (MSFC) to design and develop new liquid rocket e...
Design Criteria, Experimental Studies of Supersonic Shock Wave Interaction with Film Cooling, and Hi...