Add to ORKGPropellant densification has been identified as a critical technology in the development of single-stage-to-orbit reusable launch vehicles. Technology to create supercooled high-density liquid oxygen (LO2) and liquid hydrogen (LH2) is a key means to lowering launch vehicle costs. The densification of cryogenic propellants through subcooling allows 8 to 10 percent more propellant mass to be stored in a given unit volume, thereby improving the launch vehicle's overall performance. This allows for higher propellant mass fractions than would be possible with conventional normal boiling point cryogenic propellants, considering the normal boiling point of LO2 and LH2
Propellant densification has many beneficial properties when space launch systems are considered. Am...
Enhancements to propellants provide an opportunity to either increase performance of an existing veh...
At Florida Solar Energy Center (FSEC) of the University of Central Florida, we are probing processes...
The NASA Glenn Research Center at Lewis Field has taken the lead in the development of practical den...
A concept for improving the performance of propulsion systems in expendable and single-stage-to-orbi...
Next-generation launch vehicles demand several technological improvements to achieve lower cost and ...
This purpose of this paper is to review several historical cryogenic test programs that were conduct...
Propellant densification is cooling the propellant below the normal boiling point; Densified propell...
Recent demonstration of advanced liquid hydrogen storage techniques using Integrated Refrigeration a...
Cryogenic propellants such as liquid hydrogen (LH2) and liquid oxygen (LO2) are a part of NASA's fut...
Rocket fuel needs to stay cool - super cool, in fact. The ability to store gas propellants like liqu...
Ground and vehicle system requirements are evaluated for the use of densified cryogenic propellants ...
Recent demonstration of advanced liquid hydrogen storage techniques using Integrated Refrigeration a...
Cryogenic propellants such as liquid hydrogen (LH2) and liquid oxygen (LO2) are a part of NASA's fut...
Propellant densification has many beneficial properties when space launch systems are considered. Am...
Propellant densification has many beneficial properties when space launch systems are considered. Am...
Enhancements to propellants provide an opportunity to either increase performance of an existing veh...
At Florida Solar Energy Center (FSEC) of the University of Central Florida, we are probing processes...
The NASA Glenn Research Center at Lewis Field has taken the lead in the development of practical den...
A concept for improving the performance of propulsion systems in expendable and single-stage-to-orbi...
Next-generation launch vehicles demand several technological improvements to achieve lower cost and ...
This purpose of this paper is to review several historical cryogenic test programs that were conduct...
Propellant densification is cooling the propellant below the normal boiling point; Densified propell...
Recent demonstration of advanced liquid hydrogen storage techniques using Integrated Refrigeration a...
Cryogenic propellants such as liquid hydrogen (LH2) and liquid oxygen (LO2) are a part of NASA's fut...
Rocket fuel needs to stay cool - super cool, in fact. The ability to store gas propellants like liqu...
Ground and vehicle system requirements are evaluated for the use of densified cryogenic propellants ...
Recent demonstration of advanced liquid hydrogen storage techniques using Integrated Refrigeration a...
Cryogenic propellants such as liquid hydrogen (LH2) and liquid oxygen (LO2) are a part of NASA's fut...
Propellant densification has many beneficial properties when space launch systems are considered. Am...
Propellant densification has many beneficial properties when space launch systems are considered. Am...
Enhancements to propellants provide an opportunity to either increase performance of an existing veh...
At Florida Solar Energy Center (FSEC) of the University of Central Florida, we are probing processes...