Difference between revisions of "Launch Vehicle"
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A launch vehicle is a part of a launch system carrying a payload up to orbit. Usually on Earth, but the same name would be used for Mars, where the difficulty of creating a launch vehicle is much smaller, due to lower deltaV requirements. | A launch vehicle is a part of a launch system carrying a payload up to orbit. Usually on Earth, but the same name would be used for Mars, where the difficulty of creating a launch vehicle is much smaller, due to lower deltaV requirements. | ||
| − | Launch cost economics | + | == Launch cost economics == |
| − | |||
Launch cost economics is a complex subject, source of endless debates. We present a simplified analysis here, for transportation to LEO, using the following equation: | Launch cost economics is a complex subject, source of endless debates. We present a simplified analysis here, for transportation to LEO, using the following equation: | ||
Pc = Payload cost ($/kg) | Pc = Payload cost ($/kg) | ||
| − | Pc = (De+Co*Vg+In+Vg*Vf*(Ma+Fu))/Pm*Vg*Vf | + | |
| + | Pc = (De+Co*Vg+In+Vg*Vf*(Ma+Fu))/Pm*Vg*Vf where: | ||
| + | |||
De = Development costs ; Research, management and testing. Safety requirements for crewed vehicles. Flight proofing. | De = Development costs ; Research, management and testing. Safety requirements for crewed vehicles. Flight proofing. | ||
| + | |||
Co = Construction of the vehicle ; Materials and manufacturing, person hours, testing. | Co = Construction of the vehicle ; Materials and manufacturing, person hours, testing. | ||
| + | |||
Vg = Vehicles per generation ; Number of vehicles built per design generation. | Vg = Vehicles per generation ; Number of vehicles built per design generation. | ||
| + | |||
In = Infrastructure ; Manufacturing plants, tooling and launch sites for a series of vehicles | In = Infrastructure ; Manufacturing plants, tooling and launch sites for a series of vehicles | ||
| + | |||
Vf = Vehicle flights; Number of flights a vehicle can do. | Vf = Vehicle flights; Number of flights a vehicle can do. | ||
| + | |||
Ma = Maintenance cost per flight; Clean up, repair, upgrades, fueling, set up on pad. | Ma = Maintenance cost per flight; Clean up, repair, upgrades, fueling, set up on pad. | ||
| + | |||
Fu = Fuel cost per flight | Fu = Fuel cost per flight | ||
| + | |||
Pm= Payload mass (kg) | Pm= Payload mass (kg) | ||
Environmental impact is not included as a cost but needs to be taken into account in the overall analysis. This parameter doomed fission pulsed propulsion and exotic fuels using fluorine, and might become an issue at high flight rates. | Environmental impact is not included as a cost but needs to be taken into account in the overall analysis. This parameter doomed fission pulsed propulsion and exotic fuels using fluorine, and might become an issue at high flight rates. | ||
| − | == See also == | + | ==See also== |
[[List of Launch Systems and Vendors|List of launch systems and vehicles]] | [[List of Launch Systems and Vendors|List of launch systems and vehicles]] | ||
Revision as of 07:17, 2 September 2021
A launch vehicle is a part of a launch system carrying a payload up to orbit. Usually on Earth, but the same name would be used for Mars, where the difficulty of creating a launch vehicle is much smaller, due to lower deltaV requirements.
Launch cost economics
Launch cost economics is a complex subject, source of endless debates. We present a simplified analysis here, for transportation to LEO, using the following equation:
Pc = Payload cost ($/kg)
Pc = (De+Co*Vg+In+Vg*Vf*(Ma+Fu))/Pm*Vg*Vf where:
De = Development costs ; Research, management and testing. Safety requirements for crewed vehicles. Flight proofing.
Co = Construction of the vehicle ; Materials and manufacturing, person hours, testing.
Vg = Vehicles per generation ; Number of vehicles built per design generation.
In = Infrastructure ; Manufacturing plants, tooling and launch sites for a series of vehicles
Vf = Vehicle flights; Number of flights a vehicle can do.
Ma = Maintenance cost per flight; Clean up, repair, upgrades, fueling, set up on pad.
Fu = Fuel cost per flight
Pm= Payload mass (kg)
Environmental impact is not included as a cost but needs to be taken into account in the overall analysis. This parameter doomed fission pulsed propulsion and exotic fuels using fluorine, and might become an issue at high flight rates.
