A rapid method for optimization of the rocket propulsion system for single-stage-to-orbit vehicles
Abstract
A rapid analytical method for the optimization of rocket propulsion systems is presented for a vertical take-off, horizontal landing, single-stage-to-orbit launch vehicle. This method utilizes trade-offs between propulsion characteristics affecting flight performance and engine system mass. The performance results from a point-mass trajectory optimization program are combined with a linearized sizing program to establish vehicle sizing trends caused by propulsion system variations. The linearized sizing technique was developed for the class of vehicle systems studied herein. The specific examples treated are the optimization of nozzle expansion ratio and lift-off thrust-to-weight ratio to achieve either minimum gross mass or minimum dry mass. Assumed propulsion system characteristics are high chamber pressure, liquid oxygen and liquid hydrogen propellants, conventional bell nozzles, and the same fixed nozzle expansion ratio for all engines on a vehicle.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- July 1976
- Bibcode:
- 1976STIN...7626255E
- Keywords:
-
- Rocket Engine Design;
- Single Stage Rocket Vehicles;
- Flight Characteristics;
- Liftoff (Launching);
- Liquid Rocket Propellants;
- Nozzle Thrust Coefficients;
- Optimization;
- Rocket Nozzles;
- Launch Vehicles and Space Vehicles