OUTLINE: (1) Introduction; (2) Technical challenges in propellant design; (3) Modeling and Simulation (M AND S) techniques AND tools: (a) Quantum chemistry; (b) High Performance Computing (HPC); (4) Examples: (a) Identification of suitable target compounds; (b) Determination of viable intermediates; (c) Confirmation of successful synthesis; (5) Challenges and Bottlenecks; (6) Summary and Conclusions.
Energetic Materials Modeling for Rocket Propulsion
2005
27 pages
Report
No indication
English
Physical & Theoretical Chemistry , Rocket Engines & Motors , Rocket Propellants , Energetic properties , Rocket propulsion , Rocket propellants , Models , Quantum chemistry , Spectral emittance , Software tools , Ionic strength , Computational chemistry , Chemical compounds , Materials , Synthesis(Chemistry) , Targets , Hpc(High performance computing) , Ionic liquids , Spectral theory , Briefing charts
Materials Modeling for Rocket Propulsion
NTIS | 2005
|ENERGETIC HYBRID ROCKET PROPELLANTS FOR UPPER STAGE PROPULSION
TIBKAT | 2021
|