Modelling Study to Compare the Flow and Heat Transfer Characteristics of Low-Power Hydrogen, Nitrogen and Argon Arc-Heated Thrusters
Author:
Publisher
IOP Publishing
Subject
Condensed Matter Physics
Reference27 articles.
1. ARCJET ENGINE PERFORMANCE- EXPERIMENT AND THEORY
2. Development of a regeneratively cooled 30-kw arcjet engine
3. Development and demonstration of a 600-second mission-average I(sp) arcjet
4. Arcjet modeling - Status and prospects
5. Interior plasma diagnostics of arcjet thrusters
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