Recent renewed interest in Nuclear Electric Propulsion (NEP) at NASA has driven the need for design space exploration and analysis of alternative architectures to evaluate performance and feasibility of NEP concepts. It has been over a decade since NASA last invested in Nuclear Electric Propulsion development efforts, and the landscape has shifted in both mission objectives and technology readiness levels. This also means that many of the engineering analyses and design frameworks tailored to NEP date back to the Jupiter Icy Moons Orbiter (JIMO) days of the early 2000s. Thus, a need was identified for updating and modernizing the modeling and simulation toolsets for NEP. This paper will detail the development efforts in the Marshall Space Flight Center’s Advanced Concepts Office, with a particular focus on the development of the NEP stage of the NEP-Chem vehicle. The paper will cover the various models used, and their current development status, as well as provide an overview of the integrated vehicle model and plans for further development.
ENABLING ARCHITECTURE TRADES AND DESIGN EXPLORATION FOR NUCLEAR ELECTRIC PROPULSION
December 2022 Joint Army-Navy-NASA-Air Force (JANNAF) meeting ; 2022 ; Huntsville, AL, US
Aufsatz (Konferenz)
Keine Angabe
Englisch
Model Based Systems Engineering , Spacecraft Design, Testing And Performance , Space Transportation And Safety , Fission , Nuclear , Mars , MDAO , Spacecraft , Spacecraft Design , Human Spaceflight , Spacecraft Propulsion And Power , Nuclear Propulsion , MBSE , Nuclear Electric , Systems Engineering
Turboelectric Distributed Propulsion Protection System Design Trades
SAE Technical Papers | 2014
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