Datasets / Time-stepped & discrete-event simulations of electromagnetic propulsion systems Project


Time-stepped & discrete-event simulations of electromagnetic propulsion systems Project

Published By National Aeronautics and Space Administration

Issued over 9 years ago

US
beta

Summary

Type of release
a one-off release of a single dataset

Data Licence
Not Applicable

Content Licence
Creative Commons CCZero

Verification
automatically awarded

Description

The existing plasma codes are ill suited for modeling of mixed resolution problems, such as the plasma sail, where the system under study comprises subsystems with diverse modeling paradigms (e.g., fluid, kinetic) at differing levels of temporal and spatial resolution. Such complex systems are not unique to propulsion studies, but are commonly encountered in wide variety of fields. In Phase I, we were able to develop and successfully test the core technology for multi-resolution modeling within two distinct computational paradigms. By introducing a temporal mesh, we successfully overcame a major obstacle in the use of time-stepped simulations for multi-resolution problems. However, even more significant is our finding that discrete event simulation methodology works quite well for many-body systems such as plasmas with several orders of magnitude performance advantage over equivalent time-stepped simulations. The importance of this result cannot be overstated as it will have immediate repercussions in all fields where time-stepped modeling are currently used. Using these early versions of our code, we were able to address a number of outstanding issues in regards to the feasibility of plasma sails. Our objectives for Phase II are (i) to fully develop the codes, (ii) address the issues regarding the feasibility of plasma sails such as expansion of the magnetic bubble by the plasma source and the resulting drop-off of the magnetic field strength with radial distance, and (iii) prepare plans for marketing our technology in Phase III.