Acoustic Stability Prediction In Solid Rocket Motors
Navy SBIR FY2010.1


Sol No.: Navy SBIR FY2010.1
Topic No.: N101-040
Topic Title: Acoustic Stability Prediction In Solid Rocket Motors
Proposal No.: N101-040-1047
Firm: Software and Engineering Associates, Inc.
1802 N. Carson Street
Suite 200
Carson City, Nevada 89701-1238
Contact: Anthony Dang
Phone: (775) 882-1966
Web Site: www.seainc.com
Abstract: The ability for engineers to assess the impact of their preliminary design of solid rocket motor (SRM) performance and combustion stability is the focus of this proposal. The SRMs of the future will be designed for increased performance. Since ballistic excursions, instabilities, and sporadic forces on rocket motors have catastrophic results, Software and Engineering Associates, Inc. (SEA) has made considerable effort developing and maintaining codes for SRM performance and stability analysis. SEA has incorporated the Standard Stability Prediction (SSP) code into their Solid Performance Program (SPP), and will use these codes to improve the prediction of motor ballistic performance and stability of SRM grain designs. The modeling of the oscillatory forces on a motor given the change in pressure will be added to SPP. New and innovative methodologies will be implemented into SPP/SSP for analyzing strain augmented burning and multi-dimensional combustion stability in SRMs. These innovative technologies include using existing grain design technology, grid generation, a steady state Navier-Stokes (NS) solver and/or an Euler CFD code, and an acoustics eigensolver and linear stability analysis coupled with a structural solver. Investigation will center on the impact of strain augmented burning on ballistic performance and instabilities coupled with vortical flow.
Benefits: The anticipated benefits of this innovation are significant reductions in development time and cost for both new and modified Solid Rocket Motors, SRM. Using this innovation, development problems can be designed out of new motors before testing, the potential savings to the government may be enormous. The SPP/SSP suite of computer codes is currently in use at over 40 installations in the United States and represents a ready market for the improved code. Sale of the software to this existing market satisfies an existing commercial need.

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