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Hydrogen peroxide-based propulsion and power systems

Keese, David L.; Melof, Brian M.; Ingram, Brian I.; Escapule, William R.; Grubelich, Mark C.; Ruffner, Judith A.

Less toxic, storable, hypergolic propellants are desired to replace nitrogen tetroxide (NTO) and hydrazine in certain applications. Hydrogen peroxide is a very attractive replacement oxidizer, but finding acceptable replacement fuels is more challenging. The focus of this investigation is to find fuels that have short hypergolic ignition delays, high specific impulse, and desirable storage properties. The resulting hypergolic fuel/oxidizer combination would be highly desirable for virtually any high energy-density applications such as small but powerful gas generating systems, attitude control motors, or main propulsion. These systems would be implemented on platforms ranging from guided bombs to replacement of environmentally unfriendly existing systems to manned space vehicles.

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Autonomous microexplosives subsurface tracing system final report

Warpinski, Norman R.; Ingram, Brian I.; Melof, Brian M.; Engler, Bruce P.; Grubelich, Mark C.; Kravitz, Stanley H.; Rivas, Raul R.; Dulleck, George R.

The objective of the autonomous micro-explosive subsurface tracing system is to image the location and geometry of hydraulically induced fractures in subsurface petroleum reservoirs. This system is based on the insertion of a swarm of autonomous micro-explosive packages during the fracturing process, with subsequent triggering of the energetic material to create an array of micro-seismic sources that can be detected and analyzed using existing seismic receiver arrays and analysis software. The project included investigations of energetic mixtures, triggering systems, package size and shape, and seismic output. Given the current absence of any technology capable of such high resolution mapping of subsurface structures, this technology has the potential for major impact on petroleum industry, which spends approximately $1 billion dollar per year on hydraulic fracturing operations in the United States alone.

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Less-than-lethal "flashbang" diversionary device

Bender, Susan F.; Anderson, Heidi A.; Bender, Susan F.; Steyskal, Michele S.; Ingram, Brian I.; Melof, Brian M.; Fleming, Kevin J.; Broyles, Theresa A.; Mulligan, Edward J.; Covert, Timothy T.

Diversionary devices such as flashbang grenades are used in a wide variety of military and law-enforcement operations. They function to distract and/or incapacitate adversaries in scenarios ranging from hostage rescue to covert strategic paralysis operations. There are a number of disadvantages associated with currently available diversionary devices. Serious injuries and fatalities have resulted from their use both operationally and in training. Because safety is of paramount importance, desired improvements to these devices include protection against inadvertent initiation, the elimination of the production of high-velocity fragments, less damaging decibel output and increased light output. Sandia National Laboratories has developed a next-generation diversionary flash-bang device that will provide the end user with these enhanced safety features.

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3 Results
3 Results