Award Data

The rotorcraft aerodynamic interaction is a complicated problem and remains an extremely challenging aspect of rotorcraft analysis. This STTR is dedicated to developing a solution for the complicated rotorcraft aerodynamic interaction problem. The Phase I research coupled a state-of-the-art vortex particle method (VPM) with an unstructured Navier-Stokes CFD body surface solver and prototyped a hyb ...

Collaboration between Navy warfighters at the Operational Level of War is essential. In the Navy today collaboration to achieve Commander’s Control Actions is done ashore and on large deck afloat platforms with video teleconferencing and voice over IP. But only those platforms have sufficient bandwidth, and even then available bandwidth drop during mission critical times. Meanwhile the only ubiq ...

This STTR Phase I project will develop a novel toxic material storage bag with an inner liner capable of decontaminating chemical and biological warfare agents (CBWA’s).. The inner-liner technology would entail adsorption and decomposition of warfare agents without the release of toxic agents, and will result in a storage bag capable of being disposed of in an environmentally safe fashion. The ...

The Barron Associates/Virginia Tech team believes that intelligent use of ambient riverine environmental factors together with novel drifter design and low-energy articulation is the key to enabling large non-overlapping river coverage. The proposed phase I research program focuses on (1) identifying key river characteristics which may be leveraged by riverine drifters, (2) fabricating a novel riv ...

Military shelters currently use electrically driven Environmental Control Units (ECUs) to provide cooling for the air inside the shelter. The ECU is vapor compression cycle powered by a diesel generator, operating on JP-8 fuel. Other than fueling jet engines, the largest drain on U.S. military fuel supplies in current operations comes from running generators at forward operating bases. In hot cli ...

In response to SBIR topic MDA09-T006, USCI proposes to develop the first medium-level integrated circuit for radiation-tolerant applications. The advanced integrated circuit will be demonstrated based on a novel yet simple design SiC transistor that has the potential to provide a factor of 10X improvement in performance comparison to state-of-the-art. The SiC transistor can be fabricated by a subs ...

The research objective is to develop a fully functional computational method for prediction of the after-burning effect of different fuels in a wide range of temperature, pressure, and turbulence regimes. Achievement of the objective requires understanding and modeling of key phenomena including (a) post-detonation response of the fuels, (b) near-field coupling of detonation products with particul ...

This proposal is being submitted in response to the solicitation topic N10A-T002 (Development of a Computational Method for Prediction of After Burning Effect) by BUSA Engineering Consulting (Dr. Jianghui Chao) in collaboration with University of Florida (PI: Prof. S. Balachandar). The overall objective of the proposed effort is to contribute to national defense and security by advancing the state ...

The objective of this program is to design advanced energetic oxidizers superior to ammonium perchlorate (AP), develop methods for their preparation, and characterize the products. The overall goal of the Phase II program with options is to make the technology ready for commercialization

Structured Materials Industries, Inc. (SMI), working with others have demonstrated functioning fundamental memristor material technology. In this program, working with our University partner and end use collaborators, we propose to provide an infrastructure for making memristor materials at production scales, expand/refine the known memristor materials, provide samples of the produced memristor ma ...