Award Data

In Phase I of this research project, Baldwin Environmental, Inc. (BEI) successfully demonstrated the feasibility of designing and producing a Fine and Coarse Particulate Monitoring Continuous Emissions Monitoring System (FCPMCEMS). This system simultaneously measures and reports mass concentrations of fine and coarse particulate material using atmospheric dispersion simulation (ADS) a ...

Special Operations forces (SOF) operate in all weather conditions. It has identified a need for a micro-cooling system that can be vehicle mounted and man-portable, as well as provide a capability to cool vehicle mounted communications and electronics equipment. To meet the needs of SOF the system must be small, lightweight, quiet, low power, and gasless. We propose a compact micro-cooling system ...

Southwest Sciences proposes the development of an optical, near-ultraviolet chlorine dioxide (ClO2) sensor having a measurement range of about 0.01 to 2000 ppm with a response time of less than 10 seconds. The sensor will be compact—about the size of a 1-quart milk carton including electronic and optics, operate at low power, and be outfitted with a wireless communications interface to permit re ...

Using the unique spectral characteristics of its proprietary fractal-microcavity composite, LaSys, Inc., will perform the proof-of-concept research required to develop an ultra-sensitive optical detector of low concentration of arsenic in water based on the Raman effect. The Phase I technical objectives are designed to demonstrate that fractal microcavity composite-surface-enhanced ...

Baldwin Environmental Inc. (BEI) successfully completed an SBIR Phase I project that demonstrated the feasibility of designing and producing a Fine and Coarse Particulate Monitoring System (FCPMCEMS). This system simultaneously measures and reports mass concentrations of fine and coarse particulate material using Atmospheric Dispersion Simulation and Beta Attenuation Monitoring (BAM). A design a ...

"Our Phase I study proved the feasibility of using monofilament carbon tow and thin resistant wire in a glove system to provide an adequate heat source to keep a soldier's hands comfortable in extreme cold temperatures while retaining hand dexterity andtactility. Our objectives during Phase II are to (1) incorporate our heat generation process into a super thin, non-melting, flame-rerardant materi ...

LaSys, Inc., utilizing the unique spectral characteristics of its proprietary fractal-microcavity composite will be used to perform the proof-of-concept research required to develop an ultra-sensitive optical detector of low concentration of arsenic in water based on the Raman effect. Phase I technical objectives are designed to demonstrate that fractal microcavity composite - SERS spectroscopy i ...

The objective is to modify and test gas turbine engines presently installed in/on marine craft to demonstrate that by adapting technology used on street legal vehicles can be used to reduce the heat and noise levels in marine craft. Whether or not the IR15dB level or lower, and the above water acoustic/noise level to 60dB level or lower can be achieved, is a matter that can only be demostrated by ...

Southwest Sciences proposes the development of an optical, near-ultraviolet chlorine dioxide sensor having a measurement range for about 0.01 to 2000 ppm with a response time of less than 10 seconds. The sensors will be compact - about the size of a 1quart milk carton including electronic and optics - operate a low power, and be outfitted with wireless communications interface to permit remote, u ...

This Phase I SBIR Project will involve performance of a study to evaluate current commercial display technologies, head-mounted and wrist-mounted display configurations, and software that could fulfill the SOF requirements. The study will emphasizeidentification of the best display at the lowest power consumption. Based on the evaluation of current practice, innovative technology ideas will be pre ...