Award Data

This Small Business Innovation Research Phase I project will demonstrate the feasibility of designing engineered mesoporous zirconia films for intermediate temperature (600ýýC) solid-oxide fuel cells (IT-SOFCs) with the aim of extending the basic and practical knowledge of synthesis as well as electronic behavior of mesoporous films, while at the same time producing materials that have a direct ...

This Small Business Innovation Research Phase I project aims to develop platform clostridia strains suitable for industrial scale alcohol production from renewable feedstocks and also to improve metabolic engineering technologies for all clostridia. Clostridia are strictly anaerobic, endospore forming prokaryotes of major importance to cellulose degradation, human and animal health and physiology, ...

This Small Business Innovation Research Phase I project will test the feasibility of a signal processing algorithm to separate energy used by individual appliances from the total natural gas and electricity entering a home. Utility ratepayers may benefit from this detailed information by more-effectively identifying and mitigate inefficient appliances and activities. The new generation of smart el ...

This Small Business Innovation Research Phase I project will investigate the potential of using call log data to assist the telecommunications industry in better serving its customers. Call logs (records of who called whom) can be viewed as social networks, with phone numbers representing vertices and phone calls representing edges. Understanding a customer's social network can potentially provide ...

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INCREASED DEMAND FOR LIVE AND PROCESSED CLAMS HAS BEEN ACCOMPAINED BY A DECREASED SUPPLY OF WILD CLAMS. THE SURF CLAM (SPISULA SOLIDISSMA) WAS UTILIZED EXTENSIVELY FOR PROCESSED CLAM PRODUCTS UNTIL OVERFISHING REDUCED THE SURF CLAM POPULATIONS AND HARVESTS. RESEARCH HAS INDICATED THAT SURF CLAMS CAN BE PRODUCED IN LAND-BASED CULTURE SYSTEMS IN ONE GROWING SEASON, FOR USE IN MARKETS CURRENTLY SUPPL ...

This SBIR Phase I project will use a proprietary on-site chlorine/mixed oxidant generator (MIOX) for UV-assisted chemical oxidation of ammonia and natural organic matter (NOM). If chlorine-UV is a feasible advanced oxidation process, then the range of uses for the MIOX process may be greatly extended. The project will address oxidation of organics, including NOM, and the potential reduced format ...