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Oceanit proposes to develop a low cost, reliable, wireless mesh networking system that will enable remote monitoring and tracking of sensors on emergency responders in hostile building environments. The heart of the system will use a commercial-off-the-shelf (COTS) wireless mesh networking IC platform for low-power and low-cost communications. By using a wireless mesh network, low-power wireless t ...

Bio-ethanol penetration into the marketplace is limited by its cost, making it non-competitive with petroleum-based fuels. Energy consumed during fermentation and distillation steps accounts for 17% of the total cost. Because fermentation is exothermic, the reactor must be cooled to preserve mesophilic microbial viability. Then, the product must then be heated to vaporize the ethanol for purificat ...

The conversion of corn and other biomass to fuel grade ethanol not only would reduce U.S. dependence on foreign energy sources but also would be a major industrial application for agricultural products. However, the process of drying the ethanol to fuel grade consumes significant amounts of energy, incurring costs that continue to increase as cost of natural gas increases. This project will deve ...

The need for natural gas continues to grow, and recent increases in petroleum prices have been paralleled by large increases in the price of natural gas. However, natural gas at the source often has high concentrations of carbon dioxide and hydrogen sulfide, which must be removed. Although existing commercial polymeric membranes (e.g. cellulose acetate and polysulfone) do a good job of sweetenin ...

Distillation is a major chemical unit operation and consumer of significant energy. Often, water or another intermediate boiling component can become trapped within the distillation column and accumulate. This causes various operating difficulties such as flooding, slugging, cycling, instability, and an off-spec product. This project will develop a chemically resistant, non-porous water-venting ...

Catalysis plays a substantial role in the synthesis of the most U.S. commodity chemicals, with huge implications for energy usage. Membrane reactors have been proposed for a number of these syntheses. However, to be competitive with conventional technologies, membrane reactors must demonstrate better selectivity, permeability, and/or stability. This project will develop a novel platform with ke ...

The use of ethanol as a fuel would impact U.S. reliance on foreign oil. However, among the economic obstacles to it widespread use are the costs of shipping fuel-grade ethanol by truck. Shipping ethanol by pipeline would be significantly less expensive, but, unfortunately, pipeline ethanol is hydroscopic, which causes too much water to be present in the fuel. This project will develop a simple, ...

Many refinery product streams, particularly those from Ultra Low Hydrodesulfurisation units, are prone to haze due to water emulsions. Haze is also problematic for biodiesel production, as hazy fuel cannot be used until the haze settles or is removed, which creates costly scheduling and shipping delays. This project will develop a novel membrane process for the removal of dissolved and dispersed ...

Process intensification methodologies are need for the chemical processes and bioprocesses used in a biorefinery, in order to make the biorefinery a viable commercial alternative to the production of fuels and chemicals. Because the molecular mixing of reactants can enhance reactions, it is a key to process intensification. Significant process inefficiencies can occur (especially with highly react ...

The U.S has established a goal to replace 30% of our current petroleum consumption with renewable fuels by 2030. Current technology cannot meet this goal due to (1) limitations in potential feedstock supplies (corn-based ethanol), (2) prohibitive costs, and (3) immature or non-existent technologies. Therefore, new cost-effective technologies that can convert cellulosic biomass are required. This p ...