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Two-step method for production of multiple biofuels and products from Non-Lignocellosic Biomass

Detailed Technology Description

Project ID: D2015-31 Background Biomass of non-lignocellulosic origin is typically composed of one or more of three components – protein, starch and oils (such as triacylglycerides or other lipids). One of the concerns with thermochemical processing of protein-containing biomass is contamination of bio-oil with nitrogen-containing compounds (such as pyrozole, pyridine, maltol etc.) derived from protein. N-containing fuels are of low quality and may not pass fuel standards due to formation of NOx upon combustion. In addition, when bio-oils are upgraded through catalytic hydrogenation and deoxygenation, presence of N-compounds can poison the catalysts. Researchers at the University of Toledo have developed a process to recover oil and gas individually from each of these fractions and produce high-quality bio-oils, and/or biodiesel, free of nitrogen-containing compounds. Invention DescriptionA method for production of multiple biofuels through thermal fractionation of non-lignocellulosic biomass is described. The method involves heating the biomass feedstock in an inert and oxygen-free environment and is performed at lower temperatures than conventional pyrolysis. The method results in the production of bio-oils, gases and char. In addition, the method describes ways to upgrade bio-oils to liquid fuels that are directly compatible with existing engines and infrastructure. The bio-oil production and upgradation all occur within a single process that is integrated with the thermal fractionation.   Applications•       Fuel production from a wide variety of biomass types ranging from algae to terrestrial oil- or carbohydrate- containing feed stocks Advantages•       Near complete conversion of biomass carbon to fuels and products•       Conversion to biodiesel occurs in a novel and cost-effective single step, needing no further purification•       No catalyst necessary—fewer steps to product = lower cost operation•       Energy-efficient, low temperature pyrolysis process directly produces infrastructure-compatible biodiesel•       Nitrogen-rich biochar produced by the process may be used as a valuable soil amendment or fertilizer•       Volatilized compounds can be condensed and recovered as syngas•       Broadly useful for production of liquid transportation fuels•       Fuels are compatible with current infrastructure IP Status:        US Utility Patent, 9,809,781

*Abstract

*Principal Investigator

Name: Balakrishna Maddi, Research Assistant

Department: Chem & Engivo Engr.

Name: Sridhar Viamajala, Assistant Professor

Department: Chemical/Enviro Engr.

Name: Sasidhar Varanasi, Professor

Department: Chemical and Environmental Engineering

Country/Region

USA