Abstract: The present invention relates to a method and apparatus for intensifying the energy content of an organic material by converting the material into hydrocarbons and the resulting product thereof. A method for converting an organic material into hydrocarbon fuels is disclosed. The method comprising the steps of pressurising said organic material being in a fluid to a pressure above 225 bar, heating said organic material in said fluid to a temperature above 200 C in the presence of a homogeneous catalyst comprising a compound of at least one element of group IA of the periodic table of elements. The disclosed method further comprises the steps of contacting said organic material in said fluid with a heterogeneous catalyst comprising a compound of at least one element of group IVB of the periodic table and/or alpha-alumina assuring that said fluid has initially a pH value of above 7.

Abstract: An integrated process has been developed for producing diesel boiling range fuel from renewable feedstocks such as plant and animal fats and oils and using a byproduct naphtha as a denaturant for ethanol. The process involves treating a renewable feedstock by hydrogenating and deoxygenating i.e. decarboxylating, decarbonylating, and/or hydrodeoxygenating to provide a hydrocarbon fraction useful as a diesel fuel or diesel boiling range fuel blending component. If desired, the hydrocarbon fraction can be isomerized to improve cold flow properties. A byproduct naphtha stream from the diesel boiling range fuel production process is used as the denaturant in an alcohol denaturing process for the generation of denaturized ethanol.

Abstract: Methods for the production of an intergeneric hybrid plants and plants produced thereby. In certain aspects, intergeneric hybrid plants are produced by crossing a sorghum parent plant comprising a mutant sorghum iap allele with a second moncot plant. Methods for the use of such plants and products obtained therefrom are also provided.

Abstract: An iron-containing polymer is provided for use as a fuel additive for promoting trap regeneration. The polymer shows a beneficial balance of physical properties, and is prepared from iron salts by a polymerisation process involving base addition, and subsequent coordination of branched-chain polycarboxylate ligands. The polymer can be stored in highly concentrate form, and shows particular suitability for on board dosing systems.

Abstract: A process is described for production of Bio-Oil by delayed coking with modified feedstock, in which the feed of the conventional coke unit envisages, in addition to the usual fresh feed of hydrocarbon (vacuum residue, atmospheric residue etc.), the feeding of a biomass for coprocessing. Said biomass can be selected from the group comprising sugar cane straw, sugar cane bagasse, castor seed cake, coconut shells, rice husks, raw soya, castor seed, canola, oil palm, and cottonseed oils, and oils and fats of animal origin, which can be used separately, or as mixtures thereof in any proportions.

Abstract: A biofuel containing an estolide ester, an ether ester, or a combination thereof. The estolide ester and ether ester can be of formula A: R1—CH(O—X)R2CO2R3 wherein R1 is an alkyl group having from 1 to 36 carbons, X is an alkyl group having from 1 to 10 carbons and preferably 1, 2, or 3 carbons or is an acyl group of formula COR5 where R5 is an alkyl group having 1 to 10 carbons and preferably 1, 2, or 3 carbons, R2 is an alkylene group or alkenylene group having from 1 to 36 carbons, and R3 is alkyl having 1 to 10 carbons and preferably 1, 2, or 3 carbons.

Abstract: The present invention is a hybrid diesel fuel and method of manufacture. The fuel composes a petroleum diesel fuel mixed into a biosynthetic waste or virgin oil and further containing a stabilizer. The hybrid fuel consists essentially of about 10% to 50% of Diesel Number 1, Diesel Number 2, or Farm Diesel petroleum fuels, and up to 90% filtered and polished biosynthetic oil, measured by volume. The biosynthetic oil can contain all levels of common commercial vegetable and animal fats in any ratio. The hybrid fuel also contains up to about 0.17% stabilizer, which further contains cetane boosters, cleaning agents to remove deposits from the fuel system, a lubricant, demulsifiers, and anti-gelling agents. The invention functions as biocide to inhibit bacterial growth. The invention is substantially equivalent to Diesel Number 2 in terms of power and engine speed, but is cleaner burning and considerably less costly.

Abstract: The present invention relates to the use of a naturally occurring group of biological compounds to produce a combustible fuel that may be used in either internal combustion engines or as a burnable heat source. These compounds are a set of biomolecules produced by some bacteria in nutrient limiting environmental conditions when storage of carbon is necessary. More specifically this invention envisions the use of polyhydroxy alkanoates (PHA), especially those ranging in size from C4 to C8, to produce the combustible fuel.

Abstract: Continuously produced algae is seeded into the waste streams by the use of 4 or more photo bio-reactors. The algae so produced manufacture oils and fats inside their cells from nutrients in the waste and the process of photosynthesis. Their growth is enhanced by the use of screens, both fixed and movable. These algae adhere to the screens or to the long chain algae attached there to. Algae removed from the raceway bio-reactor are killed by repeated application of heavy rollers over leveled out extracted algae cells. The dead algae are covered with recycled process waste water which goes to one of more oil/water separators and then to storage tanks that contain bio-diesel oil fraction, to waste water tanks and to storage bins for solid waste dead cell material removed.

Abstract: Methods for recovery of concentrates of lubricating compounds and biologically active compounds from vegetable and animal oils, fats and greases that allow separation of triglycerides, from components with higher lubricity or biological activity or enrichment protocols that increase the concentration of high lubricity or biologically active compounds in the triglyceride. The triglycerides are transesterified with a lower alcohol to produce alkyl esters. Following the conversion process the esters are separated from high molecular weight high lubricity compounds and biologically active compounds by distillation. The esters have some lubricity and may be sold as pollution reducing fuel components.

Abstract: Procedure to generate biodiesel fuels with improved properties at low temperature by the transesterification of triglycerides with alcohols such as methanol or ethanol, optionally in the presence of methyl or ethyl acetates of fatty acids and an inert solvent, to produce methyl or ethyl esters of fatty acids, glycerine and, where appropriate, glycerine triacetate, followed by the separation of crude glycerine that is reacted with aldehydes, ketones and/or acetic acid or methyl or ethyl acetates to produce acetals, glycerine cetals and/or glycerine acetates. The acetals, glycerine cetals and/or glycerine acetates are mixed with methyl or ethyl esters of fatty acids in concentrations of approximately 0.5-20% by weight to obtain a biodiesel with improved properties at low temperatures.

Abstract: This invention relates to a method for refining vegetable oils, in particular cottonseed oil or a possible mixture of it with others, as substitute of diesel fuel remarkable in that a sequence of treatment steps to be performed on crude vegetable oil, including: a) a pre-treatment thereof consisting of the removal of oil insoluble impurities from the crude oil, b) removal of oil soluble impurities therefrom, c) a free acid neutralization thereof, and d) a drying, bleaching and filtration thereof. This invention also relates to an Additive of organic basis, containing ether, ketone, toluene, hexane, turpentine, alcohols in specific concentrations.

Abstract: A method of purifying a biodiesel fuel by contacting the biodiesel fuel with at least one adsorbent material, such as magnesium silicate. Such method removes impurities, such as soap, formed during the production of biodiesel fuels.

Abstract: A process is described for producing hydrocarbon fractions which can be used as diesel fuel or as components of diesel fuel, starting from a mixture of a biological origin containing esters of fatty acids possibly with amounts of free fatty acids, which comprises the following steps: 1) hydrodeoxygenation of the mixture of a biological origin; 2) hydroisomerization of the mixture resulting from step (1), after possible purification treatment, said hydroisomerization being effected in the presence of a catalytic system which comprises: a) a carrier of acid nature comprising a completely amorphous micro-mesoporous silico-alumina having a SiO2/Al2O3 molar ratio ranging from 30 to 500, a surface area greater than 500 m2/g, a pore volume ranging from 0.3 to 1.3 ml/g, an average pore diameter lower than 40 ?, b) a metallic component containing one or more metals of group VIII, possibly mixed with one or more metals of group VIB.

Abstract: This invention shows how to make and use a biodiesel-based fuel in diesel engines without incurring the NOx penalty. Embodiments primarily relate to an optimum range of bulk modulus of compressibility for biodiesel blends, which results in generating “NOx neutral” biodiesel blends or to formulate biodiesel blends with lower NOx emissions than conventional petroleum diesel fuel. These biodiesel blends preferably comprise synthetic paraffinic middle distillate derived from a hydrocarbon synthesis to generate synthetic environmentally-friendly diesel fuels.

Abstract: Water may be removed from a biofuel or biofuel intermediate by using a demulsifier. The demulsifier includes the product of oxyalkylating a resin prepared from a formulation including a phenol and a compound selected from the group consisting of an aldehyde, a diamine a polyamine and mixtures thereof. The demulsifier may also be used with admixtures of biofuels, biofuel intermediates, or biofuel feedstocks with conventional hydrocarbons.

Abstract: A process has been developed for producing a diesel boiling point range product and an aviation boiling point range product from renewable feedstocks such as plant and animal oils. The process involves treating a renewable feedstock by hydrogenating and deoxygenating to provide a hydrocarbon fraction which is then isomerized and selectively cracked to form the diesel boiling point range product and the aviation boiling point range product. A portion of the diesel boiling point range product, aviation boiling point range product, naphtha product, LPG, or any combination thereof can be optionally used as a rectification agent in the selective hot high pressure hydrogen stripper to decrease the amount of product carried in the stripper overhead.

Abstract: A natural-oil byproduct, which can be produced as a “still bottoms” byproduct of a distillation of a feed composition including an animal fat and/or vegetable oil, is used as an energy source. The natural-oil byproduct can comprise unhydrolyzed fat/oil and free fatty acids; and its emissions upon burning have substantially reduced pollutant concentrations relative to other fuels. When used as an energy source, the natural-oil byproduct can be burned alone or in combination with a traditional fuel, such as number 2 or number 6 oil or coal.

Abstract: This invention relates to the field of sugar beet bolting and flowering control, specifically methods and transgenic sugar beet plants for suppressing the vernalization response. In particular, the present invention includes sugar beet plants and methods for modulating sugar beet vernalization by over expression of an FLC gene or by suppressing AGL20 gene expression.

Abstract: The present invention relates to processes for production of Very Long Chain Polyunsaturated Fatty Acids (VLC-PUFAs). The present invention also relates to compositions (e.g., nutritional supplements and food products) containing such VLC-PUFAs. In one embodiment, the present invention is directed to methods for biosynthesis and production of the VLC-PUFAs described herein (particularly C28-C38 PUFAs, also referred to herein as supraenes or supraenoics) by the expression, in a production host cell, of the full or partial sequence(s) of Elovl4 DNA/mRNA nucleic acids or ELOVL4 protein sequences encoded thereby, from any species (prokaryotic or eukaryotic) for use in the biosynthesis, production, purification and utilization of VLC-PUFAs in particular by the elongation of C18-C26 saturated fatty acids and PUFAs.

Abstract: A method of producing fuel by converting an alcohol stream comprising at least one alcohol into synthesis gas; providing a first synthesis gas stream, wherein at least a portion of the first synthesis gas stream comprises synthesis gas obtained from the alcohol conversion; converting a feed comprising synthesis gas via Fischer-Tropsch into a Fischer-Tropsch product comprising hydrocarbons, wherein at least a portion of the feed comprises synthesis gas from the first synthesis gas stream; and converting at least a portion of the Fischer-Tropsch product into fuel. A diesel fuel comprising hydrocarbons formed by Fischer-Tropsch conversion of synthesis gas derived from an alcohol stream comprising at least one alcohol.

Abstract: Fuel additives are disclosed for high-asphaltene carbonaceous fuels such as residual fuel oil or coal. Such additives provide improved combustion characteristics. Such improved combustion characteristics include one or both of improved efficiency and decreased emissions of pollutants. In particular, the fuel additives include an extract from a plant such as fescue, alfeque, or alfalfa, and optionally, an organometallic compound. The use of a fuel additive including both a plant extract and an organometallic compound is particularly useful in improving the combustion characteristics of fuels with particularly high asphaltene content.

Abstract: Fuels used may be derived from existing waste streams such as animal wastes and streams of discarded or unwanted animal byproducts generated at animal slaughterhouses. A method of processing organic waste products into fuel includes homogenizing the waste products. The waste products are heated and pressurized. Water is removed from the waste products. Selected constituent of the waste products are separated from the waste products into a waste stream. The waste stream is blended with a fuel to form a bio-fuel mixture.

Abstract: The present invention is generally directed to methods and systems for producing biofuels via biomass, waste plastic, and/or Fischer-Tropsch product feeds. Such methods and systems are an improvement over the existing art at least in that they are feed-tolerant (i.e. allow for variability) and provide an economy of scale, while typically retaining the environmental benefits associated with such processing of such feeds.

Abstract: The present invention is a process and apparatus for forming various bio-products from cellulosic plant material. The plant material is subjected to a pulping step in which lignin is extracted from the material by an aqueous lignin solvent to form a lignin-solvent mixture and purified cellulose. The lignin-solvent mixture can be separated from the water to form a high energy density fuel that can be used independently or combined with biodiesel. The purified cellulose can be used in conventional processes, e.g., paper making, or can be converted to fermentable sugars with a cellulase enzyme to produce other bio-products depending on the operating conditions of the fermenter. The bio-products produced by the fermenter can include the solvent that may be recycled for use in extracting the lignin.

Abstract: Methods, enzymes, recombinant microorganism, and microbial systems are provided for converting polysaccharides, such as those derived from biomass, into suitable monosaccharides or oligosaccharides, as well as for converting suitable monosaccharides or oligosaccharides into commodity chemicals, such as biofuels. Commodity chemicals produced by the methods described herein are also provided. Commodity chemical enriched, refinery-produced petroleum products are also provided, as well as methods for producing the same.

Abstract: A method for producing a bio-fuel may include selecting a first and a second plant species such that the second plant species, when grown together in competition with the first plant species, causes a BTU value of the first plant species to increase above a range of BTU values that the first plant species has when grown alone. The method may further include planting a combination of the first and second plant species together in competition, harvesting the combination of the first and second plant species when sufficiently mature, and processing the harvested combination of the first and second plant species to produce the bio-fuel.

Abstract: In a preferred embodiment the present invention is a method for oil and byproduct extraction and distribution, and more specifically oil extraction from seed to produce biological fuel for distribution and seed oil extract byproduct processed into food, for distribution using said biological fuel.

Abstract: Processes of converting to feedstocks comprising hydrocarbons to compositions comprising light hydrocarbon products are described herein. Also described are processes and methods of producing and refining compositions comprising terpenes from biomass that can be suitable as a fuel product.

Abstract: A method for the production of biofuels from the open ocean comprises the steps: testing the currents to determine that a biomass remains in a zone suitable for harvesting; harvesting a portion of the biomass; and processing a portion of the harvested biomass to produce useful components of biofuels. An improved method of production of a biofuel comprises the additional steps of testing the ocean surface waters to determine any nutrients that are missing, and applying a fertilizer with any missing nutrients. The currents should be such that the biomass created stays in the ocean waters suitable for harvest rather than washed up on shores, or dispersed to other areas of the ocean. Suitable currents include ocean gyres such as the Sargasso Sea. Suitable biomass includes seaweeds that float in the open ocean and aggregate together in floating patches, such as the Sargassum weed in the Sargasso Sea.

Abstract: The essential oils of Eupatorium capillifolium (Dogfennel) and Eupatorium compositifolium (Yankeeweed) may be isolated in unexpectedly high yield by steam distillation of the whole or leafy parts of the plants. Such oils may be used as motor fuels in gasoline and diesel engines in unrefined and refined form. Eupatorium oil is amenable to separation into lower boiling and higher boiling fractions better suited to gasoline and diesel fuel use, respectively. It is also amenable to refining by hydrogenation, dehydrogenation, reforming, cracking and alkylation of the whole oil or isolated components thereof.

Abstract: Aqueous sulfuric acid is used for hydrolysis of a biomass, constituting a hydrolysate, to produce organic compounds. Organic compounds such as furfural and hyroxymethylfurfural are formed within the hydrolysate. Heterocyclic ring opening within hyroxymethylfurfural forms levulinic acid within the hydrolysate. Furfural and levulinic acid are extracted by a biodiesel fuel oil to increase content of biodiesel fuel oil. Biodiesel fuel oil generally consists of vegetable oils, insoluble in aqueous sulfuric acid, and affords access to, extraction of furfural and levulinic acid. Extracted hydrolysate is recycled for further hydrolysis of biomass.

Abstract: Disclosed is a hydrothermal treatment process for conversion of a carbon-based energy carrier material. The process comprises a step for sensitizing or activating the carbon based energy carrier material to increase its susceptibility to hydrothermal conversion. As a result of the sensitization step, the hydrothermal conversion step itself may be carried out under relatively mild conditions. The process comprises the steps of sensitizing the carbon-based energy carrier material to increase its susceptibility to hydrothermal conversion; and subjecting the sensitized carbon-based energy carrier material to hydrothermal conversion at a temperature of less than 300 degrees centigrade in a hydrothermal treatment reactor.

Abstract: There are provided bioproducts and methods of improving production of the bioproducts from engineered microbial cells, the methods comprising: providing a fermentation broth comprising a crude carbon source; inoculating said fermentation broth with said microbial cells; and incubating the inoculated fermentation broth; wherein said bioproduct is a hydrophobic solvent immiscible with said fermentation broth, and wherein a toxic side product present in said crude carbon source is soluble in said hydrophobic solvent. Also, provided are kits for practicing the methods of improving production of bioproducts.

Abstract: A process has been developed for producing diesel boiling range fuel or fuel blending component from renewable feedstocks such as plant oils and greases. The process involves treating a renewable feedstock by hydrogenating and deoxygenating i.e. decarboxylating and/or hydrodeoxygenating to provide a hydrocarbon fraction useful as a diesel fuel. The hydrocarbon fraction is isomerized to improve cold flow properties. At least one interstage stream of the hydrogenating and deoxygenating reaction zone is heat exchanged with the feed to the isomerization reaction zone, and/or the effluent of the hydrogenating and deoxygenating reaction zone is heat exchanged with the feed to the isomerization reaction zone.

Abstract: A process for production of biofuels from algae can include cultivating an oil-producing algae, extracting the algal oil, and converting the algal oil to form biodiesel. Extracting the algal oil from the oil-producing algae can include biologically rupturing cell wall and oil vesicles of the oil-producing algae using at least one enzyme such as a cellulose or glycoproteinase, a structured enzyme system such as a cellulosome, a virus, or combination of these materials.

Abstract: An integrated process has been developed for producing diesel boiling range fuel from renewable feedstocks such as plant and animal fats and oils and for cultivating algae or greenhouse plants. The process involves catalytically treating a renewable feedstock by hydrogenating and deoxygenating to provide a hydrocarbon fraction useful as a diesel boiling range fuel. A selective separation may be used to remove at least the carbon dioxide from the first zone effluent.

Abstract: Methods of producing lubricity additives and lubricity additives are disclosed. The methods of producing lubricity additives include removing sulfur from a tall oil fatty acid to a level of about 25 ppm or less and fractionally crystallizing the tall oil fatty acid to produce a lubricity additive which does not form crystals at temperatures as low as about ?20° F. The sulfur may be removed prior to or after fractionally crystallizing the tall oil fatty acid. Methods of improving the lubricity of a fuel are also disclosed.

Abstract: The present invention relates to a method and apparatus for intensifying the energy content of an organic material by converting the material into hydrocarbons and the resulting product thereof. A method for converting an organic material into hydrocarbon fuels is disclosed. The method comprising the steps of pressurising said organic material being in a fluid to a pressure above 225 bar, heating said organic material in said fluid to a temperature above 200 C in the presence of a homogeneous catalyst comprising a compound of at least one element of group IA of the periodic table of elements. The disclosed method further comprises the steps of contacting said organic material in said fluid with a heterogeneous catalyst comprising a compound of at least one element of group IVB of the periodic table and/or alpha-alumina assuring that said fluid has initially a pH value of above 7.

Abstract: The invention relates to a method for producing fuel from biogenous raw materials, to an installation for carrying out said method, to catalyst compositions suitable for said method, and to the use of catalysts for producing fuel from biogenous raw materials.

Abstract: Methods for converting waste litter into a product slate by pyrolysis are described. Waste litter is entrained in a non-reactive gas and delivered to a fluid reactor bed maintained at a temperature sufficient to cause pyrolysis of the poultry litter. The reactor bed consists of a fluidizing medium, such as sand, which is fluidized by the non-reactive gas. Upon pyrolysis of the poultry litter, products such producer gas, biooil, and char are formed.

Abstract: Fuel additive packages and fuel compositions having environmentally compatible characteristics as defined by European Council Directive 67/548/EEC is disclosed. Such additive packages and compositions may include components selected from non-persistent materials, non-bioaccumulative materials, or non-toxic materials.

Abstract: Disclosed here are integrated methods and systems for producing fuel from biomass. The methods and systems pertain to gasifying a feed derived from biomass fermentate separation residue, such as corn-based distiller's grains, and producing a liquid transportation fuel component, such as aviation turbine fuel, from the gasified feed in a hydrocarbon synthesis reactor. At least a portion of the waste heat from the hydrocarbon synthesis reactor is supplied to a thermal process for liquefying, fermenting or distilling a biomass, or to a thermal process for separating or treating a biomass fermentate separation residue.

Abstract: Method and device for producing fuel from molded biomass in which the biomass used is dried biological wastes or fermentation products resulting from wet and/or dry fermentation, and/or silage products, and/or other dry or moist biological wastes.

Abstract: A method for the production of biofuels from the open ocean comprises the steps: testing the currents to determine that a biomass remains in a zone suitable for harvesting; harvesting a portion of the biomass; and processing a portion of the harvested biomass to produce useful components of biofuels. An improved method of production of a biofuel comprises the additional steps of testing the ocean surface waters to determine any nutrients that are missing, and applying a fertilizer with any missing nutrients. The currents should be such that the biomass created stays in the ocean waters suitable for harvest rather than washed up on shores, or dispersed to other areas of the ocean. Suitable currents include ocean gyres such as the Sargasso Sea. Suitable biomass includes seaweeds that float in the open ocean and aggregate together in floating patches, such as the Sargassum weed in the Sargasso Sea.

Abstract: The present invention provides a fuel additive composition for stabilizing blends of ethanol and a hydrocarbon boiling in the gasoline or diesel range, comprising: a) 0.1-10% of Cashew Nut Shell Liquid (CNSL) derivative(s) or mixtures thereof of formula (I) where m=0-12, n=0, 2, 4 & 6 and b) 0.1-10% of an organic co-solvent depending upon the percentage composition of diesel and ethanol blend.

Abstract: The present invention relates to improved production methods and production equipment for fluid fuels including but not limited to ethanol, gasoline, hydrogen, naphtha (for olefin manufacture) and/or diesel but most particularly, “designed” synthetic diesel fuels for use in corresponding diesel engines. Apparatus and methods for producing the fluid fuels are described.

Abstract: The present invention comprises a thermocatalytic cracking process for the production of diesel oil from a charge of vegetable origin made from seeds of oleaginous plants in refineries possessing at least two FCC reactors. At least -one of such reactors processes heavy gas oil or residue under conventional conditions whilst at least one of such reactors processes the charge of vegetable origin made from seeds of oleaginous plants under conditions suitable, for production of diesel oil. Said process employs the same catalyst utilised in the fluid catalytic cracking process which, simultaneously, processes a conventional charge. The diesel, or biodiesel, oil produced by means of said process is of superior quality having a cetane number exceeding 40 given that the cracking reactions occur at low temperatures and the products obtained are less oxidised and consequently purer than products obtained by means of existing technology.

Abstract: A method for producing biofuel using an electron beam is disclosed. The method for producing biofuel includes: irradiating an electron beam to the vegetable polymer to decompose and sterilize the vegetable polymer, thereby promoting conversion of the vegetable polymer to biomass compared to the traditional methods.

Abstract: A system and method for producing synthetic fuels are disclosed in which a slurry comprised of a particulate solid portion and a carrier liquid portion is provided. The solid portion comprises (i) a feedstock of carbon-containing polymeric materials that are substantially free of each of halogen, sulfur and nitrogen atoms, and contain about 5 to about 25 percent by weight water, and (ii) a catalytic amount of metal particles. The carrier liquid portion is a hydrocarbon/oxyhydrocarbon composition. The feedstock constitutes about 10 to about 60 weight percent of the slurry. The slurry is heated anaerobically to provide an elevated temperature of about 250° to about 455° C. and a pressure of about 20 to about 50 atmospheres that are maintained for a time period sufficient to provide a combustible liquid fuel at least 80 percent of which contains about 6 to about 21 carbon atoms per molecule.