Abstract: A diesel fuel substitute composition includes an alcohol, an acetal, and an additive comprising a component selected from the group consisting of C3-8 dialkyl ethers, alkylated phenols, R—NO2, and combinations thereof. A method for forming the diesel fuel substitute is also provided.

Abstract: An ethanol/castor oil treatment system for preparing an ethanol/castor oil based fuel for use as a fuel of an internal combustion engine includes an ethanol tank, an ethanol pump fluidly connected to the ethanol tank and having an ethanol output, a castor oil tank, a castor oil pump fluidly connected to the castor oil tank and having a castor oil output, and a blended fuel line having an inlet end fluidly connected to the ethanol output and the castor oil output. The ethanol pump and the castor oil pump are at least one of mass controlled and volume controlled pumps such that ethanol and castor oil are pumped to the blended fuel line in at least one of an adjustable mass ratio and volume ratio.

Abstract: A system and method are disclosed for processing grease trap waste to produce brown grease oil. Heat to promote waste grease stratification is provided by combustion of brown grease itself. A portion of the brown grease, which would normally be transported to an end user, is retained in a separate holding vessel at the grease processing site. The brown grease within the holding vessel is thermally conditioned to adjust viscosity so that it may be drawn through one or more pumps to increase pressure for atomization in a boiler. The heat of the brown grease combustion is applied to grease trap waste in the containment vessel by heating tubes immersed in the grease trap waste in which a heat transfer medium circulates and gives up its heat to the grease trap waste to thereby promote stratification of the grease trap waste and production of the brown grease oil.

Abstract: Methods and systems for processing crude oil may include adding water to crude oil, for example, in a desalter, to produce hydrocarbon and brine and a rag layer emulsion, which may include hydrocarbon and brine and solids. The emulsion may be modified, including adding one or more of additional hydrocarbon and, a demulsifier, a reverse demulsifier, a coagulant, and a flocculant, for example, in a mixer. The modified emulsion may be directed through a dead-end filter assembly to remove solids.

Abstract: There is provided an apparatus for manufacturing a reformed fuel. The apparatus for manufacturing a reformed fuel includes a water tank unit configured to supply water which is aerated and, then, to which an ultrasonic wave or an electric field is applied; an oil tank configured to supply oil pre-treated by a first catalyst; a mixing tank connected to the water tank unit and the oil tank, and configured to generate mixture oil by mixing the water introduced from the water tank unit and the oil introduced from the oil tank; and a combination chamber unit connected to the mixing tank, and configured to generate a reformed fuel by supplying a second catalyst to the mixture oil introduced from the mixing tank.

Abstract: The present invention provides a molecular rupture and recombination of fuels with additives or fuel enhancers such as, but not limited to, non-hydrocarbon and/or hydrocarbon substances such as but not limited to, water, methanol, ethanol, naphtha, and other lighter fluids, through the use of a hydrodynamic cavitation apparatus or reactor to cause the molecular rupture, coupled to a high pressure system where the recombination of the molecules (fuel and additives) stably occur.

Abstract: In an embodiment of the present invention, a renewable energy fuel is prepared by a process including the steps of: a) providing a renewable energy feedstock; b) providing an alcohol; c) providing a catalyst; d) mixing (a), (b), and (c) to form a blend; and e) homogenizing the blend at a pressure greater than 400 kilogram-force per square centimeter (Kg/cm2).

Abstract: Methods, apparatus, and/or feedstock suitable for use in biofuels production, as well as biofuel compositions. A method of producing a biofuel includes hydroprocessing glycerides derived from an oleaginous microorganism and composed of at least 10% by weight of fatty acid chains of length C16 or lower, and producing a biofuel having a cold-flow pour point of about 20° Celsius or lower.

Abstract: The invention relates to a hopper of an injection molding machine, which comprises a combined hopper, an electric heating air-blasting system and a temperature control system, wherein the combined hopper comprises two or more than two sub-hoppers; each sub-hopper is provided with an independent sub-feed inlet, an independent sub-discharge outlet and a branch air-blasting port capable of being controlled independently; all the sub-discharge outlets of the sub-hoppers are communicated with a thermostatic chamber arranged below the sub-discharge outlets; a main discharge outlet and a main air supply port are arranged at the lower part of the thermostatic chamber; and the thermostatic chamber and each sub-hopper are provided with independent temperature control systems respectively.

Abstract: Apparatus and process for removing and/or converting contaminants in water-miscible organic solvent mixtures by surface interaction effects to forms less objectionable with lesser metabolic impacts for humans. The process both changes distillation entrapped contaminant compounds in-situ and effects removal of the compounds and their reaction products. In what follows, water-miscible-organic-solvent and water mixtures can be substituted for alcohols. The alcohol to be treated is placed in a ventilated vessel leaving room for head space. Contaminant free air or a specific organic-contaminant-free gas is injected into or otherwise placed in contact with the alcohol. A vacuum is pulled within the vessel, which draws the gas through the alcohol into the head space creating gas bubbles. Energy within a specified range of frequencies is imparted to the fluid causing cavitation and reaction.

Abstract: Disclosed are methods and systems for reforming fuels by subjecting them to ultrasonic energy. Such methods and systems can be conducted and carried on-board vehicles powered by combustion engines to enhance fuel efficiency and/or modify exhaust emissions.

Abstract: An emulsification method for converting deasphalted oil and/or asphaltenes into more suitable products for market demands and utilization in self sufficient energy production treatments plants is disclosed. Asphaltenes and residues from sonication of heavy oil feedstocks, as well as de-asphalted oil, may be used in combination with water and other chemical additives for conversion into a suitable fuel which may be stored, handled, and transported.

Abstract: A method of manufacturing a reforming fuel by adding water to a fuel oil and a manufacturing apparatus is provided, the method and the apparatus comprising of preprocessing water in a water tank, aerating the water simultaneously in the water tank using the air previously processed by passing through ceramic catalyst, passing the water to an ultrasonic and electric field chamber, preprocessing fuel oil in a fuel oil tank with the catalyst, mixing the pre-processed water and fuel oil in a mixing chamber to produce a reforming fuel oil and passing the reforming fuel oil through one or a plurality of combination chambers.

Abstract: A system for preparing a coal water slurry, comprising: a first unit for providing a stream of coarse coal water slurry; a second unit for providing a stream of fine coal water slurry; a concentration unit for receiving a portion of at least one of the stream of coarse coal water slurry and the stream of fine coal water slurry, and, providing a concentrated stream having a higher coal concentration than the portion of at least one of the stream of coarse coal water slurry and the stream of fine coal water slurry; and a mixing unit for mixing the concentrated stream and the remaining portions of the stream of coarse coal water slurry and the stream of fine coal water slurry. An associated method is also presented.

Abstract: A power generation system, which includes a source of a seed oil, a source of alcohol, and a reactor in communication with the source of seed oil and the source of alcohol. The reactor produces a biofuel product. The system has a power source that operates on a biofuel energy source to produce heated exhaust and is in communication with the reactor to utilize a portion of the biofuel product as its biofuel energy source. The system has a heat transfer mechanism that transfers heat from the exhaust manifold to the reactor. The power source also converts mechanical power into electrical power. Also disclosed is a system that involves extraction of oil from an oilseed product. A method of extracting oil from an oilseed product, a method of making a transesterified seed oil, and a method of making a biofuel are also disclosed, as are products obtained thereby.

Abstract: The present invention concerns a method for lowering the water dew point subsea in a produced multiphase hydrocarbon fluid stream containing water, the method comprising the steps of: separating (10) the hydrocarbon fluid stream (1) into a liquid phase (3) and a first gas phase (2); cooling (20) the first gas phase in a controlled manner to knock out water or condensing water and optionally other condensates while keeping the fluid above a hydrate formation temperature thereof; separating off condensed liquids (6) and a second gas phase; wherein the second gas phase (8) has a water dew point which is lower than that of the initial multiphase hydrocarbon fluid stream. The invention also concerns a system for lowering the water dew point subsea.

Abstract: A system for preparing a coal water slurry, comprising: a first unit for providing a stream of coarse coal water slurry; a second unit for providing a stream of ultrafine coal water slurry; a third unit for providing a stream of dry coarse coal particles; and a mixing unit for mixing the stream of coarse coal water slurry, the stream of ultrafine coal water slurry and the stream of dry coarse coal particles. An associated method is also presented.

Abstract: A method and apparatus for dispersing an additive from an additive cartridge disposed in a housing of an oil filter is provided. The method including the steps of: using stagnation pressure to disperse the additive from the additive cartridge; and regulating a flow rate of the additive from the additive cartridge by restricting an inlet opening of an outlet path of the additive cartridge, wherein a portion of the outlet path is formed in a surface of a first piece of a two piece connector providing fluid communication between and an interior and an exterior of the additive cartridge.

Abstract: A bio-oil production process involving torrefaction pretreatment, catalytic esterification, pyrolysis, and secondary catalytic processing significantly reduces yields of reactor char, catalyst coke, and catalyst tar relative to the best-case conditions using non-torrefied feedstock. The reduction in coke as a result of torrefaction was 28.5% relative to the respective control for slow pyrolysis bio-oil upgrading. In fast pyrolysis bio-oil processing, the greatest reduction in coke was 34.9%. Torrefaction at 275° C. reduced levels of acid products including acetic acid and formic acid in the bio-oil, which reduced catalyst coking and increased catalyst effectiveness and aromatic hydrocarbon yields in the upgraded oils. The process of bio-oil generation further comprises a catalytic esterification of acids and aldehydes to generate such as ethyl levulinate from lignified biomass feedstock.

Abstract: A system and method for converting feedstock material into crude oil, lighter fuels such as diesel fuel, and uncondensed vapors such as natural gas. The material to be converted is properly sized and heated prior to be provided to a reactor. The heated feedstock is metered into the reactor where it is vaporized at a uniform temperature in an oxygen free environment. The reactor breaks down the carbon chains of the feedstock into strands of molecules containing less than 24 atoms per molecule. Any vaporized gas exits the reactor and enters a two-stage fractional distillation column which recovers the converted fuel.

Abstract: A process and system for separating and upgrading bio-oil into renewable fuels is provided. The process comprises separating bio-oil into a light fraction and heavy fraction based on their boiling points. The heavy fraction is then subjected to hydrotreatment, while the light fraction is not subjected to hydrotreatment. At least a portion of the un-hydrotreated light fraction and at least a portion of the hydrotreated heavy fraction are blended with petroleum-derived gasoline to thereby provide a renewable gasoline, and at least a portion of the hydrotreated heavy fraction is blended with petroleum-derived diesel to thereby provide a renewable diesel.

Abstract: Multiple catalytic processing stations enable a method for producing volatile gas streams from biomass decomposition at discrete increasing temperatures. These catalytic processing stations can be programmed to maximize conversion of biomass to useful renewable fuel components based on input feedstock and desired outputs.

Abstract: A method of upgrading coal is disclosed, the method comprising: subjecting the coal to a hydrothermal dewatering process at a temperature and a pressure above ambient conditions to produce dewatered coal; removing ash tailings from the dewatered coal to produced reduced ash dewatered coal; and producing a coal water slurry with the reduced ash dewatered coal. An apparatus for upgrading coal is also disclosed, the apparatus comprising: a hydrothermal dewatering reactor connected to receive coal and output dewatered coal; an ash separator connected to receive dewatered coal from the hydrothermal dewatering reactor and output reduced ash dewatered coal; a slurrifier connected to receive reduced ash dewatered coal from the ash separator and output a coal water slurry.

Abstract: A water-in-fuel emulsion system comprises a reactor device, a fuel intake connected to said reactor device, a water intake connected to said reactor device, a pump connected to said reactor device, and a circulating emulsion reprocessing inline loop connected to said pump and feeding a load as needed in real time, wherein said reactor device comprises a non-vibrating anvil shaped to create cavitation sufficient to emulsify water-in-fuel from said water intake and said fuel intake.

Abstract: The present invention relates to an integrated method and system to produce biodiesel from a plurality of assorted feed stocks. The feedstocks are pretreated with degumming, physical refining and glycerolysis. The degumming removes impurities, except free fatty acid (FFA), from the recovered vegetable oil and the animal fats. The physical refining removes the free fatty acid (FFA) by heating the recovered vegetable oil and the animal fats and pulling vacuum to allow separation of boiling points between the oil of the feedstocks and the free fatty acids (FFA). The glycerolysis converts the free fatty acid (FFA) from the physical refining into a single methyl ester (SME). The single methyl ester (SME) is combined with the refined natural oil and unrefined natural oil to form a combined oil feedstock. The combined oil feedstock is subject to transesterification by reacting the combined feedstock oil with a catalyst and a solvent to produce biodiesel and glycerin.

Abstract: A fuel system (10) comprising a fluid blender (14) in fluid communication with a source of a first fuel composition and a source of a second fuel composition via at least one inlet (32, 34). The blender (14) is operable to receive at least the first fuel composition and/or second fuel composition via the at least one inlet (32, 34), and output a resultant fuel composition comprising the received fuel compositions via at least one outlet (36). The at least one outlet (36) is in fluid communication with an engine fuel injection device (38).

Abstract: The present invention provides a fuel composition comprising: (a) a fuel; (b) polyglycerol polyricinoleic acid (c) a monoglyceride of a fatty acid.

Abstract: A mixed fuel generation method comprises a step of mixing a fuel oil and at least one additional fluid other than the fuel oil, wherein one of the additional fluids is water, and a specific ratio that is a ratio of a volume of the water to a volume of the mixed fuel is 6% or less.

Abstract: Embodiments of the present invention relate to a method and apparatus for mixing additives into a fluid fuel at a predictable concentration. The method comprises: taking a sample of the fuel; mixing the additive into the sample in metered proportions; testing the sample to determine that the correct amount of additive is present; storing the remaining fuel until it is time for the fuel to be used; and mixing the additive into the remainder of the fuel in the same metered proportions.

Abstract: The present invention relates to a process and an apparatus for purifying tall oil material for the production of biofuels and components thereof. The present invention relates further to hydroprocessing of the purified material to obtain biofuels and components thereof.

Abstract: The invention relates to a method for producing a pyrolysis liquid, wherein the pyrolysis liquid is formed by means of pyrolysis from a raw material by forming, in a pyrolysis reactor, a gaseous pyrolysis product by pyrolysis and condensing it in a condenser into a pyrolysis liquid, and feeding circulation gas into the pyrolysis reactor. According to the invention, the circulation gas is conducted by means of a liquid ring compressor into the pyrolysis reactor and purified before being conducted into the pyrolysis reactor, and the pyrolysis liquid is used as the liquid layer in the liquid ring compressor. Further, the invention relates to a corresponding apparatus.

Abstract: The invention relates generally to the field of biofuel synthesis. More specifically, the invention relates to processes for the synthesis of biofuels from organic materials including lignocellulosic biomass and coal. Also provided are biofuel products obtained from processes of the invention.

Abstract: The invention relates to a method for producing fuel from organic waste or biomass in a gasification process comprising the burning of organic waste or biomass and the recovery of the gasification residue. The method comprises at least the following steps: organic aqueous waste or biomass (M; M1) is fed in a combustion chamber (1); oxygen-bearing pressurized regeneration gas (G) is also fed in said combustion chamber (1); a continuous, pressurized combustion process is maintained in the combustion chamber, without adding an external oxygen source or heat in the process, so that the combustion of organic waste or biomass is carried out with the oxygen content of 0.

Abstract: A method comprises providing a bio-based feedstock; contacting the bio-based feedstock with a solvent in a hydrolysis reaction to form an intermediate stream comprising carbohydrates; contacting the intermediate stream with an apr catalyst to form a plurality of oxygenated intermediates, wherein a first portion of the oxygenated intermediates are recycled to form the solvent; and processing at least a second portion of the oxygenated intermediates to form a fuel blend.

Abstract: A portable production system for biodiesel production is contained within a rolling chassis. A reactor connected to the rolling chassis includes a transparent reaction vessel which houses ultrasonic transducers arranged to disperse ultrasonic energy to a biodiesel precursor, to promote a transesterification reaction of vegetable oil and or animal fat. A mechanical stirrer, also disposed within the reaction vessel, stirs the reactants. A heater, likewise disposed within the reaction vessel, has at least one cover shaped to change a flow of reactants within the reactor vessel as they are stirred by the stirrer.

Abstract: A device and method for removing moisture from ethanol blended fuel in a fuel tank comprises a container made of a non-woven nylon fabric, a desiccant, and a gelling agent; wherein the desiccant and gelling agent are inside the container.

Abstract: A pervaporation element includes a ceramic monolith having an array of parallel channels separated by porous channel walls extending along an axial length of the monolith, and a functional membrane coating a first plurality of the porous channel walls along the axial length of the monolith. The functional membrane functions to separate a fluid into a retentate portion and a permeate portion. The porous channel walls coated by the functional membrane define a plurality of discrete through segments, where each of the discrete through segments are separated from one another by a plurality of uncoated porous channel walls. Fluid entering the discrete through segments is separated into a retentate portion that exits in substantial portion through the discrete through segments and a permeate portion that exits the ceramic monolith radially outward through the uncoated porous channel walls and through a skin of the monolith.

Abstract: Methods and apparatuses to depolymerize plastic to create fuel are provided. Plastic feedstock is heated to a molten state. The molten plastic is further heated by electromagnetic induction to a vapor state. The plastic vapor is collected and the temperature of the plastic vapor is lowered to produce liquid fuel. The molten plastic can be heated by electromagnetic induction to a vapor by placing the molten plastic in a plurality of trays and traversing the trays over a plurality of induction coils wherein each of the induction coils produce a magnetic field to heat the trays.

Abstract: The present invention relates to a process for producing mixture of fuel components, which process comprises providing a feed of biological origin; subjecting said feed of biological origin and a hydrogen gas feed to a single step of hydroprocessing in the presence of a catalyst system comprising dewaxing catalyst to form a mixture of fuel components. The present invention relates also to an apparatus for producing a mixture of fuel components from a feed of biological origin. The invention relates also to the use of the fuel components.

Abstract: A water-in-fuel emulsion system comprises a reactor device, a fuel intake connected to said reactor device, a water intake connected to said reactor device, a pump connected to said reactor device, and a circulating emulsion reprocessing inline loop connected to said pump and feeding a load as needed in real time, wherein said reactor device comprises a non-vibrating anvil shaped to create cavitation sufficient to emulsify water-in-fuel from said water intake and said fuel intake.

Abstract: Embodiments of methods and apparatuses for forming a low-metal biomass-derived pyrolysis oil are provided. The method comprises the steps of filtering a biomass-derived pyrolysis oil with a high flux rate filter arrangement having a flux rate of about 10 L/m2/hr or greater to form a low-solids biomass-derived pyrolysis oil. The low-solids biomass-derived pyrolysis oil is filtered with a fine filter arrangement having a pore diameter of about 50 ?m or less to form an ultralow-solids biomass-derived pyrolysis oil. The ultralow-solids biomass-derived pyrolysis oil is contacted with an ion-exchange resin to remove metal ions and form the low-metal biomass-derived pyrolysis oil.

Abstract: An apparatus and a method for producing an emulsion of a fuel and an emulsifiable component are disclosed. The apparatus comprises a first cavitation chamber for receiving a first fluid, the first fluid being a first one of the fuel and the emulsifiable component, and wherein the apparatus is arranged to produce a swirling flow of the first fluid in the first cavitation chamber. The apparatus comprises a second cavitation chamber for receiving a second fluid, the second fluid being a second one of the fuel and the emulsifiable component, where the apparatus is arranged to produce a swirling flow of the second fluid in the second cavitation chamber. The first cavitation chamber further comprises an outlet and the first cavitation chamber, the outlet and the second cavitation chamber are arranged coaxially. The second cavitation chamber is arranged to receive the first fluid from the first cavitation chamber through the outlet.

Abstract: A fuel emulsification system includes a first emulsification device and a second emulsification device. The first emulsification device includes a first outlet end, and a first inlet end in fluid communication with an outlet pipe unit of a tank that receives a mixture of combustible fuel and water. The first emulsification device is configured to emulsify the mixture from the tank into a first emulsion, and to output the first emulsion through the first outlet end. The second emulsification device includes a second outlet end, and a second inlet end in fluid communication with the first outlet end for receiving the first emulsion therefrom. The second emulsification device is configured to emulsify the first emulsion into a second emulsion, and to output the second emulsion through the second outlet end.

Abstract: A method and system for handling viscous liquid crude hydrocarbons is disclosed. The method involves (a) solvent deasphalting at least a portion of an asphaltene-containing liquid crude hydrocarbon feedstock to form an asphaltene fraction and a deasphalted oil (DAO) fraction essentially free of asphaltenes; (b) adjusting the density of the asphaltene fraction to substantially the same density of a carrier for the asphaltene fraction; (c) forming coated asphaltene particles from the asphaltene fraction of step (b); (d) slurrying the coated asphaltene particles with the carrier; and (e) transporting the slurry to a treatment facility or a transportation carrier.

Abstract: A system and method are disclosed for processing grease trap waste to produce brown grease oil. Heat to promote waste grease stratification is provided by combustion of brown grease itself. A portion of the brown grease, which would normally be transported to an end user, is retained in a separate holding vessel at the grease processing site. The brown grease within the holding vessel is thermally conditioned to adjust viscosity so that it may be drawn through one or more pumps to increase pressure for atomization in a boiler. The heat of the brown grease combustion is applied to grease trap waste in the containment vessel by heating tubes immersed in the grease trap waste in which a heat transfer medium circulates and gives up its heat to the grease trap waste to thereby promote stratification of the grease trap waste and production of the brown grease oil.

Abstract: A device for processing liquid fuel capable of substantially reducing noxious materials comprised in exhaust gas emitted from heat engine. Device (10) for processing liquid fuel according to this invention is a device (10) for processing liquid fuel disposed at flow channel (26) for providing liquid fuel to heat engine, comprises a plurality of walls (50a, 50b) for applying magnetism arranged at an appropriate interval on the flow channel (26). As a surface of the walls (50a, 50b) is constituted at the upstream side of flow channel (26) from a south-pole magnet magnetized between 0.2 mT and 1.5 mT, south-pole magnetism can be efficiently applied to the liquid fuel, and combustion efficiency of heat engine of diesel vehicles, gasoline vehicles, LP gas-fueled vehicles, vessels, boilers etc. can be increased and all noxious substances in exhaust gas such as CO2, CO, HC. NOx, PM, etc can be considerably reduced.

Abstract: The present invention discloses a nano-granule fuel oil, which substantially contains no granule greater than 10 nm. This nano-granule fuel oil can be obtained by treating conventional fuel oils under a magnetic field with a air gap magnetic field intensity of at least 8000 Gauss and a magnetic field gradient of at least 1.5 tesla/cm. The nano-granule fuel oil of the present invention significantly improves the combustion degree of fuel oil as compared with the conventional fuel oils. Its application can considerably economize fuel oil and reduce the emissions of CO and the like in tail gas.

Abstract: A method for reducing tar fuel viscosity by steam heating, during slurrification in a rotary slurrifier, is described for creating slurries of many small tar particles suspended in a continuous water phase. This heating is done at pressure to avoid evaporation of the water. The tar in water slurry is evaporatively cooled by subsequent depressurization.

Abstract: A fast pyrolysis system employs a plant for use in the processing of bio-fuels. The plant includes a base frame having a first end and a second end, as well as a first lateral side and a second lateral side. The plant also includes an inlet shaped and dimensioned for the input of carbonaceous feedstock mounted to the base frame adjacent the first end, a reactor chamber mounted to the base frame and coupled to the inlet by a feed mechanism which directs carbonaceous feedstock from the inlet to the reactor chamber, a condenser system positioned and supported along the first lateral side of the base frame by a vertical supporting framework, a char separation and recovery system mounted upon the base frame and coupled to the reactor chamber by an auger for transporting char and heat carrier from the reactor chamber to the char separation and recovery system, and a heat exchanger circulating the heat carrier from the char separation and recovery system back to the reactor chamber.

Abstract: Systems for producing fuel compositions with predetermined desirable properties are disclosed. Feedback control can be employed to meter precise amounts of fuel composition components while monitoring fuel composition properties to obtain fuel compositions having specifically defined properties.