Class / Patent application number | Description | Number of patent applications / Date published |
044280000 | SOLID CARBONACEOUS FUEL DISPERSED IN A LIQUID MEDIUM (E.G., DISPERSED COAL, COKE, CARBON POWDER, PEAT, ETC.) | 38 |
20090165361 | Carbonaceous Fuels and Processes for Making and Using Them - The present invention provides carbonaceous fuels and processes for making them. Moreover, the invention also relates to processes using the carbonaceous fuels in the production of cement products. One embodiment of the invention is a carbonaceous fuel comprising (a) unconverted fines of a carbonaceous feedstock, the carbonaceous feedstock having an ash content of greater than 1%, the fines having an average particle size less than about 45 μm; and (b) a char residue formed by catalytic gasification of the carbonaceous feedstock, the char residue having an ash content of greater than about 30%, wherein the ash includes at least one aluminum-containing compound or silicon-containing compound; and having a weight ratio of fines to char residue in the range of about 4:1 to about 1:4, and a total dry basis wt % of carbon of least about 40%. Another embodiment of the invention is a process of making a cement product comprising: (a) providing a carbonaceous fuel as described above; (b) passing the carbonaceous fuel into a cement-making zone; and (c) at least partially combusting the carbonaceous fuel to provide heat for a cement producing reaction within the cement-making zone. | 07-02-2009 |
20100024282 | NANO-DISPERSIONS OF COAL IN WATER AS THE BASIS OF FUEL RELATED TECHNOLOGIES AND METHODS OF MAKING SAME - Colloidal coal-in-water slurries having nano-particles of coal creating a pseudo-fluid. The colloidal coal-in-water slurry generally includes from about fifty to about seventy two weight percent of coal, with about 20 to about 80 percent of the coal having a particle size of about one micron or less with a mode particle size of about 250 nanometers. The coal-in-water slurry can also include a surfactant system containing one surfactant or mixtures of two or more surfactants, or mixtures of one or more surfactants and an inorganic or organic salt. The coal-in-water slurry can be used in low NOx burner applications as the main fuel and/or the reburn fuel, in gasification processes as the input fuel either alone, or in combination with organic materials, in gas turbine applications, and in diesel engine applications. | 02-04-2010 |
20100257775 | SYSTEM AND METHOD FOR ATMOSPHERIC CARBON SEQUESTRATION - This invention relates to systems and methods for converting biomass into highly inert carbon. Specifically, some embodiments densify the carbon into anthracite-style carbon aggregations and store it in geologically stable underground deposits. The use of certain embodiments yield a net effect of removing atmospheric carbon via the process of photosynthesis and converting it into hard coal, which can be stored in underground beds that mimic existing coal deposits which are known to be stable for thousands of years. | 10-14-2010 |
20110099887 | Charcoal Briquettes and Methods of Forming Thereof - A charcoal heating material, such as charcoal briquettes, includes a porous structure that facilitates the flow of oxygen about the charcoal, and thereby, enables the briquettes to ignite easily and quickly. In particular the lightweighted charcoal briquettes have a density from about 0.50 grams per cubic centimeter to about 0.80 grams per cubic centimeter. Methods of forming charcoal heating materials include mixing a rheology modifying agent and a moisture phase with a charcoal mixture to facilitate absorption of additional water into the solid matrix, providing increased porosity and lightweighting of the finished briquette after drying. | 05-05-2011 |
20110162257 | HIGH CARBON CONCENTRATION BIOMASS AND BIOSOLIDS SLURRY PREPARATION USING A HYDRO-THERMAL PRETREATMENT - Provided is a process where the biomass and bisolids are hydrothermally treated under a reductive gas. Using this process a high carbon content pumpable mixture of biomass and biosolid slurry is produced with a viscosity value of less than 1.5. | 07-07-2011 |
20110179695 | METHODS AND COMPOSITIONS FOR DRYING COAL - The present disclosure provides methods, compositions and systems for drying coal fines. | 07-28-2011 |
20110203163 | NANO-DISPERSIONS OF COAL IN WATER AS THE BASIS OF FUEL RELATED TECHNOLOGIES AND METHODS OF MAKING SAME - Colloidal coal-in-water slurries having nano-particles of coal creating a pseudo-fluid. The colloidal coal-in-water slurry generally includes from about fifty to about seventy two weight percent of coal, with about 20 to about 80 percent of the coal having a particle size of about one micron or less with a mode particle size of about 250 nanometers. The coal-in-water slurry can also include a surfactant system containing one surfactant or mixtures of two or more surfactants, or mixtures of one or more surfactants and an inorganic or organic salt. The coal-in-water slurry can be used in low NOx burner applications as the main fuel and/or the reburn fuel, in gasification processes as the input fuel either alone, or in combination with organic materials, in gas turbine applications, and in diesel engine applications. | 08-25-2011 |
20120124893 | METHODS OF TREATING COAL TO IMPROVE COMBUSTION AND REDUCE CARBON CONTENT OF FLY ASH - An iron salt of an organic acid, selected from formic acid, carboxylic acids having (3) or more carbon atoms and sulphonic acids, is used to reduce the carbon content of the fly ash, when coal is combusted. | 05-24-2012 |
20120210631 | Commingled Coal and Biomass Slurries - An energy efficient process for converting biomass into a higher carbon content, high energy density slurry. Water and biomass are mixed at a temperature and under a pressure that are much lower than in prior processes, but under a non-oxidative gas, which enables a stable slurry to be obtained containing up to 60% solids by weight, 20-40% carbon by weight, in the slurry. The temperature is nominally about 200° C. under non-oxidative gas pressure of about 150 psi, conditions that are substantially less stringent than those required by the prior art. In another embodiment, the biomass water slurry can be mixed with a coal water slurry to further optimize the carbon content and pumpability of the biomass shiny. | 08-23-2012 |
20120227315 | Process for Modifying Fuel Solids - The invention provides a process for comminuting coal or other fuel solids in a shear field, and for optionally coating the solids with catalysts for combustion, liquefaction, and or gasification during the milling process. The process further provides for control of water content in the solids may be controlled before, during and after the milling in order to obtain micronized solids with fine hydration layers. The output fuel solids from the process can burn at low temperatures, avoiding emissions of nitrogen oxides, and they also have improved properties for surfactant-free suspension in either water or oil media, as well as for liquefaction and gasification. | 09-13-2012 |
20120255221 | COAL WATER SLURRY AND METHODS FOR MAKING THE COAL WATER SLURRY - A coal water slurry comprises smaller and larger coal particles. The smaller coal particles are in a range of from about 20 wt % to about 90 wt % of the coal in the coal water slurry and comprise a mean particle size smaller than 25 μm. The larger coal particles are in a range of from about 10 wt % to about 80 wt % of the coal in the coal water slurry and comprise a mean particle size in a range of from 50 μm to 200 μm. | 10-11-2012 |
20130008079 | Coagulation of oil in water and the resulting floating semisolid complex - This invention provides a semisolid complex exhibiting (i) the ability to float on water, (ii) the ability to provide liquid oil upon being deformed, and (iii) the ability to function as a fuel, the complex comprising a high proportion of liquid oil, the density of the oil being lower than the density of water, the complex also comprising fibers, the fibers being oriented in a plurality of directions, the fibers forming a framework, the framework being incorporated in the complex, the framework being substantially in the plane of the complex in case that the complex is in the form of a sheet, and the framework extending substantially over the area of the complex in case that the complex is in the form of a sheet, the complex further comprising a low proportion of bentonite, the bentonite being associated with the oil, the associating substantially involving coagulation, the oil and the bentonite being substantially held by the framework. This invention also provides a composition for causing the coagulation of a substantial portion of the oil present in a liquid upon the addition of the composition to the liquid, wherein the liquid comprises a high proportion of water and the liquid also comprises the oil, the density of the oil being lower than the density of the water, the composition comprising a mixture, the mixture comprising a high proportion of discontinuous fibers, the fibers being oriented in a plurality of directions, the mixture also comprising bentonite particles, the bentonite particles being sufficiently high in proportion for associating with a substantial portion of the oil, the associating substantially involving coagulation, and the fibers being sufficiently low in density and sufficiently high in proportion for causing the product of the coagulation to exhibit the ability to float on water. This invention further provides a method of coagulation of a substantial portion of the oil present in a liquid, wherein the liquid comprises a high proportion of water. | 01-10-2013 |
20130019519 | MIXED ALCOHOL FUELS FOR INTERNAL COMBUSTION ENGINES, FURNACES, BOILERS, KILNS AND GASIFIERS AND SLURRY TRANSPORTATION - Mixed alcohol formulas can be used as a fuel additive in petroleum-based hydrocarbon liquid fuels, synthetic or bio-derived gasoline, diesel fuels, jet fuel, aviation gasoline, heating oil, bunker oil, coal, petroleum coke, heavy crude oil, bitumen, or as a neat fuel in and of itself. The mixed alcohol formulations can be blended with ground petroleum coke, coal, heavy crude oil, or bitumen to form a thixotropic slurry for ease of transportation. The mixed alcohol formulations can also be used to shurry transport ground biomass. The mixed alcohol formulations can contain a blend of C | 01-24-2013 |
20130061516 | PREPARATION METHOD FOR ULTRA LOW ASH COAL-WATER SLURRY - A method for preparing ultra-low ash coal-water slurry includes: (A) grinding of coal to a size below the upper size limit and then making a proper concentration slurry; (B) screening coal by using the slurry particle separation device and separating them by density into tailings, middlings and clean coal, adjusting the fraction of clean coal production according to the ash content standard of final product and then producing the clean coal slurry and tailings slurry; (C) wet grinding of the middlings in step B; (D) reprocessing the product in step C by step B. The upper size limit can be 0.2 mm, 0.01 mm or 0.001 mm, and the ash content can be below 2%, 1% or 0.5%. This method can largely enhance the production rate of clean coal, improve the coal-water slurry fuel's particle size graduation, improve the fluidity and increase the particle concentration of the coal-water slurry fuel. | 03-14-2013 |
20130152453 | PYROLYSIS FUELS AND METHODS FOR PROCESSING PYROLYSIS FUELS - Pyrolysis fuels and methods for processing pyrolysis fuel are provided. In one embodiment, a method of processing pyrolysis fuel converts biomass to pyrolysis fuel including pyrolysis oil and char particles. Also, the method includes resizing a portion of the char particles so that substantially all resized char particles have a largest dimension no greater than about 5 microns. | 06-20-2013 |
20130192122 | RAPID METHOD FOR PRODUCTION OF CERIUM-CONTAINING OXIDE ORGANIC COLLOIDS - Improved methods for producing colloidal dispersions of cerium-containing oxide nanoparticles in substantially non-polar solvents is disclosed. The cerium-containing oxide nanoparticles of an aqueous colloid are transferred to a substantially non-polar liquid comprising one or more amphiphilic materials, one or more low-polarity solvents, and, optionally, one or more glycol ether promoter materials. The transfer is achieved by mixing the aqueous and substantially non-polar materials, forming an emulsion, followed by a phase separation into a remnant polar solution phase and a substantially non-polar organic colloid phase. The organic colloid phase is then collected. The promoter functions to speed the transfer of nanoparticles to the low-polarity phase. The promoter accelerates the phase separation, and also provides improved colloidal stability of the final substantially non-polar colloidal dispersion. The glycol ether promoter reduces the temperature necessary to achieve the phase separation, while providing high extraction yield of nanoparticles into the low-polarity organic phase. In addition, use of particular amphiphilic materials, such as heptanoic acid or octanoic acid, enable efficient extractions at ambient temperatures without the use of a glycol ether promoter. | 08-01-2013 |
20140013656 | NANO-DISPERSIONS OF COAL IN WATER AS THE BASIS OF FUEL RELATED TECHNOLOGIES AND METHODS OF MAKING SAME - Colloidal coal-in-water slurries having nano-particles of coal creating a pseudo-fluid. The colloidal coal-in-water slurry generally includes from about fifty to about seventy two weight percent of coal, with about 20 to about 80 percent of the coal having a particle size of about one micron or less with a mode particle size of about 250 nanometers. The coal-in-water slurry can also include a surfactant system containing one surfactant or mixtures of two or more surfactants, or mixtures of one or more surfactants and an inorganic or organic salt. The coal-in-water slurry can be used in low NOx burner applications as the main fuel and/or the reburn fuel, in gasification processes as the input fuel either alone, or in combination with organic materials, in gas turbine applications, and in diesel engine applications. | 01-16-2014 |
20140101986 | Method for Preparing a Slurry of Pulverized Solid Material in Liquid or Supercritical Carbon Dioxide - Method for making a slurry of a pulverized solid in liquid or supercritical carbon dioxide. The method includes making a water-pulverized solid slurry at ambient pressure and pressurizing the water-pulverized solid slurry to a high pressure. The pressurized water-pulverized solid slurry is mixed in a pressurized chamber with liquid or supercritical CO | 04-17-2014 |
20140150331 | SYSTEM AND METHOD FOR PREPARING COAL WATER SLURRY - 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. | 06-05-2014 |
20140202068 | FUEL SLURRY PREPARATION SYSTEM AND METHOD - A system includes a grinder, a storage unit, and an organic compound production unit. The grinder is configured to produce a fuel slurry from a solid fuel, a liquid, and an organic compound that is miscible with the liquid. The storage unit is configured to supply the organic compound to the grinder. The organic compound production unit is configured to receive a portion of syngas generated by a gasifier to generate the organic compound for supply to the storage unit. | 07-24-2014 |
20140208637 | SYSTEM AND METHOD FOR PREPARING COAL WATER SLURRY - 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. | 07-31-2014 |
20150082690 | Systems and Methods for Coal Water Slurry Concentration - The present application provides a slurry concentration system for concentrating a flow of slurry. The slurry concentration system may include a boiler for producing a flow of steam, a first evaporator for concentrating the flow of slurry with the flow of steam and creating a first flow of water vapor, and a second evaporator positioned downstream of the first evaporator for further concentrating the flow of slurry with the first flow of water vapor and creating a second flow of water vapor. | 03-26-2015 |
20150322363 | HIGHER MIXED ALCOHOL FUELS FOR INTERNAL COMBUSTION ENGINES, FURNACES, BOILERS, KILNS AND GASIFIERS - Higher mixed alcohol formulas can be used as a fuel additive in petroleum-based hydrocarbon liquid fuels, synthetic or bio-derived gasoline, diesel fuels, jet fuel, aviation gasoline, heating oil, bunker oil, coal, petroleum coke, heavy crude oil, bitumen, or as a neat fuel in and of itself. The mixed alcohol formulations can contain a blend of C | 11-12-2015 |
20160060114 | CARBONIZED CARBON AND ARTICLES FORMED THEREFROM - A composition is provided that includes: a carbonized carbon having an iodine number of at least 60 mg/g and a domain size of between 1.0 and 2.3 nm. An article or fuel is provided that includes the composition in a polymer forming a matrix or water suspension, respectively. A composition of so provided and derived from wood has been assigned a new CAS number (CAS No. 1362167-53-0). | 03-03-2016 |
20160082446 | FLOTATION SEPARATION OF FINE COAL PARTICLES FROM ASH-FORMING PARTICLES - Coal fines are processed by flotation separation to separate coal particles from ash-forming component particles. Coal fines are mixed water under high shear mixing conditions to form an aqueous slurry of coal fines containing between 15 wt. % and 55 wt. % coal fines. The aqueous slurry is introduced into a coal flotation cell to separate coal particles from ash-forming component particles by flotation separation, wherein the coal fines have a particle size less than 500 μm, and more preferably less than 300 μm. Bubbles are generated in the coal flotation cell having a bubble size and bubble quantity selected to float the coal particles and to form a coal-froth containing at least 15 wt. % solid particles. The solid particles include coal particles and ash-forming component particles. The coal-froth is collected for further processing. | 03-24-2016 |
20160130518 | COKE SLURRY FUEL COMPOSITION AND METHOD OF MAKING THE SAME - A coke slurry fuel composition of the instant disclosure comprises 40-80 percentage by weight of petroleum coke (dry basis), 20-60 percentage by weight of biological sludge (wet basis), and 1-4 percentage by weight of basic additive. Accordingly, the coke slurry fuel composition with high combustion efficiency can be adapted to reduce emissions of toxic or air pollutants, and the purpose of sludge reduction can also be achieved. A method of making coke slurry fuel composition is further provided. | 05-12-2016 |
044281000 | The liquid medium is, or contains, hydrocarbon | 12 |
20080295387 | Method for solidifying solid fossil fuels and solidified materials prepared thereby - Disclosed herein are a method for solidifying solid fossil fuel and a solidified material obtained thereby. The solidified material is prepared by mixing at least one solid fossil fuel with 5-8 parts by weight, based on 100 parts by weight of the solid fossil fuel, of a solidifying agent, and 1-4 parts by weight, based on 100 parts by weight of the solidifying agent, of aqueous acrylic resin. When this solidifying method is used, a solidified material, which can maintain the durability and high-temperature stability of a solidified material according to the prior furnace process using only coking coal as a raw material and has high heating value, can be prepared using a single solid fossil fuel or mixture thereof, including bituminous coal, anthracite coal and powdery coke. | 12-04-2008 |
20090025276 | ALTERNATIVE FUEL COMPRISING SOLIDS AND BY_PRODUCTS OR WASTE MATERIAL FROM INDUSTRIAL PROCESSES - The invention provides an alternative filet composition and methods of preparing and using the composition. The alternative fuel can comprise coal, or another combustible solid, and one or more components selected from a group consisting of sugar solutions, tall oil, black liquor, vegetable oils, animal fats, triglycerides, methyl esters, ethyl esters, crude glycerin by-product and fatty acids. | 01-29-2009 |
20110203164 | METHOD OF LIQUEFACTION OF INFLAMMABLE MINERALS - The method of inflammable minerals liquefaction is related to the technology of producing synthetic liquid fuel and can be applied to the processing of any kinds of fossil power-generating raw materials into various inflammable liquid products. The object of the present invention is to ensure a complex utilization of the initial power-generating raw material, to intensify its processing, to decrease the power consumption of synthetic liquid fuel production and to weaken the harmful impact of the technological process on the natural environment. The method includes initial raw material milling, its hydrogenation in the presence of a catalyst and separation of non-liquefied solid residue from synthetic oil. However, milling of the initial raw material is carried out in two stages in an aqueous solution of mineral salts catalyzing hydrogenation, which is saturated to an intermediate density between those of inflammable mineral and waste rock. In the course of milling accompanied by the release of methane into gaseous phase, which is capped for its further utilization, inflammable minerals floating to the surface from the milling zone are separated from non-inflammable impurities. A suspension of the light product of the first milling stage is heated and fed to the second milling stage. The light product of the second milling stage is squeezed from excessive liquid phase, mixed with hot paste-forming agent, diluted with an organic diluent, ground to the colloidal size and fed to hydrogenation. After that, the remaining non-liquefied residue is washed with an organic diluent, dried and mixed with dehydrated heavy product of the first milling stage. The obtained mixture is washed with water and withdrawn from the process, whereas the remaining washing water discharge is evaporated and returned to the first milling stage. Meanwhile, the heavy product of the second milling stage is dehydrated, cooled and returned to the starting point of the process. Zinc and tin chlorides, iron sulfates, ammonium molybdates and their various mixtures can be used for preparing the solution, in which the initial raw material is milled, whereas various compositions containing tetraline, anthracene oil, methyl naphthaline and cresol can be used as paste-forming agents. Isopropyl alcohol can be used as a paste diluent, and light petroleum as an organic diluent. | 08-25-2011 |
20140259882 | MIXTURE AND APPARATUS FOR BLENDING NON-AQUEOUS SLURRIES - The disclosures described herein provide for a gasification feedstock which includes a mixture of a solid feedstock with a liquid feedstock. The solid feedstock includes a heating value of less than approximately 20 Megajoules/kilogram (MJ/kg), expressed on a wet basis. The non-aqueous liquid feedstock includes a heating value of greater than approximately 14 MJ/kg, expressed on a wet basis. The resulting feedstock is useful as a gasification fuel. | 09-18-2014 |
044282000 | Liquid hydrocarbon, or liquid hydrocarbon and water, are the only components | 8 |
20090199459 | Form of coal particles - The invention provides a micronized form of coal particles with improved characteristics for porosity, hydration and preservation of pristine surfaces. The coal of the invention can burn at low temperatures, avoiding emissions of nitrogen oxides, and also has improved properties for surfactant-free suspension in either water or oil media, as well as for liquefaction and gasification. | 08-13-2009 |
20100043277 | POLYDISPERSED COMPOSITE EMULSIONS - Multi-faceted technology for the combustion and transportation of emulsified hydrocarbon fuel. The fuel comprises a composite of a plurality of hydrocarbon in water emulsions. The composite emulsion has a unimodal hydrocarbon particle distribution, with the hydrocarbon being present in an amount of between 64% and 90% by volume. | 02-25-2010 |
20110094147 | Process for the Conversion of Solid Particulated Biomass Materials - A process for producing bio-fuel from biomass is disclosed herein. The process includes processing the mean particle diameter of the biomass by mechanical processing to a size ranging from 1 μm to 1000 μm to form particulated biomass. The particulated biomass is mixed with a liquid hydrocarbon to form a suspension, wherein the suspension includes between 1 weight percent to 40 weight percent particulated biomass. The suspension is heated to a temperature between 50° C. and 550° C. The heated suspension is fed into a unit selected from the group consisting of a pyrolysis reactor, a fluid catalytic cracking unit, a delayed coker, a fluid coker, a hydroprocessing unit, and a hydrocracking unit; and then at least a portion of the particulated biomass of the heated suspension is converted into fuel. | 04-28-2011 |
20120090220 | Method and System for Processing Viscous Liquid Crude Hydrocarbons - 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. | 04-19-2012 |
20130074396 | NANO-DISPERSIONS OF CARBONACEOUS MATERIAL IN WATER AS THE BASIS OF FUEL RELATED TECHNOLOGIES AND METHODS OF MAKING SAME - Colloidal carbonaceous material-in-water slurries having nano-particles of carbonaceous material creating a pseudo-fluid. The colloidal carbonaceous material-in-water slurry generally includes from about fifty to about seventy two weight percent of carbonaceous material, with about 20 to about 80 percent of the carbonaceous material having a particle size of about one micron or less with a mode particle size of about 250 nanometers. The carbonaceous material-in-water slurry can also include a surfactant system containing one surfactant or mixtures of two or more surfactants, or mixtures of one or more surfactants and an inorganic or organic salt. The carbonaceous material-in-water slurry can be used in low NOx burner applications as the main fuel and/or the reburn fuel, in gasification processes as the input fuel either alone, or in combination with organic materials, in gas turbine applications, and in diesel engine applications. | 03-28-2013 |
20140165455 | CARBON-HYDROCARBON GAS COMPOSITE FUELS - A composition includes a porous carbon substrate; a hydrocarbon gas; a sealant configured to retain the hydrocarbon gas with at least a portion of the porous carbon substrate. Such a composition is known as a carbon-hydrocarbon gas composite. Another composition includes the carbon-hydrocarbon gas composite and fuel. Such fuels include diesel. | 06-19-2014 |
20140259883 | EMULSION FUEL FROM SONICATION-GENERATED ASPHALTENES - 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. | 09-18-2014 |
20160137939 | Green Renewable Liquid Fuel - A liquid fuel derived from processed biomass having extremely low water content and suitable for use in diesel engines or as an additive to petroleum based fuels, or which can be used as a petroleum or coal slurry substitute in those uses where a lower cost fuel have reduced emission is desired, is described. | 05-19-2016 |