Patent application number | Description | Published |
20080220480 | METHOD FOR PRODUCING METHANOL, DIMETHYL ETHER, DERIVED SYNTHETIC HYDROCARBONS AND THEIR PRODUCTS FROM CARBON DIOXIDE AND WATER (MOISTURE) OF THE AIR AS SOLE SOURCE MATERIAL - A method for producing methanol and dimethyl ether using the air as the sole source of materials is disclosed. The invention relates to a method for producing methanol by removing water from atmospheric air, obtaining hydrogen from the removed water, obtaining carbon dioxide from atmospheric air; and converting the carbon dioxide under conditions sufficient to produce methanol. Thereafter, the methanol can be dehydrated to produce dimethyl ether or further processed to produce synthetic hydrocarbons, polymers, and products derived from them. | 09-11-2008 |
20080293976 | NANO-STRUCTURE SUPPORTED SOLID REGENERATIVE POLYAMINE AND POLYAMINE POLYOL ABSORBENTS FOR THE SEPARATION OF CARBON DIOXIDE FROM GAS MIXTURES INCLUDING THE AIR - The invention relates to regenerative, supported amine sorbents that includes an amine or an amine/polyol composition deposited on a nano-structured support such as nanosilica. The sorbent provides structural integrity, as well as high selectivity and increased capacity for efficiently capturing carbon dioxide from gas mixtures, including the air. The sorbent is regenerative, and can be used through multiple operations of absorption-desorption cycles. | 11-27-2008 |
20080319093 | CONVERSION OF CARBON DIOXIDE TO METHANOL AND/OR DIMETHYL ETHER USING BI-REFORMING OF METHANE OR NATURAL GAS - The invention discloses a method of converting carbon dioxide to methanol and/or dimethyl ether using any methane source or natural gas consisting of a combination of steam and dry reforming, in a specific ratio to produce a 2:1 molar ratio of hydrogen and carbon monoxide with subsequent conversion of the CO and H | 12-25-2008 |
20090014336 | ELECTROLYSIS OF CARBON DIOXIDE IN AQUEOUS MEDIA TO CARBON MONOXIDE AND HYDROGEN FOR PRODUCTION OF METHANOL - An environmentally beneficial method of producing methanol from varied sources of carbon dioxide including flue gases of fossil fuel burning power plants, industrial exhaust gases or the atmosphere itself. Converting carbon dioxide by an electrochemical reduction of carbon dioxide in a divided electrochemical cell that includes an anode in one cell compartment and a metal cathode electrode in another cell compartment that also contains an aqueous solution comprising methanol and an electrolyte of one or more alkyl ammonium halides, alkali carbonates or combinations thereof to produce therein a reaction mixture containing carbon monoxide and hydrogen which can be subsequently used to produce methanol while also producing oxygen in the cell at the anode. | 01-15-2009 |
20090030240 | CONVERSION OF CARBON DIOXIDE TO DIMETHYL ETHER USING BI-REFORMING OF METHANE OR NATURAL GAS - The invention provides for a method of forming dimethyl ether by bimolecular dehydration of methanol produced from a mixture of hydrogen and carbon dioxide obtained by reforming of methane, water and carbon dioxide in a ratio of about 3:2:1. Subsequent use of water produced in the dehydration of methanol in the bi-reforming process leads to an overall ratio of carbon dioxide to methane of about 1:3 to produce dimethyl ether. | 01-29-2009 |
20090172997 | ENVIRONMENTALLY FRIENDLY TERNARY TRANSPORTATION FLEX-FUEL OF GASOLINE, METHANOL AND BIOETHANOL - An efficient and economic ternary flex-fuel mixture that includes at least 10% gasoline, at least 10% bioethanol and at least 45% methanol, with the amount of gasoline, bioethanol and methanol totaling 100%, wherein the flex-fuel mixture has an octane rating of at least 90 and remains homogeneous in the presence of up to 10% water therein. Preferred flex-fuel mixtures include 10-15 to 30% gasoline, 50 to 75-80% methanol, and 10 to 25% of bioethanol and having an octane rating of 90 to 98. Also, methods of making these flex-fuel mixtures and to improvements in methods for preparing a flex-fuel mixture of gasoline and bioethanol by adding methanol in an amount sufficient to enable the mixture to remain homogeneous in the presence of up to 10% water to thus allow handling, transportation, dispensing and use of the mixture in the same manner as conventional gasoline fuels. | 07-09-2009 |
20090285739 | MITIGATING OR ELIMINATING THE CARBON FOOTPRINT OF HUMAN ACTIVITIES - A method for neutralizing or reducing the carbon footprint from carbon dioxide emissions due to human activities related to the combustion or use of carbon containing fuels. This method includes an initial step of capturing carbon dioxide and then chemically recycling it to form and provide a permanent inexhaustible supply of carbon containing fuels or products, which subsequently can be combusted or used without increasing the carbon dioxide content of the atmosphere. Thus, the current lifestyles that rely extensively on conventional carbon containing fuels and products can continue indefinitely without harming the environment to preserve and even improve the earth's atmosphere for the benefit of future generations. | 11-19-2009 |
20090293348 | EFFICIENT AND SELECTIVE CHEMICAL RECYCLING OF CARBON DIOXIDE TO METHANOL, DIMETHYL ETHER AND DERIVED PRODUCTS - An efficient and environmentally beneficial method of recycling and producing methanol from varied sources of carbon dioxide including flue gases of fossil fuel burning powerplants, industrial exhaust gases or the atmosphere itself. Converting carbon dioxide by chemical or electrochemical reduction seconardy treatment to produce essentially methanol, dimethyl ether and derived products. | 12-03-2009 |
20090320356 | STOCKPILING METHANOL AND/OR DIMETHYL ETHER FOR FUEL AND ENERGY RESERVES - The present invention relates to a method of stockpiling a fuel source by storing methanol or dimethyl ether in appropriate storage facilities to provide an alternative fuel source that can be used to avoid shortages due to unavailability, limited availability or excessive costs of oil. | 12-31-2009 |
20100022671 | PRODUCING METHANOL AND ITS PRODUCTS EXCLUSIVELY FROM GEOTHERMAL SOURCES AND THEIR ENERGY - The invention provides a method for producing methanol and its products exclusively from a geothermal source as the sole source material also using the needed energy from the geothermal energy source. The method includes separating or isolating carbon dioxide accompanying hot water or steam of the source, generating hydrogen from the water and subsequently preparing methanol from the carbon dioxide and hydrogen. The methanol can be further converted into dimethyl ether or other products. | 01-28-2010 |
20100152474 | SELECTIVE OXIDATIVE CONVERSION OF METHANE TO METHANOL, DIMETHYL ETHER AND DERIVED PRODUCTS - The present invention relates to a method of producing methanol from a methane source by oxidizing methane under conditions sufficient to a mixture of methanol and formaldehyde while minimizing the formation of formic acid and carbon dioxide. The oxidation step is followed by treatment step in which formaldehyde is converted into methanol and formic acid which itself can further be converted into methanol via catalytic hydrogenation of intermediately formed methyl formate. | 06-17-2010 |
20100193370 | ELECTROLYSIS OF CARBON DIOXIDE IN AQUEOUS MEDIA TO CARBON MONOXIDE AND HYDROGEN FOR PRODUCTION OF METHANOL - An environmentally beneficial method of producing methanol from varied sources of carbon dioxide including flue gases of fossil fuel burning power plants, industrial exhaust gases or the atmosphere itself. Converting carbon dioxide by an electrochemical reduction of carbon dioxide in a divided electrochemical cell that includes an anode in one compartment and a metal cathode electrode in a compartment that also contains an aqueous solution comprising methanol and an electrolyte. An anion-conducting membrane can be provided between the anode and cathode to produce at the cathode therein a reaction mixture containing carbon monoxide and hydrogen, which can be subsequently used to produce methanol while also producing oxygen in the cell at the anode. The oxygen produced at the anode can be recycled for efficient combustion of fossil fuels in power plants to exclusively produce CO | 08-05-2010 |
20100261125 | RENDERING COAL AS AN ENVIRONMENTALLY CARBON DIOXIDE NEUTRAL FUEL AND A REGENERATIVE CARBON SOURCE - The invention provides a method for rendering coal as an environmentally essentially carbon dioxide-neutral fuel. Carbon dioxide produced from coal combustion is captured, purified, combined with coalbed methane or any other natural methane or natural gas source, or with hydrogen, and reacted under reaction conditions sufficient to form methanol and/or dimethyl ether, which can be used as fuel or feedstock for derived synthetic hydrocarbons and products. | 10-14-2010 |
20100261937 | RENDERING PETROLEUM OIL AS AN ENVIRONMENTALLY CARBON DIOXIDE NEUTRAL SOURCE MATERIAL FOR FUELS, DERIVED PRODUCTS AND AS A REGENERATIVE CARBON SOURCE - The invention provides a method for rendering petroleum oil as an essentially environmentally carbon dioxide-neutral fuel and source material. Carbon dioxide produced from petroleum oil combustion is captured, purified, combined with steam and light hydrocarbon fractions, or with hydrogen, and reacted under reaction conditions sufficient to form methanol and/or dimethyl ether, which can be used as fuel or feedstock for derived synthetic hydrocarbons and products. | 10-14-2010 |
20100261938 | RENDERING NATURAL GAS AS AN ENVIRONMENTALLY CARBON DIOXIDE NEUTRAL FUEL AND A REGENERATIVE CARBON SOURCE - The invention provides a method for rendering natural gas as an environmentally essentially carbon dioxide-neutral fuel. Carbon dioxide produced from natural gas combustion or from natural gas wells is captured, purified, combined with natural gas or methane or with hydrogen, and reacted under reaction conditions sufficient to form methanol and/or dimethyl ether, which can be used as fuel or feedstock for derived synthetic hydrocarbons and products. | 10-14-2010 |
20100274060 | EFFICIENT AND ENVIRONMENTALLY FRIENDLY PROCESSING OF HEAVY OILS TO METHANOL AND DERIVED PRODUCTS - The invention provides for a method for processing heavy oil from any sources including tar sands, oil shales, varied residues in a bi-reforming process utilizing reaction conditions with steam and carbon dioxide sufficient to form a mixture of hydrogen and carbon monoxide to form methanol. Methanol produced can be dehydrated to form dimethyl ether, with water produced being recycled back to the bi-reforming process. | 10-28-2010 |
20110054045 | CONVERSION OF CARBON DIOXIDE TO METHANOL USING BI-REFORMING OF METHANE OR NATURAL GAS - The invention provides for \ a method of forming methanol by combining a mixture of methane, water and carbon dioxide under reaction conditions sufficient to form a mixture of hydrogen and carbon monoxide. Hydrogen and carbon monoxide are reacted under conditions sufficient to form methanol. The molar ratio of hydrogen to carbon monoxide is at least two moles of hydrogen to one mole of carbon monoxide and the overall molar ratio between methane, water and carbon dioxide is about 3:2:1. Methane, carbon dioxide and water are bi-reformed over a catalyst. The catalyst includes a single metal, a metal oxide, a mixed catalyst of a metal and a metal oxide or a mixed catalyst of at least two metal oxides. | 03-03-2011 |
20110086928 | MITIGATING OR ELIMINATING THE CARBON FOOTPRINT OF HUMAN ACTIVITIES - A method for neutralizing or reducing the carbon footprint from carbon dioxide emissions due to human activities related to the combustion or use of carbon containing fuels. This method includes an initial step of capturing carbon dioxide and then chemically recycling it to form and provide a permanent inexhaustible supply of carbon containing fuels or products, which subsequently can be combusted or used without increasing the carbon dioxide content of the atmosphere. Thus, the current lifestyles that rely extensively on conventional carbon containing fuels and products can continue indefinitely without harming the environment to preserve and even improve the earth's atmosphere for the benefit of future generations. | 04-14-2011 |
20120115965 | CONVERSION OF CARBON DIOXIDE TO METHANOL USING BI-REFORMING OF METHANE OR NATURAL GAS - The invention provides for a method of forming methanol by combining a mixture of methane, water and carbon dioxide under specific reaction conditions sufficient to form a mixture of hydrogen and carbon monoxide which are then reacted under conditions sufficient to form methanol. The molar ratio of hydrogen to carbon monoxide is at least two moles of hydrogen to one mole of carbon monoxide and the overall molar ratio between methane, water and carbon dioxide is about 3:2:1. Methane, carbon dioxide and water are bi-reformed over a catalyst. The catalyst includes a single metal, a metal oxide, a mixed catalyst of a metal and a metal oxide or a mixed catalyst of at least two metal oxides. | 05-10-2012 |
20130331616 | RECYCLING CARBON DIOXIDE VIA CAPTURE AND TEMPORARY STORAGE TO PRODUCE RENEWABLE FUELS AND DERIVED PRODUCTS - A method for recycling a carbon-containing greenhouse gas emissions such as carbon dioxide and methane (natural gas) or a hydrocarbon homolog thereof. The method includes the steps of capturing the emissions, sequestering them in an underground or undersea storage area, withdrawing them from the storage area after storage therein, and converting them to carbon-containing compounds such as methanol, dimethyl ether and derived products. Greenhouse gases such as carbon dioxide and methane are chemically recycled to provide a permanent and inexhaustible supply of carbon-containing fuels or products, which subsequently can be combusted or used without increasing the carbon dioxide content of the atmosphere. The method is thus effective in neutralizing or reducing the carbon footprint due to human activities related to combustion or use of carbon-containing fuels while providing a repeatedly sustainable carbon source. | 12-12-2013 |
20140066640 | DIRECT TRIFLUOROMETHYLATIONS USING TRIFLUOROMETHANE - A direct trifluoromethylation method preferably using a trifluoromethane as a fluoro-methylating species. In particular, the present method is used for preparing a trifluoromethylated substrate by reacting a fluoromethylatable substrate with a trifiuoromethylating agent in the presence of an alkoxide or metal salt of silazane under conditions sufficient to trifluoromethylate the substrate; wherein the fluoromethylatable substrate includes chlorosilanes, carbonyl compounds such as esters, aryl halides, aldehydes, ketones, chalcones, alkyl formates, alkyl halides, aryl halides, alkyl borates, carbon dioxide or sulfur. | 03-06-2014 |
20140100391 | EFFICIENT, SELF SUFFICIENT PRODUCTION OF METHANOL FROM A METHANE SOURCE VIA OXIDATIVE BI-REFORMING - A method for producing methanol from a methane source such as methane from natural (shale) gas by first reacting one equivalent of methane with oxygen from the air to result in complete combustion to produce carbon dioxide and water in a molar ratio of 1:2; then conducting a bi-reforming process with a mixture of methane: carbon dioxide:water having a ratio of 3:1:2 to produce metgas, a mixture of hydrogen and carbon monoxide having a molar ratio of 2:1 to 2.1:1; and finally converting metgas exclusively to methanol. The thus produced methanol can be dehydrated to form dimethyl ether, with water produced being recycled back to the bi-reforming process, if necessary. | 04-10-2014 |