Patent application number | Description | Published |
20090283448 | Desulfurization Process - A hydrocarbon desulfurization system that circulates fluidizable solid particles through a fluidized bed reactor, a fluidized bed regenerator, and a fluidized bed reducer to thereby provide for substantially continuous desulfurization of a hydrocarbon-containing fluid stream and substantially continuous regeneration of the solid particles. A novel transport system is employed for transporting the solid particles between the reactor, the regenerator, and the reducer. The transport system uses close-coupled vessels and gravity flow between various vessels to minimize equipment cost and particle attrition. | 11-19-2009 |
20100131247 | PREPARATION AND OPTIMIZATION OF OXYGENATED GASOLINES - A process for controlling the composition of an xBOB so that the xBOB will yield an oxygenate-containing gasoline which precisely meets desired specifications when mixed with the desired amount of oxygenate. The process involves blending a plurality of blendstocks to produce an xBOB, withdrawing a sample of the xBOB, obtaining spectroscopic measurements for the sample, applying mathematical models that were based on correlation of xBOB spectra to associated oxygenate-containing gasoline properties, to predict laboratory analysis results for oxygenate-containing gasoline properties, and using the analysis results to control and optimize the blending process. | 05-27-2010 |
20110186441 | ELECTROLYTIC RECOVERY OF RETAINED CARBON DIOXIDE - Methods and apparatus relate to capturing carbon dioxide. A solution formed from metal ions combined with an amine reagent absorbs carbon dioxide from gas introduced into the solution. Subsequent electrolysis of the solution results in dissociation of complexes formed upon the carbon dioxide being absorbed. The electrolysis thus liberates the carbon dioxide for capture and regenerates the solution for reuse. | 08-04-2011 |
20110194105 | OIL IN WATER ANALYZER - An oil in water analyzer for measuring the concentration of hydrocarbons in an effluent stream. The oil in water analyzer has a valve system for acquiring a sample from an effluent stream. An extraction device is used for mixing a known volume of a solvent and the sample to produce a hydrocarbon/solvent mixture. A second valve is used for transporting the hydrocarbon/solvent mixture to a spectroscopic cell. It is at the spectroscopic cell where the concentration of hydrocarbons in the hydrocarbon/solvent mixture is evaluated. | 08-11-2011 |
20120207668 | SOAK AND COKE - There is provided herein a method for producing hydrogen gas, comprising: sorbing a liquid hydrocarbon fuel to a gasification catalyst to form a sorbed hydrocarbon fuel; heating said sorbed hydrocarbon fuel to a first temperature for a first period of time sufficient to form coke; and gasifying said coke at a second temperature at a pressure for a second period of time in the presence of water and/or oxygen, so as to produce hydrogen gas and carbon monoxide and to regenerate said catalyst. In particular, the hydrocarbon fuel can be a liquid biomass, such pyrolysis oil, and the method can be CO | 08-16-2012 |
20120271614 | PREPARATION AND OPTIMIZATION OF OXYGENATED GASOLINES - A process for controlling the composition of an xBOB so that the xBOB will yield an oxygenate-containing gasoline which precisely meets desired specifications when mixed with the desired amount of oxygenate. The process involves blending a plurality of blendstocks to produce an xBOB, withdrawing a sample of the xBOB, obtaining spectroscopic measurements for the sample, applying mathematical models that were based on correlation of xBOB spectra to associated oxygenate-containing gasoline properties, to predict laboratory analysis results for oxygenate-containing gasoline properties, and using the analysis results to control and optimize the blending process. | 10-25-2012 |
20130133754 | PREPARATION AND OPTIMIZATION OF OXYGENATED GASOLINES - A process for controlling the composition of an xBOB so that the xBOB will yield an oxygenate-containing gasoline which precisely meets desired specifications when mixed with the desired amount of oxygenate. The process involves blending a plurality of blendstocks to produce an xBOB, withdrawing a sample of the xBOB, obtaining spectroscopic measurements for the sample, applying mathematical models that were based on correlation of xBOB spectra to associated oxygenate-containing gasoline properties, to predict laboratory analysis results for oxygenate-containing gasoline properties, and using the analysis results to control and optimize the blending process. | 05-30-2013 |
20140036255 | OIL IN WATER ANALYZER - An oil in water analyzer for measuring the concentration of hydrocarbons in an effluent stream. The oil in water analyzer has a valve system for acquiring a sample from an effluent stream. An extraction device is used for mixing a known volume of a solvent and the sample to produce a hydrocarbon/solvent mixture. A second valve is used for transporting the hydrocarbon/solvent mixture to a spectroscopic cell. It is at the spectroscopic cell where the concentration of hydrocarbons in the hydrocarbon/solvent mixture is evaluated. | 02-06-2014 |
20140205536 | SOAK AND COKE - There is provided herein a method for producing hydrogen gas, comprising: sorbing a liquid hydrocarbon fuel to a gasification catalyst to form a sorbed hydrocarbon fuel; heating said sorbed hydrocarbon fuel to a first temperature for a first period of time sufficient to form coke; and gasifying said coke at a second temperature at a pressure for a second period of time in the presence of water and/or oxygen, so as to produce hydrogen gas and carbon monoxide and to regenerate said catalyst. In particular, the hydrocarbon fuel can be a liquid biomass, such pyrolysis oil, and the method can be CO | 07-24-2014 |