Trans Ionics Corporation Patent applications |
Patent application number | Title | Published |
20110306801 | EXTRACTION AND SEPARATION PROCESSES FOR RECOVERY OF ORGANIC SOLUTES FROM FEED SOURCES AND APPARATUSES FOR PERFORMING SAME - Methods for extracting an organic solute from a feed source using aromatic extraction solvents are described herein. Solvent modifiers such as, for example, cetyl alcohol may also be used to alter the properties of the solvent and improve the extraction. In some embodiments, the extraction solvent can be recycled after performing the extraction. In some embodiments, the organic solute may be separated from the extraction solvent after the extraction. For example, in some embodiments, the organic solute may be adsorbed on to 5 Å molecular sieve zeolites and then removed thereafter. Removal of the organic solute can take place by heating, applying a vacuum or a combination thereof. Apparatuses for extracting an organic solute from a feed source are also described herein. | 12-15-2011 |
20110213191 | COMPOSITIONS AND METHODS FOR OLEFIN RECOVERY - The present invention is directed to compositions and methods for the recovery of olefins from a mixture. The compositions of the present invention comprise: (1) a transition metal ion; (2) a counter anion; (3) a ligand selected from the group consisting of a bidentate ligand and a tridentate ligand, wherein the ligand comprises at least two nitrogen atoms, and wherein each of the nitrogen atoms comprises a lone pair of electrons; and (4) a polar solvent with a boiling point of at least about 200° C. The methods of the present invention comprise: (1) providing the aforementioned compositions; (2) bonding at least a portion of the olefins in a mixture to the transition metal ion in the composition to form a complex; (3) separating the complex from the mixture; and (4) recovering the olefins from the complex. | 09-01-2011 |
20100276335 | DESULFURIZATION OF PETROLEUM STREAMS USING METALLIC SODIUM - In some embodiments, the invention is a method of removing sulfur from a hydrocarbon feed using the steps of dissolving metallic sodium in a first solvent, combining the sodium/first solvent solution with a sulfur-free alkane or cycloalkane second solvent, vaporizing the first solvent from sodium/first solvent/second solvent combination to transfer the dissolved metallic sodium into the second solvent, and then combine the resultant liquid with a liquid hydrocarbon feed containing an organosulfur species. The resulting stream is combined with a hydrogen donor. The combination is heated and pressurized to form a liquid hydrocarbon product containing sodium sulfide. The liquid hydrocarbon product containing sodium sulfide is then cooled, and the sodium sulfide is extracted. The extracted sodium sulfide is then processed in a sodium sulfur cell to regenerate the sodium and recycle it to the feed. | 11-04-2010 |
20090259078 | Methods For Recovery of Alcohols From Dilute Aqueous Alcohol Feed Streams - Methods for recovery of at least one alcohol from dilute aqueous alcohol feed streams are described. The methods include steps of a) providing a source of a dilute aqueous alcohol feed stream including at least one alcohol; b) substantially removing any solids from the dilute aqueous alcohol feed stream to form a feed stream substantially devoid of solids; c) circulating the feed stream substantially devoid of solids through a liquid-liquid extraction system having multiple equilibrium stages; d) recovering a raffinate phase substantially depleted in the at least one alcohol and an extract phase substantially enriched in the at least one alcohol; e) passing the extract phase to a recovery system wherein the extract phase is subjected to microwave radiation; f) recovering the volatilized product; and g) recycling the solvent to the liquid-liquid extraction system. The microwave radiation substantially heats the alcohol but not the solvent to form a volatilized product of substantially pure alcohol. The methods further include optional steps of removing any residual water from the substantially pure alcohol product to form a fuel-grade alcohol. The liquid-liquid extraction system can be a hydrophobic, microporous membrane extraction system having a plurality of hollow fibers. | 10-15-2009 |