1
Jeffrey Scott Kanel, Scott Arthur Guelcher: Method for rupturing microalgae cells. Eastman Chemical Company, Harry J Gwinnell, Cheryl J Tubach, December 14, 1999: US06000551 (46 worldwide citation)

A method for rupturing microalgae in an aqueous suspension is disclosed. In one embodiment the aqueous suspension is passed through a constriction into a liquid phase at a pressure sufficient to rupture the cells by circulating the aqueous suspension through a constriction in a pump loop at a pressu ...


2
Jeffrey Scott Kanel, Scott Arthur Guelcher: Adsorptive bubble separation methods and systems for dewatering suspensions of microalgae and extracting components therefrom. Eastman Chemical Company, Bernard J Graves, Harry J Gwinnell, September 14, 1999: US05951875 (40 worldwide citation)

A process and system are disclosed for recovering mixed carotenoids from the alga Dunaliella salina. The harvested cells are ruptured, typically by circulating the algal suspension at high pressure through a pump loop. The cells can then be dewatered by absorptive bubble separation techniques, inclu ...


3
John Nicholas Argyropoulos, David Robert Bryant, Michael Leo Tulchinsky, Jeffrey Scott Kanel, Paul Foley, Barry Brent Fish: Metal-ligand complex catalyzed processes. Union Carbide Chemicals & Plastics Technology Corporation, Gerald L Coon, June 26, 2001: US06252121 (36 worldwide citation)

This invention relates to a process for separating one or more cyclic products from a reaction product fluid comprising one or more cyclic reactants, a metal-organophosphorus ligand complex catalyst, optionally free organophosphorus ligand, a non-polar solvent and said one or more cyclic products, w ...


4
Scott Arthur Guelcher, Jeffrey Scott Kanel: Method for dewatering microalgae with a bubble column. Eastman Chemical Company, Morgan Lewis & Bockius, June 8, 1999: US05910254 (34 worldwide citation)

A process for dewatering an aqueous suspension of microalgae is disclosed in which the aqueous suspension of the algae is introduced into a bubble column or a modified bubble column for generating a froth of bubbles and adsorbed algal cells that can be separated from the aqueous suspension. In one a ...


5
Jeffrey Scott Kanel, David Robert Bryant, Brian Michael Roesch, Ailene Gardner Phillips: Separation processes. Union Carbide Chemicals & Plastics Technology Corporation, October 23, 2001: US06307109 (26 worldwide citation)

This invention relates to a process for separating one or more products from a reaction product fluid comprising a metal-organophosphorus ligand complex catalyst, optionally free organophosphorus ligand, said one or more products, one or more nonpolar reaction solvents and one or more polar reaction ...


6
Jeffrey Scott Kanel, John Nicholas Argyropoulos, Ailene Gardner Phillips, Brian Michael Roesch, John Robert Briggs, Max Min Lee, John Michael Maher, David Robert Bryant: Separation processes. Union Carbide Chemicals & Plastics Technology Corporation, September 25, 2001: US06294700 (26 worldwide citation)

This invention relates to a process for separating one or more products from a reaction product fluid comprising a metal-organophosphorus ligand complex catalyst, optionally free organophosphorus ligand, said one or more products, one or more polar reaction solvents and one or more nonpolar reaction ...


7
Jeffrey Scott Kanel, Rodger Thomas Marentis: Process for fluid/dense gas extraction under enhanced solubility conditions. Eastman Chemical Company, Cheryl J Tubach, Harry J Gwinnell, August 3, 1999: US05932101 (23 worldwide citation)

A liquid/dense gas extraction column process providing intimate contact between a dense gas and a fluid feed containing a solute and operating in an enhanced solubility region provides solubility of a solute in the dense gas to be at least 250% by weight greater than the solubility of the solute in ...


8
Jeffrey Scott Kanel, John Nicholas Argyropoulos, Ailene Gardner Phillips, Brian Michael Roesch, John Robert Briggs, Max Min Lee, John Michael Maher, David Robert Bryant: Separation processes. Union Carbide Chemicals & Plastics Technology Corporation, October 16, 2001: US06303829 (20 worldwide citation)

This invention relates to a process for separating one or more products from a reaction product fluid comprising a metal-organophosphorus ligand complex catalyst, optionally free organophosphorus ligand, said one or more products, one or more nonpolar reaction solvents and one or more polar reaction ...


9
Jeffrey Scott Kanel, Rodger Thomas Marentis: Process for fluid/dense gas extraction under enhanced solubility conditions. Eastman Chemical Company, Cheryl J Tubach, Harry J Gwinnell, August 22, 2000: US06106720 (19 worldwide citation)

A liquid/dense gas extraction column process providing intimate contact between a dense gas and a fluid feed containing a solute and operating in an enhanced solubility region provides solubility of a solute in the dense gas to be at least 250% by weight greater than the solubility of the solute in ...


10
John Nicholas Argyropoulos, Jeffrey Scott Kanel, Michael Leo Tulchinsky, David James Miller, Donald Lee Morrison, Paul Foley, David Robert Bryant, Ailene Gardner Phillips, Brian Michael Roesch, John Robert Briggs, Max Min Lee, John Michael Maher: Separation processes. Union Carbide Chemicals & Plastics Technology Corporation, Warren K Volles, October 23, 2001: US06307110 (18 worldwide citation)

This invention relates to a process for separating one or more organophosphorus ligand degradation products, one or more reaction byproducts and one or more products from a continuously generated reaction product fluid comprising one or more unreacted reactants, a metal-organophosphorus ligand compl ...