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1
US2020338475A1
STATIC COALESCER, SYSTEM AND METHOD THEREFOR
Publication/Patent Number: US2020338475A1 Publication Date: 2020-10-29 Application Number: 16/961,930 Filing Date: 2018-01-16 Inventor: Kokotov, Yuri   Sheinman, Roman   Assignee: TURBULENT TECHNOLOGIES LTD.   IPC: B01D17/04 Abstract: A coalescence method and related system are disclosed herein. A multiphase dispersion feed comprising first and second liquids (i.e. where droplets of the first liquid (dispersed phase) are dispersed in the second liquid (continuous phase)) is passed through a static mechanical droplet-coalescer comprising a channel characterized by a plurality of in-series segments, each segment characterized by a segment-specific-characteristic obstacle size and having geometric features disclosed herein. In embodiments of the invention, the static mechanical droplet-coalescer promotes coalescence between droplets of first liquid to form larger droplets of first liquid. Subsequently, after the dispersion exits the coalescer, the larger droplets are easier to remove from the second liquid (continuous phase) than the smaller droplets that coalesced into the larger droplets.
2
US10190188B2
Mixing method and device for solvent extraction, especially in hydrometallurgical processes
Publication/Patent Number: US10190188B2 Publication Date: 2019-01-29 Application Number: 14/647,115 Filing Date: 2013-11-25 Inventor: Kokotov, Yuri   Braginsky, Leonid   Sheinman, Roman   Assignee: TURBULENT TECHNOLOGIES LTD.   IPC: C22B3/22 Abstract: A system and method are disclosed for mixing a suspension. The suspension may optionally have a low liquid viscosity. The suspension may, optionally, include a metallurgy solvent extraction (SX) mixture. The system and method may be at an industrial scale. In some embodiments, suspension may be stirred at high energy dissipation rate with a large impeller. The system may optionally include baffles. The impellor and/or the baffles may optionally include a rounded edge. The method may be applied to retrofitting a SX plant. The input feed to a mixing reactor may include an emulsion and/or multiple discrete phases.
3
WO2018131005A1
STATIC COALESCER, SYSTEM AND METHOD THEREFOR
Publication/Patent Number: WO2018131005A1 Publication Date: 2018-07-19 Application Number: 2018050266 Filing Date: 2018-01-16 Inventor: Kokotov, Yuri   Sheinman, Roman   Assignee: TURBULENT TECHNOLOGIES LTD.   IPC: B01D17/04 Abstract: A coalescence method and related system are disclosed herein. A multiphase dispersion feed comprising first and second liquids (i.e. where droplets of the first liquid (dispersed phase) are dispersed in the second liquid (continuous phase)) is passed through a static mechanical droplet-coalescer comprising a channel characterized by a plurality of in-series segments, each segment characterized by a segment- specific-characteristic obstacle size and having geometric features disclosed herein. In embodiments of the invention, the static mechanical droplet-coalescer promotes coalescence between droplets of first liquid to form larger droplets of first liquid. Subsequently, after the dispersion exits the coalescer, the larger droplets are easier to remove from the second liquid (continuous phase) than the smaller droplets that coalesced into the larger droplets.
4
AU2018204101A1
A MIXING METHOD AND DEVICE FOR SOLVENT EXTRACTION, ESPECIALLY IN HYDROMETALLURGICAL PROCESSES
Publication/Patent Number: AU2018204101A1 Publication Date: 2018-06-28 Application Number: 2018204101 Filing Date: 2018-06-08 Inventor: Braginsky, Leonid   Kokotov, Yuri   Sheinman, Roman   Assignee: Turbulent Technologies Ltd   IPC: C22B3/02 Abstract: A system and method are disclosed for mixing a suspension. The suspension may optionally have a low liquid viscosity. The suspension may, optionally, include a metallurgy solvent extraction (SX) mixture. The system and method may be at an industrial scale. In some embodiments, suspension may be stirred at high energy dissipation rate with a large impeller. The system may optionally include baffles. The impellor and/or the baffles may optionally include a rounded edge. The method may be applied to retrofitting a SX plant. The input feed to a mixing reactor may include an emulsion and/or multiple discrete phases. WO 2014/080408 PCT/IL2013/050970 FIG. 2 202 Start Supply mixing/agitating reactor -large pitched blade impeller -Baffles and -Controlled shear edges Input low viscosity SX mixture 208 -i Impart high energy 210 High rotation rate MO 212 Avoid high local dissipation 214 j Highly spread turbulence Spread energy 216 dissipation evenly 218 Separate
5
EP3122445A4
METHOD AND APPARATUS FOR REDUCTION OF AIR INGESTION DURING MIXING
Publication/Patent Number: EP3122445A4 Publication Date: 2018-01-03 Application Number: 15768656 Filing Date: 2015-03-26 Inventor: Sheinman, Roman   Kokotov, Yuri   Braginsky, Leonid   Assignee: Turbulent Technologies Ltd.   IPC: B01F3/00
6
US9712108B2
Corded lattice based floating photovoltaic solar field with independently floating solar modules
Publication/Patent Number: US9712108B2 Publication Date: 2017-07-18 Application Number: 14/771,550 Filing Date: 2014-03-05 Inventor: Kokotov, Yuri   Fisher, Yossi   Caine, Shlomo   Assignee: Solaris Synergy (Israel) Ltd.   IPC: H02N6/00 Abstract: Provided herein is a floating photovoltaic solar device designed to reduce the effect of wind forces without the use of external control or power. The device includes a floating anchored frame with a means for connecting an internal corded lattice; a corded lattice suspended within the floating frame and forming a set of polygonal cells in which independently floating solar photovoltaic modules are positioned. Access for scheduled and unscheduled maintenance may be provided by a floating service gantry. The system is modular and several devices may be connected in a honeycomb-like structure.
7
US2017353153A1
CORDED LATTICE BASED FLOATING PHOTOVOLTAIC SOLAR FIELD WITH INDEPENDENTLY FLOATING SOLAR MODULES
Publication/Patent Number: US2017353153A1 Publication Date: 2017-12-07 Application Number: 15/652,267 Filing Date: 2017-07-18 Inventor: Kokotov, Yuri   Fisher, Yossi   Caine, Shlomo   Assignee: Solaris Synergy (Israel) Ltd.   IPC: H02S40/36 Abstract: A floating solar photovoltaic device includes a plurality of solar photovoltaic modules, each of the solar photovoltaic modules being connected by cords to an internal frame and the internal frames being arranged in an array of rows and columns. The cords can permit movement of one of the solar photovoltaic modules to be independent of movement of another of the solar photovoltaic modules. The cords can restrict movement of one of the solar photovoltaic modules to prevent collision with another of the solar photovoltaic modules. The cords can diminish transfer of forces bearing on one of the solar photovoltaic modules to another of the solar photovoltaic modules.
8
US2017291154A1
METHOD AND APPARATUS FOR REDUCTION OF AIR INGESTION DURING MIXING
Publication/Patent Number: US2017291154A1 Publication Date: 2017-10-12 Application Number: 15/127,024 Filing Date: 2015-03-26 Inventor: Kokotov, Yuri   Sheinman, Roman   Braginsky, Leonid   Assignee: TURBULENT TECHNOLOGIES LTD.   IPC: B01F7/22 Abstract: A mixing tank is disclosed for reducing ingestion across an interface. The tank may include a first zone including most of the volume of the tank; a second zone including the interface; a source of mixing energy configured to provide a first bulk energy dissipation rate in the first zone; a divider located between said first zone and said second zone inhibiting transfer of said mixing energy from said first zone to said second zone to preserve in said second zone a bulk power dissipation level less than a said first bulk power dissipation level; and a mass transport passageway between said first zone and said second zone for preserving a uniformity between the first and second zones. A method is disclosed for manufacturing a mixing tank and for retrofitting and existing mixing tank and for managing mixing to prevent air ingestion.
9
EP3122445A1
METHOD AND APPARATUS FOR REDUCTION OF AIR INGESTION DURING MIXING
Publication/Patent Number: EP3122445A1 Publication Date: 2017-02-01 Application Number: 15768656.9 Filing Date: 2015-03-26 Inventor: Kokotov, Yuri   Sheinman, Roman   Braginsky, Leonid   Assignee: Turbulent Technologies Ltd.   IPC: B01F3/00
10
US2016006391A1
CORDED LATTICE BASED FLOATING PHOTOVOLTAIC SOLAR FIELD WITH INDEPENDENTLY FLOATING SOLAR MODULES
Publication/Patent Number: US2016006391A1 Publication Date: 2016-01-07 Application Number: 14/771,550 Filing Date: 2014-03-05 Inventor: Kokotov, Yuri   Fisher, Yossi   Caine, Shlomo   Assignee: SOLARIS SYNERGY (ISRAEL) LTD.   IPC: H02S40/36 Abstract: Provided herein is a floating photovoltaic solar device designed to reduce the effect of wind forces without the use of external control or power. The device includes a floating anchored frame with a means for connecting an internal corded lattice; a corded lattice suspended within the floating frame and forming a set of polygonal cells in which independently floating solar photovoltaic modules are positioned. Access for scheduled and unscheduled maintenance may be provided by a floating service gantry. The system is modular and several devices may be connected in a honeycomb-like structure.
11
WO2015145441A1
METHOD AND APPARATUS FOR REDUCTION OF AIR INGESTION DURING MIXING
Publication/Patent Number: WO2015145441A1 Publication Date: 2015-10-01 Application Number: 2015050318 Filing Date: 2015-03-26 Inventor: Kokotov, Yuri   Braginsky, Leonid   Sheinman, Roman   Assignee: TURBULENT TECHNOLOGIES LTD.   IPC: B01F3/00 Abstract: A mixing tank is disclosed for reducing ingestion across an interface. The tank may include a first zone including most of the volume of the tank; a second zone including the interface; a source of mixing energy configured to provide a first bulk energy dissipation rate in the first zone; a divider located between said first zone and said second zone inhibiting transfer of said mixing energy from said first zone to said second zone to preserve in said second zone a bulk power dissipation level less than a said first bulk power dissipation level; and a mass transport passageway between said first zone and said second zone for preserving a uniformity between the first and second zones. A method is disclosed for manufacturing a mixing tank and for retrofitting and existing mixing tank and for managing mixing to prevent air ingestion.
12
US2015299821A1
MIXING METHOD AND DEVICE FOR SOLVENT EXTRACTION, ESPECIALLY IN HYDROMETALLURGICAL PROCESSES
Publication/Patent Number: US2015299821A1 Publication Date: 2015-10-22 Application Number: 14/647,115 Filing Date: 2013-11-25 Inventor: Kokotov, Yuri   Braginsky, Leonid   Sheinman, Roman   Assignee: Turbulent Technologies Ltd.   IPC: C22B3/22 Abstract: A system and method are disclosed for mixing a suspension. The suspension may optionally have a low liquid viscosity. The suspension may, optionally, include a metallurgy solvent extraction (SX) mixture. The system and method may be at an industrial scale. In some embodiments, suspension may be stirred at high energy dissipation rate with a large impeller. The system may optionally include baffles. The impellor and/or the baffles may optionally include a rounded edge. The method may be applied to retrofitting a SX plant. The input feed to a mixing reactor may include an emulsion and/or multiple discrete phases.
13
AU2013349246A1
A mixing method and device for solvent extraction
Publication/Patent Number: AU2013349246A1 Publication Date: 2015-06-04 Application Number: 2013349246 Filing Date: 2013-11-25 Inventor: Braginsky, Leonid   Kokotov, Yuri   Sheinman, Roman   Assignee: TURBULENT TECHNOLOGIES LTD.   IPC: B01D11/04 Abstract: A system and method are disclosed for mixing a suspension. The suspension may optionally have a low liquid viscosity. The suspension may
14
CL2015001348A1
Un método y dispositivo para mezclar por extracción solventes
Title (English): Solvent mixing method and method
Publication/Patent Number: CL2015001348A1 Publication Date: 2015-10-23 Application Number: 2015001348 Filing Date: 2015-05-19 Inventor: Braginsky, Leonid   Sheinman, Roman   Kokotov, Yuri   Assignee: TURBULENT TECHNOLOGIES LTD.   IPC: B01F7/16
15
WO2014080408A3
A MIXING METHOD AND DEVICE FOR SOLVENT EXTRACTION
Publication/Patent Number: WO2014080408A3 Publication Date: 2014-07-24 Application Number: 2013050970 Filing Date: 2013-11-25 Inventor: Kokotov, Yuri   Braginsky, Leonid   Sheinman, Roman   Assignee: TURBULENT TECHNOLOGIES LTD.   IPC: B01D11/04 Abstract: A system and method are disclosed for mixing a suspension. The suspension may optionally have a low liquid viscosity. The suspension may
16
WO2014080408A2
A MIXING METHOD AND DEVICE FOR SOLVENT EXTRACTION
Publication/Patent Number: WO2014080408A2 Publication Date: 2014-05-30 Application Number: 2013050970 Filing Date: 2013-11-25 Inventor: Kokotov, Yuri   Braginsky, Leonid   Sheinman, Roman   Assignee: TURBULENT TECHNOLOGIES LTD.   IPC: B01D11/04 Abstract: A system and method are disclosed for mixing a suspension. The suspension may optionally have a low liquid viscosity. The suspension may
17
WO2014136107A1
A CORDED LATTICE BASED FLOATING PHOTOVOLTAIC SOLAR FIELD WITH INDEPENDENTLY FLOATING SOLAR MODULES
Publication/Patent Number: WO2014136107A1 Publication Date: 2014-09-12 Application Number: 2014050215 Filing Date: 2014-03-05 Inventor: Kokotov, Yuri   Fisher, Yossi   Caine, Shlomo   Assignee: SOLARIS SYNERGY (ISRAEL) LTD.   IPC: F24J2/52 Abstract: Provided herein is a floating photovoltaic solar device designed to reduce the effect of wind forces without the use of external control or power. The device includes a floating anchored frame with a means for connecting an internal corded lattice; a corded lattice suspended within the floating frame and forming a set of polygonal cells in which independently floating solar photovoltaic modules are positioned. Access for scheduled and unscheduled maintenance may be provided by a floating service gantry. The system is modular and several devices may be connected in a honeycomb-like structure.
18
US2012305051A1
FLOATING SOLAR POWER PLANT
Publication/Patent Number: US2012305051A1 Publication Date: 2012-12-06 Application Number: 13/578,669 Filing Date: 2011-02-11 Inventor: Kokotov, Yuri   Fisher, Yossi   Reyz, Michael A.   Assignee: Kokotov, Yuri   Fisher, Yossi   Reyz, Michael A.   IPC: H01L31/0203 Abstract: A floating solar power plant includes a frame floating at the surface of a water body, where the frame includes at least one cell, which is secured by at least one flexible tie to at least one floating support, which is secured to a shore of the water body by at least one suspension, with the length of each suspension selected so that the floating supports remain at the surface of the water body under all conditions of seasonal variation of water level in the water body.
19
US8283555B2
Photovoltaic solar power generation system with sealed evaporative cooling
Publication/Patent Number: US8283555B2 Publication Date: 2012-10-09 Application Number: 13/056,197 Filing Date: 2009-06-23 Inventor: Kokotov, Yuri   Reyz, Michael A.   Fisher, Joseph   Assignee: Solaris Synergy Ltd.   IPC: H01L31/024 Abstract: A solar power generation system includes a plurality of individual modules, each formed from a photovoltaic cell, a solar concentrator, a sealed evaporative cooling system and a heat sink. The solar concentrator focuses sunlight onto a front side the cell to generate electricity. The cooling system circulates a coolant in a liquid state to an evaporative cooling chamber having a wall defined at least partially by a back side of the cell to remove heat from the cell by direct contact between the coolant and the cell, and emits coolant in a vapor state to a condenser where the vapor coolant is condensed to a liquid state. The heat sink may be any suitable body of water, such that the condenser may be at least partially submerged therein. The modules are combined to form a platform that is rotated on the body of water by a drive device to provide tracking of the sun.
20
CL2011001696A1
Metodo que induce la coalescencia de gotas, donde se mezcla un primer y un segundo liquido en un aparato de coalescencia, y se controlan parametros fisicos de la mezcla, menteniendo un valor de disipacion de energia mayor a un valor definido; aparato de coalescencia; y sistema de coalescencia.
Publication/Patent Number: CL2011001696A1 Publication Date: 2012-02-03 Application Number: 2011001696 Filing Date: 2011-07-12 Inventor: Kokotov, Yuri   Braginski, Leonid   Shteinman, David   Slonim, Shalon Edwin   Assignee: TURBULENT TECHNOLOGIES LTD.   IPC: B01D11/00 Abstract: UN METODO QUE INDUCE LA COALESCENCIA DE GOTAS DE TAMAÑO D, ENTRE  UN DIAMETRO DE COALESCENCIA DE GOTAS MINIMO D* Y UN DIAMETRO MINIMO SEPARABLE DMIND*DMIN, LAS GOTAS INCLUYENDO AL MENOS UN PRIMER LIQUIDO, DICHAS GOTAS DISPERSAS EN UNA MEZCLA INMISCIBLE INCLUYENDO AL MENOS UN SEGUNDO LIQUIDO, QUE COMPRENDE MEZCLAR EL PRIMER LIQUIDO Y EL SEGUNDO LIQUIDO EN UN APARATO DE COALESCENCIA QUE TIENE UN VALOR DE DISIPACION DE ENERGIA TURBULENTA  EMAX EN UNA ZONA DE MAYOR INTENSIDAD DE TURBULENCIA DENTRO DEL APARATO DE COALESCENCIA, CONTROLAR UNO O MAS PARAMETROS FISICOS EN DONDE DICHO CONTROL INCLUYE MANTENER UN VALOR DE DISIPACION DE ENERGIA EMAX, MAYOR A UN VALOR DEFINIDO POR LA EXPRESION DONDE PE ES LA DENSIDAD DE LA FASE CONTINUA DE DICHA MEZCLA Y P ES LA PRESION RESTRICTIVA EN LA INTERFASE DE DICHAS GOTAS; UN APARATO Y UN SISTEMA DE COALESCENCIA QUE COMPRENDE AL MENOS UN RECIPIENTE, AL MENOS UN AGITADOR COLOCADO DENTRO DE DICHO RECIPIENTE, EN QUE DICHO AGITADOR COMPRENDE MULTIPLES CUCHILLAS; Y EN DONDE LA CURVATURA SUPERFICIAL DE CADA UNA DE DICHAS CUCHILLAS ES MENOR QUE 4 DIVIDIDO POR EL ANCHO DE CADA UNA DE DICHAS CUCHILLAS.        
Total 3 pages