Class / Patent application number | Description | Number of patent applications / Date published |
210704000 | Including chemical addition (with or without bouyancy gas) | 47 |
20080308503 | Separation process - A separation process for separating two or more immiscible liquids using fiber-film technology is disclosed. This separation process is especially useful in the separation of disulfide oil formed during the oxidation of spent caustic solution that was used to remove sulfur contaminates from light hydrocarbons. | 12-18-2008 |
20090090673 | Water Remediation and Biosolids Collection System and Associated Methods - A system and method for remediating a body of water and collecting suspended and dissolved solids therefrom are provided. The system includes a water-impervious lining positionable in a depression in or adjacent a body of water. The lining and depression define a treatment vessel, which includes a treatment portion, an outlet portion for containing treated water, and an outflow weir between the treatment portion and the outlet portion. Water to be treated is transported from the water body to the treatment portion. An entrapment element is delivered and mixed into the transported water, the entrapment element for capturing suspended and dissolved solids in the transported water and effecting a separation between the captured solids and water cleansed therefrom. The captured solids can be removed from the treatment basin, and the cleansed water can move through a channel in the outflow weir into the outlet portion. | 04-09-2009 |
20100108615 | METHOD AND AN APPARATUS FOR TREATMENT OF A SUBSTANCE HAVING ORGANIC CONTENT - The present invention relates to a method for treatment of substance having a content of organic material, e.g. manure from stables (1). The substance is initially separated into a first liquid phase and a first sludge phase, and an oxidation is performed, preferably by ozone, on at least one of the phases of the substance. From the first sedimentation process or flotation process the first sludge phase is separated, and a second sedimentation or flotation process is performed on the first liquid phase, preferably by addition of a polymer, and from the second sedimentation process or flotation process a second liquid phase is passed on to a further separation process, in which separation process a further oxidation, preferably by ozone, is performed on the second liquid phase. Preferably, the ozonation is substantially saturated. An important advantage is that malodour from the substance may be significantly reduced, possibly even eliminated. | 05-06-2010 |
20100264091 | Process for Separating One or More Solids From Water Miscible Fluids and an Apparatus Therefor - This invention relates to a process for removing solid matter from process liquids that are miscible with water. A brine made from water and dissolved salt and which is more dense than the process liquid is placed underneath and in contact with the mixture of process liquid and solid matter. The particles and pieces of solid matter move from the process liquid and then through the brine. In so doing the process liquid that is carried with the solid matter is displaced by the more dense brine. | 10-21-2010 |
20100307984 | IMMEDIATE CLEANING AND RECIRCULATION OF CLEANING FLUID AND METHOD OF USING SAME - A system and process for continuously and immediately removing contaminants from wastewater and treating wastewater, where the wastewater is treated to supply fluid that can be reused in the cleaning system or discharged safely into the environment is disclosed. The system and method comprises one or more pumping means for circulating and recirculating fluids captured or collected by the system to one or more of the processes in the system, such as wash water applications or further treatment cycles. According to one embodiment, the wastewater is transported through purification sections of the device. Depending on the system used, these sections could include several of the following: pretreatment to remove debris and certain heavy solids; treatment by methods such as a conductivity solution injection system and/or electrolytic coagulation system, a polymer injection system, and a inline mixer for mixing the polymer in the wastewater stream; and an ozone treatment system. In a preferred embodiment, each of the treatment sections are contained within an enclosure cabinet that includes a controller and feed containers for conductivity fluid and polymers. | 12-09-2010 |
20100320154 | METHOD AND APPARATUS FOR SEPARATION OF MULTIPHASE FLUIDS, AND APPLICATIONS THEREOF - A method for pre-separation of multi phase fluids of liquid-liquid phase and/or liquid-gas phases and/or gas-liquid phases, is disclosed, wherein one or more of the phases is suspended in water with bubble /drop/particle sizes in the sub micron and micron area and/or fine particular organic or inorganic matter is present in one or more of the phases, and where the device is placed in or in connection to a cyclone or flotation tank. The method is characterized by the fluid phases being made to flow through a tube which forms a spiral shape, in order to bring about an initial phase separation (coalescence) in the spiral shape, and the phases being led continuously tangentially out of the spiral shape in a cyclone- or flotation chamber wherein the further separation is generated. An apparatus to accomplish the method and applications thereof are also disclosed. | 12-23-2010 |
20110192801 | Method for Treating a Liquid by Flotation Induced by Floating Particles - A method or process for removing suspended solids from water. The method entails utilizing floating particles that include a flocculant material secured or coated to the floating particles. The floating particles are directed into a lower portion of a treatment zone and as the floating particles with the attached flocculant material move upwardly through the water, suspended solids attach or agglomerate on the floating particles. Once at the surface level of the water being treated, the floating particles can be removed and a cleaning process can be implemented where the suspended solids attached or agglomerated around the floating particles can be removed and the cleaned floating particles can be recycled and used for further water treatment. | 08-11-2011 |
20120228232 | Water Remediation and Biosolids Collection System and Associated Methods - A system and method for remediating a body of water and collecting suspended and dissolved solids therefrom are provided. The system includes a water-impervious lining positionable in a depression in or adjacent a body of water. The lining and depression define a treatment vessel, which includes a treatment portion, an outlet portion for containing treated water, and an outflow weir between the treatment portion and the outlet portion. Water to be treated is transported from the water body to the treatment portion. An entrapment element is delivered and mixed into the transported water, the entrapment element for capturing suspended and dissolved solids in the transported water and effecting a separation between the captured solids and water cleansed therefrom. The captured solids can be removed from the treatment basin, and the cleansed water can move through a channel in the outflow weir into the outlet portion. | 09-13-2012 |
20120298588 | REMOVAL OF CONTAMINANTS FROM WATER SYSTEMS - A method for removing contaminants such as oil and solids from water by feeding a mixture of water containing the contaminants and carbon dioxide to a cyclone; separating water from the mixture; separating a second mixture of oil, carbon dioxide and water from the mixture and feeding the second mixture to a separator wherein oil, carbon dioxide and water are recovered from the separator. | 11-29-2012 |
20130082005 | Method to Process Effluent Brine and Interface Rag from an Oil Dehydration/Desalting System - A method for processing interface emulsion, water, and solids contained within a separator vessel that comprises the steps of continually extracting those components from the vessel and then passing them through a gas flotation cell. The cell, which is preferably a vertical induced gas flotation cell, separates the oil and water contained in the interface emulsion and discharges recovered oil from an upper portion of the cell and treated water from a bottom portion of the cell. The recovered oil and treated water may be further processed and recycled to the vessel or sent elsewhere. The treated water may also be recycled to the cell or sent to a process sewer. Fuel gas residing in an upper portion of the cell may be cooled and passed through a splitter. All the steps of the method comprise a closed system with no air emissions. | 04-04-2013 |
20130140242 | METHOD FOR REMOVING POLLUTING SUBSTANCES FROM WATER STREAMS BY OXYGEN INJECTION IN A FLOTATION BASIN - The injection of oxygen to a flotation basin in the process of removing pollutants from water streams comprising applying a flocculating or coagulating agent to a portion of the water stream, and creating a flocculation basin along the water stream. The injection of oxygen includes submitting the aggregate particles with higher dimension and density located upstream of the portion of the water stream to at least one of dissolving and injecting oxygen, directing same to dissolving plants through pressurized mixers, thus forming a water/oxygen mixture to be injected to portions of the water stream, causing the aggregate particles to float; creating a flotation basin along the portion of the water stream, the agglomerated material present upstream on the surface and by the banks of the water stream being removed by scraping the surface of the water stream. | 06-06-2013 |
20130220937 | WATER CLARIFICATION METHOD AND DEVICE - The invention relates to a method and device for clarifying water by means treatment of the colloidal structures contained in a liquid and/or a sludge supplied in a continuous flow at a flow rate of Q | 08-29-2013 |
20130270191 | NANOFLOTATION - A nanoflotation system used to separate suspended solids or large settling or floating solids from water, waste water or liquids. This is accomplished through the use of submerged membranes, in combination with a number of design components comprising froth flotation, gravity settling, pre coating of the submerged membranes, spacing, of the membranes to facilitate flotation of solids to the surface or to the bottom of the containment chamber holding the submerged membranes, and membrane structures which use large diameter hollow fibre or tubular membranes and/or large pore opening membrane materials. | 10-17-2013 |
20140110345 | Lignin Dewatering Process - A lignin plastics solids mass containing lignin solids and liquids with up to 85% liquids can be partially dewatered by heating the lignin plastics solids mass to above a critical temperature at which time the lignin plastics solids agglomerate into lower moisture granular solids with between about 45% to 55% liquids releasing excess liquid which can be easily removed from the solids. The process is particularly useful for lignin plastics solids removed from black liquor from paper mills, or for similar lignin plastics solids masses, which can contain up to 85% liquids and which need to be dried to form useful lignin solids, which can be used for example for fuel. The dewatering process can be combined with the process for separating the lignin from the black liquor to separate the dewatered lignin directly from the black liquor. | 04-24-2014 |
20140116954 | REMOVAL OF IONS FROM AQUEOUS FLUID - Methods of removing one or more oxyanions from an aqueous fluid can comprise increasing the pH of an aqueous fluid containing one or more oxyanions and contacting the aqueous fluid with aluminum metal. | 05-01-2014 |
20140190897 | ENHANCED SEPARATION OF NUISANCE MATERIALS FROM WASTEWATER - According to one implementation, a method of treating wastewater includes introducing air bubbles having a predetermined size into raw influent, allowing the air bubbles time to bind with grease particles in the influent and to rise, and collecting the grease particles bound with the air bubbles on an upper surface of the influent. | 07-10-2014 |
20150076076 | SYSTEM FOR REMOVAL OF SUSPENDED SOLIDS AND DISINFECTION OF WATER - A system for removal of suspended solids and disinfection of an aqueous medium by electrolysis is disclosed. The system comprises a plurality of electrode assemblies configured to generate hydrogen gas and halides. Each electrode assembly comprises an inner electrode made of a non-donating conductive material and an outer electrode configured to sheath the inner anode. The outer electrode comprises a conductive material and a plurality of apertures. Power is supplied to the electrode assemblies and electrolysis occurs to generate hydrogen gas and halides. The halides disinfect the aqueous medium and the hydrogen gas entrains suspended solids to the surface of the aqueous medium. The suspended solids are removed from the surface of the aqueous medium. | 03-19-2015 |
20150101988 | Water Remediation and Biosolids Collection System and Associated Methods - A system and method for remediating a body of water and collecting suspended and dissolved solids therefrom are provided. The system includes a water-impervious lining positionable in a depression in or adjacent a body of water. The lining and depression define a treatment vessel, which includes a treatment portion, an outlet portion for containing treated water, and an outflow weir between the treatment portion and the outlet portion. Water to be treated is transported from the water body to the treatment portion. An entrapment element is delivered and mixed into the transported water, the entrapment element for capturing suspended and dissolved solids in the transported water and effecting a separation between the captured solids and water cleansed therefrom. The captured solids can be removed from the treatment basin, and the cleansed water can move through a channel in the outflow weir into the outlet portion. | 04-16-2015 |
20150122740 | FLUID TREATMENT SYSTEM - The present disclosure relates, according to some embodiments, to systems and methods of fluid treatment systems. Fluid treatment systems and methods thereof may be operable to remove contaminants and optionally reduce hardness. A fluid treatment system may comprise a feed stream configured to provide a contaminated fluid, a concentrate tank configured to receive the contaminated fluid from the feed stream, a filtration unit configured to receive the contaminated fluid from the concentrate tank, and a permeate stream operable to receive a treated fluid from the filtration unit. A concentrate tank may be operable to reduce hardness of the contaminated fluid. A filtration unit may be operable to filter contaminants from the contaminated fluid. | 05-07-2015 |
20150122741 | SYSTEMS AND METHODS FOR TREATING WASTEWATER - A system for treating wastewater is disclosed that includes an array of interconnected reactor tubes. Each reactor tube comprises an outer cathode and an inner anode. The inner anode is positioned within the outer cathode. A voltage differential is applied across the inner anodes and the outer cathodes as wastewater flows between the inner anodes and outer cathodes. As the wastewater flows through the reactor tubes, the water is treated. The voltage differential can cause contaminants in the wastewater to flocculate. The flocculated contaminants can then be removed from the wastewater. The voltage differential can also generate chlorine based elements that treat the water removing ammonia and controlling microorganisms. The inner anode and the outer cathode can comprise mixed metal oxide materials or non-donating conductive materials. | 05-07-2015 |
20160376182 | METHOD AND DEVICE FOR TREATING AN ORGANIC EFFLUENT - Treating an organic effluent is disclosed. The effluent is fed in a continuous flow at a rate q via a first chamber maintained at a first pressure and/or directly through a first narrowing to a second chamber or container maintained at a second medium pressure by the injection of air into the second chamber at a rate Q in order to obtain an emulsion in the second chamber. A head loss is generated in the emulsion optionally modified by a second and/or third narrowing or a feed valve for a third chamber maintained at a third pressure in the region immediately downstream of the second or third narrowing and/or valve. A flocculant is injected into the region of the third chamber. The emulsion at atmospheric pressure then being degasified and the emulsion thus degasified being recovered in a filtration or decanting device. | 12-29-2016 |
210705000 | Chemically specified precipitant, coagulant, or flocculant | 26 |
20080302733 | COUPLING AGENT-REACTED MERCURY REMOVAL MEDIA - The use of a coupling agent containing a mercapto, disulfide, tretrasulfide and/or polysulfide end group provides a mercury removal media having increased reactivity, stability, and mercury removal ability. The mercury removal media described herein is prepared by reacting an organophilic clay containing onium ions with a mercapto, disulfide, tetrasulfide, and/or polysulfide end moiety. Alternatively, the clay can be made organophilic by onium ion reaction prior to or simultaneously with the coupling reaction of the mercapto- or sulfide-end group-containing coupling agent. | 12-11-2008 |
20080314837 | Wastewater treatment system with simultaneous separation of phosphorus and manure solids - Wastewater treatment systems and processes for removal of solids, pathogens, nitrogen, and phosphorus from municipal and agricultural wastewater include the simultaneous separation of solids and phosphorus from wastewater and industrial effluents. | 12-25-2008 |
20090301972 | MATERIALS AND PROCESS FOR ENHANCING SELECTIVE SEPARATIONS - Use of a Maillard reaction product as an adjuvant in a variety of applications including solid-liquid separations, corrosion inhibition, emulsification, dust suppression, slow release fertilization, viscosity modification and others and especially as a depressant or collector in separation processes, including the selective separation of solids and/or ionic species from aqueous media, such as in the process of froth flotation. | 12-10-2009 |
20110017676 | FLOTATION AIDS AND PROCESSES FOR USING THE SAME - This invention relates to particulate and/or liquid droplet separation processes from liquids containing the same and the use of specific chemical additives to control surface wetting, hydrophobicity and surface forces in such processes. | 01-27-2011 |
20110120955 | METHODS FOR REMOVING FATS, OIL AND GREASE AND RECOVERING TALLOW FROM WASTEWATER - A method for recovering tallow from food or animal processing wastewater includes adding a flocculant to the wastewater to agglomerate suspended fats, oil and grease particles in the wastewater, separating solid waste materials from the wastewater and processing the solid waste materials to recover tallow. The flocculant includes polyacrylamide or an acrylamide copolymer. A process for separating fats, oil and grease from food or animal processing wastewater is also provided. | 05-26-2011 |
20110147316 | DEOILING OF SAGD PRODUCE WATER - Methods of deoiling oily water such as SAGD and frac produce water. The oily water is treated with a natural coagulant selected from tannins and chitosan. A cationic and/or anionic flocculant may also be added to the treated oily water. The thus treated oily water may be subjected to conventional mechanical oil separation techniques such as hydrocyclonic separation, dissolved air flotation, entrapped air flotation, induced gas flotation, gravity filters, reverse osmosis filters, API, or Voraxial® bulk separators and the like. | 06-23-2011 |
20110272362 | Flotation and Separation of Flocculated Oils and Solids from Waste Waters - Oily and/or solids-containing water is clarified by chemical treatment to form flocculated and agglomerated solid phases and a clear water phase. In the clarification process, microbubbles of air or other gas are introduced at atmospheric pressure, via an eductor or other suitable device, together with a flocculant. During the subsequent formation of floes and their agglomeration into larger masses, microbubbles become entrained within and adhered to the solid flocculated materials. The resulting masses are very buoyant and easily separated from the water via a variety of approaches that include skimming, decanting, filtration, and screening. This process results in a solids phase that may be disposed of as waste, if desired, and a highly clarified water phase. | 11-10-2011 |
20110309028 | Density adjustment by the use of light cycle oil, (LCO), for recovery and reclamation of spilled oil following the 2010 off-shore leak in the Gulf - Our idea is a new procedure that can be used to clean up and recover oil from spills or oil leaking from damaged ships or rigs. The reclamation is accomplished by restoring the oil's light density. This is accomplished with density control by adding light cycle oil, (LCO), with a density of 0.82 g/ml, to the oil being recovered for the purpose of reprocessing in refineries. Recovery is made possible through the application of solubility rules found in organic chemistry. LCO is a mixture of many different molecular weight hydrocarbons that have many different numbers of carbons in their chains, branches, or rings. Each of these hydrocarbons dissolves a small part of the oil preparing the mixture for collection and reprocessing as refinery feedstock. Furthermore, this idea can prevent the need for landfill storage and offset the cost of recovery. | 12-22-2011 |
20120145643 | High Efficiency Water-Softening Process - A high-efficiency water softening process is disclosed. The softening-process is particularly effective for the treatment of water process streams containing a broad array of contaminants, such as Ca, Mg, Ba, Sr, iron, aluminum, manganese, copper, zinc, silica, TOC, oil, and grease. The softening-process includes steps of: (a) adding carbonate ions and hydroxide ions to said water process stream until the process stream pH is raised to between at or about 10.5 and at or about 14.0; (b) optionally adding a coagulation aid so as to facilitate the creation of separated solids comprising a substantial portion of the contaminants; (c) optionally adding a polyelectrolyte so as to facilitate the creation of separated solids comprising a substantial portion of the contaminants; and (d) phase-separating the separated solids so as to remove the contaminants and produce a highly purified water process stream. | 06-14-2012 |
20120168387 | GLYCERIDES AND FATTY ACID MIXTURES AND METHODS OF USING SAME - Green compositions and technologies are provided. In an embodiment, the present invention provides a method of separating a first material from a second material. For example, the method can comprise mixing the first material and the second material in a slurry with a beneficiation composition. The beneficiation composition can comprise one or more glyceride and fatty acid mixtures extracted from an ethanol process. Air bubbles can be provided in the slurry to form bubble-particle aggregates with the first material and the bubble-particle aggregates can be allowed to be separated from the second material. | 07-05-2012 |
20140054229 | COMPOSITIONS AND PROCESSES FOR DEOILING AQUEOUS STREAMS WITH TALC - A deoiling or demulsifying composition including talc. Also disclosed is a process for removal of hydrocarbons, oil or oil-bearing formations from an aqueous stream by adding talc to the aqueous stream. The process may also include one or more of: aerating or injecting air or gas into the aqueous stream; agitating the treated stream to form a layer comprising the hydrocarbons, oil or oil-bearing formations; and separating the layer from the aqueous stream. | 02-27-2014 |
20140110346 | FLOTATION PROCESS FOR THE REDUCTION OF PARTICLE CONTENT IN COOLING WATER - Systems and methods for removing particles from cooling water employing a flotation process to remove particulate matter from the cooling water, particularly during times of the year when particle content in the water is at its peak. | 04-24-2014 |
20140251919 | ENHANCED FOAM FRACTIONATION OF OIL PHASE FROM AQUEOUS/OIL MIXED PHASE VIA INCREASED VISCOELASTICITY - The present invention provides improved methods for purifying and/or removing oily particles, and/or contaminants suspended or dissolved in water. In particular the process relates to an additive composition that has the appropriate surfactant characteristics for effectively removing an oil phase from an oil/aqueous mixed phase via foam fractionation. According to the invention, a hydrophobically modified polymer that acts as an associative thickener is combined with surfactant in appropriate ratios to facilitate oil removal for water purification in any of a number of commercial, environmental and industrial applications. | 09-11-2014 |
20140251920 | ENHANCED FOAM REMOVAL OF TOTAL SUSPENDED SOLIDS AND MULTIPLY CHARGED CATIONS FROM AQUEOUS OR AQUEOUS/OIL MIXED PHASE VIA INCREASED VISCOELASTICITY - The present invention provides improved methods for purifying and/or removing multiply charged cations and suspended solids from water. In particular the process relates to an additive composition that has the appropriate surfactant characteristics for effectively removing multiply charged cations and suspended solids from an aqueous or oil/aqueous mixed phase via foam fractionation. According to the invention, a hydrophobically modified polymer that acts as an associative thickener is used in the presence of a source of alkalinity or anionic reactant as well as surfactant in appropriate ratios to facilitate multiply charged cation and suspended solids removal for water purification in any of a number of commercial, environmental and industrial applications. | 09-11-2014 |
20140326677 | TREATMENT OF PRODUCED WATER - A method of treating produced water containing hydrocarbons includes introducing microbubbles of a lift gas into the produced water in a separation stage to float oil to a surface of the produced water. The top layer of oil is removed from the surface of the produced water. Microbubbles of an oxidizing gas are introduced into the produced water in an aeration stage to oxidize contaminants. Microbubbles of an ultra-violet light treated oxidizing gas are introduced into the produced water in an advanced oxidation stage to oxidize remaining contaminants. | 11-06-2014 |
20150090666 | COLLECTORS FOR MINERAL FLOTATION - The invention provides methods and compositions for improving a froth flotation type separation. The method uses a microemulsion to improve the effectiveness of a collector. The improvement allows for low dosages of collector to work as well as much greater amounts of non-microemulsified collector. | 04-02-2015 |
20150129506 | DEPRESSANTS FOR USE IN SEPARATION PROCESSES - Methods for removing particulates from an aqueous suspension are provided. In at least one specific embodiment, the method can include mixing a polyamidoamine-epihalohydrin resin with an aqueous suspension comprising one or more first particulates to produce a treated mixture. An amount of the polyamidoamine-epihalohydrin resin in the treated mixture can be less than 500 g/tonne of the one or more first particulates. The method can also include recovering from the treated mixture a purified water having a reduced concentration of the one or more first particulates relative to the aqueous suspension, a purified first particulate product having a reduced concentration of water relative to the aqueous suspension, or both. | 05-14-2015 |
20150144570 | GLYCERIDES AND FATTY ACID MIXTURES AND METHODS OF USING SAME - The invention provides methods and compositions for green compositions and technologies. In an embodiment, the present invention provides a method of separating a first material from a second material. For example, the method can comprise mixing the first material and the second material in a slurry with a beneficiation composition. The beneficiation composition can comprise one or more glyceride and fatty acid mixtures extracted from a fuel ethanol process. Air bubbles can be provided in the slurry to form bubble-particle aggregates with the first material and the bubble-particle aggregates can be allowed to be separated from the second material. | 05-28-2015 |
20170233268 | APPARATUS FOR PREPARING AND DISPENSING A FLOCCULANT SOLUTION TO DEWATERING AN AQUEOUS PROCESS STREAM | 08-17-2017 |
210706000 | And significant characteristic of the bouyancy gas, other than mere addition of same | 7 |
20090020479 | Device and method for treatment of waste products including feces - A device for treatment of solids and liquid waste comprising a storage container a comminution unit at least one separation unit, and an electroflotation unit. | 01-22-2009 |
20100314324 | Clarification of Suspensions - A clarification system may comprise a channel having an inlet and an outlet, a length, bottom, and a height sufficient to contain a liquid having a depth. The clarification system may include one or more gas injectors disposed within the channel, configured to inject gas bubbles into a suspension flowing in the channel. In some embodiments, at least one gas injector injects gas bubbles having average or median size that does not exceed 100 microns in diameter. Some gas injectors inject bubbles having mean size below 50 microns. Some gas injectors inject gas via the precipitation of gas bubbles from a supersaturated liquid including a dissolved gas. Certain embodiments may be configured to form a quiet zone, typically near the top of the flowing suspension, in which turbulence may be minimized or substantially eliminated. Certain systems include a plurality of gas injectors disposed at different lengths along the channel. | 12-16-2010 |
20110198296 | SULFIDE FLOTATION AID - The invention provides a method of improving a flotation separation process. The method involves PAPEMP, a material previously thought to only be of use in controlling scale deposit on surfaces of equipment used in cyanide leaching. In the invention the PAPEMP is added to the flotation separation process for improved sulfide mineral separation. Not only does the addition of PAPEMP improve the overall recovery of sulfide complexed metals in flotation, but by doing so it also reduces the energy requirements and adds other efficiencies to other downstream ore processing and refining steps. This has the added benefit of helping to preserve the environment. | 08-18-2011 |
20120018386 | Deepwater oil recovery process - Ozone/oxygen gas is mixed with treated seawater at 30% quality foam and injected to the wellhead at the sea floor. At the seafloor, a tank mixing eductor would be used to mix high pressure oxygen bubbles with the oil contaminated seawater by shearing the oil globs into small oil droplets allowing the new surface area to immediately react with the dissolved ozone/oxygen in the seawater. The ozone/oxygen admixture creating an attraction force between the droplets and the oxygen bubbles. As the droplets and bubble rise, they form larger spherical top-hat bubbles that rise faster in the seawater. In the preferred embodiment, the eductor employs a cone shape flow to direct a significant amount of the oil plume into a predictable area that can then be skimmed mechanically for harvesting or destruction. | 01-26-2012 |
20140158631 | SEPARATION OF NEUTRALLY BUOYANT MATERIALS FROM WATER - Described herein are methods of separating phase separated, neutrally buoyant materials from liquids and apparatuses for carrying out the methods. The methods and apparatuses employ nanobubbles. In certain embodiments, the nanobubbles may be formed in solutions of hydrophobically modified water soluble polymers. The methods result in removal of 90% by weight or more of neutrally buoyant materials from liquids. The methods are useful in certain embodiments for separating neutrally buoyant oily mixtures from water produced by mining operations. | 06-12-2014 |
210707000 | Generating gas in situ | 2 |
20130068696 | Method and System for Treatment of Agricultural and Industrial Wastewaters Containing Solids and Nutrients - A method and system of treatment of agricultural and industrial wastewaters that contain high concentrations of suspended solids, nitrogen, and phosphorus compounds is disclosed. The method and system includes pre-treating the wastewater, controlling the amount of coagulants used, and controlling the mean velocity used for mixing, surface loading rate, and solids loading rate. The method and system functions as a sedimentation unit and gas flotation unit (solid/liquid separator). The pH of the effluent wastewater is stabilized within the separator by ensuring that there is sufficient alkalinity to buffer the wastewater. Sufficient gas is produced in the coagulation reactions to float and concentrate the solids, which results in as high as 99 percent reduction in suspended solids, a 96 percent reduction of the phosphorus concentration, and a 50 percent reduction of the nitrogen concentration in the effluent from the separator. | 03-21-2013 |
20130118988 | MULTISTAGE DAF-ADVANCED OXIDATION SYSTEM - A multistage dissolved air flotation and advanced oxidation (MDAF-AO) system/method with multi-functions in oil recovery, solids removal, emulsion breaking, and advanced oxidation. Influent, with oil and suspended solids, enters a first stage for oil recovery includes a gas ionizer and an air dissolving pump. A second stage includes of two coagulation/flotation compartments connected in serial to enhance solids removal efficiencies. Micro air bubbles are created by air dissolving pumps in each compartment. A third stage is for the emulsion breaking unit to further remove or recover the emulsified oils. A fourth stage includes advanced oxidation by using ultraviolet (UV) and hydrogen peroxide to oxidize and disinfect the bacteria and microorganisms. | 05-16-2013 |