Class / Patent application number | Description | Number of patent applications / Date published |
210712000 | Including recycling | 33 |
20080203032 | METHOD FOR REMOVING MANGANESE FROM NICKEL LATERITE WASTE LIQUORS - A method and system of removing or decreasing waste liquor manganese concentration to less than about 1 mg/L total manganese without the precipitation of significant amounts of magnesium. The method and system include steps for treating the waste liquor using three separate circuits in which in the first circuit, manganese is reduced, for example, from about 2 g/L to <500 mg/L using pH adjustment with a suitable neutralizing agent; and in the second circuit, the final target manganese level is achieved by oxidative precipitation using a suitable oxidizing agent. Part of the precipitated manganese product, e.g., MnO | 08-28-2008 |
20080251464 | Process for Separating Solutes and Water from Aqueous Solutions with Gas Recycling - Water can be separated from solutes in aqueous solutions by a process of forming water clathrates of gases under high pressure and low temperature conditions. The present invention outlines a series of processes where a low pressure stream of clathrate forming gas is entrained in a low pressure stream of water and carried to a region of high pressure where clathrates are formed. The clathrate crystals are then collected and separated from the solutes. The clathrate crystals are then taken to conditions that allow the clathrate to decompose to water and gas. The gas is maintained at elevated pressure and recycled to be used again as a feedstock in the process of the present invention. | 10-16-2008 |
20080283471 | 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. | 11-20-2008 |
20090001026 | Paint reclamation clarifier system and process for use - A paint reclamation clarifier system in communication with a sump tank in a paint booth containing a carrier fluid for capturing paint droplets and a conduit for transporting the carrier fluid mixed with paint droplets to the reclamation clarifier system is presented. The clarifier system includes an influent port, a detackification agent inlet, a sludge tank in a lower portion of the clarifier for collecting the dispersed carrier liquid, where the paint droplets bond with the agent and settle to the bottom of the sludge tank, a sludge outlet, and, at least one effluent port located on or near an upper portion of a sidewall of the clarifier system permitting unsettled material to exit from the clarifier. | 01-01-2009 |
20090184056 | Method of removing dissolved iron in aqueous systems - Oilfield completion, drilling, produced, flowback, and workover fluids containing iron are treated to remove the iron by passing them through a cavitation device together with an oxidizing agent and with the addition of lime. The cavitation device intimately mixes the oxidizing agent with the fluid while increasing the temperature of the fluid, thus promoting the oxidation reaction. Lime contributes to an increase in pH while promoting the formation of floc. Ferric hydrate and other solids or colloidal iron are removed in a filter capable of removing particles as small as 0.5 micron. The system may be enhanced by the addition of a bed of activated carbon capable of catalyzing the oxidation reaction. | 07-23-2009 |
20100126938 | PROCESS AND APPARATUS FOR SEPARATING AND RECOVERING WASTE ALKALI FROM CYCLOHEXANE OXIDATION SOLUTION - The present invention relates to a process and an apparatus for separating and recovering the waste alkali from a cyclohexane oxidation solution, and provides a process and an apparatus for separating and recovering the waste alkali from a cyclohexane oxidation solution. According to the invention, a gradient combination of the gravity separation technique, the vortex separation technique and the coalescence separation technique is used to carry out fine separation of the waste alkali liquor from the cyclohexane oxidation solution. The purified cyclohexane oxidation solution is fed into a down-stream apparatus. Most of the waste alkali liquor thus separated is recycled, while the remaining is expelled. The expelled waste alkali liquor is incinerated in an incinerator, followed by recovering the molten species using a pneumatic pulverization process. According to the invention, the content of Na | 05-27-2010 |
20100300979 | DEWATERING OF SILICATE WELLBORE FLUIDS - A method of treating silicate-based wellbore fluids that includes flocculating at least a portion of contaminants contained in a silicate-based wellbore fluid out of the fluid phase; and separating the flocculated contaminants from the fluid phase. Methods of recycling silicate-based fluids, methods of disposing used silicate-based fluid, and methods of disposing of wellbore fluid waste are also disclosed. | 12-02-2010 |
20110108490 | EFFICIENT FILTRATION PROCESS OF WATER IN A TANK FOR RECREATIONAL AND ORNAMENTAL USES, WHERE THE FILTRATION IS PERFORMED OVER A SMALL VOLUME OF WATER AND NOT OVER THE TOTALITY OF THE WATER FROM THE TANK - An efficient filtration process of water from a tank is performed over a small volume of water and not on the totality of the water from the tank. The process includes emitting ultrasonic waves in the tank; and adding a flocculant agent to the water. The tank bottom is covered with a suctioning device which suctions a water flow with flocculated particles, discharging to a collecting effluent line and the effluent flow of the suctioning device is filtered from the collecting effluent line. Filtered flow is returned to the tank. A suctioning device is used in the efficient filtration process. | 05-12-2011 |
20110127223 | PROCESS FOR TREATING POND WATER - A process for the treatment of phosphoric acid plant pond water where an increased recovery of phosphorus values from the input pond water is achieved through the dilution of the initial pond water with clarified water from the product generation stage and/or the final stage clarified water. The recycle of the product generation stage and/or final stage waters to dilute the feed pond water mitigates or eliminates the problems of silica gel formation and precipitation that occur when undiluted pond waters are processed. In addition, the dilution reduces phosphate losses in the first liming or neutralization stage rejected solids thereby increasing the yield of Di-Calcium Phosphate or ammonium magnesium phosphate or potassium magnesium phosphates. | 06-02-2011 |
20130153509 | WASTEWATER TREATMENT COMPRISING ELECTRODISSOLUTION, FLOCCULATION AND OXIDATION - The present invention claims a process to reduce COD, TOC, and total solids from a contaminated liquid medium, which comprises of the following stages: feed an electrolytic cell provided with electrodes with the contaminated liquid medium; apply a constant direct current through said electrodes; flocculate the solids present in said contaminated liquid medium by adding coadjuvant agents, remove sludge and supernatant obtained; and oxidize the supernatant through oxidizing agents. | 06-20-2013 |
20130193077 | Neutralization and Precipitation of Silica from High pH Brines - We provide a process for the neutralization and precipitation of high pH brines that eliminates the formation of “gelatinous silica” during neutralization. The high pH brine is neutralized in a two-step neutralization process. In the first step the salt concentration of a high pH brine is built up to a minimum level of 8-12%, and then its pH is reduced to 9-9.5. The partially neutralized brine is allowed a reaction period with mild agitation. Subsequently the pH is further reduced, typically to 8-9. A coagulant and/or a polymer can also be used to enhance the settling or filtration rate of the neutralized stream. | 08-01-2013 |
20130334144 | REACTOR FOR PRECIPITATING SOLUTES FROM WASTEWATER AND ASSOCIATED METHODS - Apparatus and methods for removing solutes from wastewater are disclosed. An embodiment provides a reactor tank having a manifold located at or near an interface between a lower (upstream) section having a first cross-section and a higher (downstream) section having a second cross-section smaller than the first cross section. An inlet for wastewater to enter the reactor tank is located in or below the first cross-section. A recycling path is provided for removing wastewater from the manifold and recycling at least part of the removed wastewater into the reactor tank. An outlet for water to exit the reactor tank is located downstream from the manifold. | 12-19-2013 |
20140014589 | METHOD FOR CLEANING DRILLING FLUID IN ROCK SAMPLING DRILLING AND A CLEANING UNIT - To recover drilling fluid used in sample drilling at a drilling machine, when the drilling fluid exits the drill hole, and to transport it to a separate cleaning unit wherein solid matter is separated from the drilling fluid. The cleaned drilling fluid is returned to the drilling machine and reused in sample drilling. The cleaning unit has an inlet connection and two or more precipitation basins, where the solid matter accumulates on the bottom of the basin. In the bottom part of at least one precipitation basin there is a valve arrangement for removing drilling fluid sludge containing solid matter from the precipitation basin, which drilling fluid sludge is filtered with a filter arrangement. In the top part of the precipitation basin there is a transfer connection between precipitation basins or an outlet connection for taking cleaned drilling fluid out from the cleaning unit back to the drilling process. | 01-16-2014 |
20140251921 | COMPOSITION AND PROCESSFOR REMOVING IMPURITIES FROM A CIRCULATING WATER SYSTEM - The invention provides methods and compositions for a composition and/or a method for treating impurities in a circulating water system. The circulating water system impurities may be oversprayed paint in paint spray booth applications. The composition includes an aqueous solution of a cationized starch, a polybasic aluminum salt such as aluminum. chlorohydrate or polyaluminum chloride and a solution of a medium to high MW aqueous flocculant. The composition is particularly useful when added to recirculating scrubber water in paint spray booths for effectively treating both water based and solvent based paints. | 09-11-2014 |
20140319067 | Octamethylenephosphonic acid terminated polyamidoamine dendrimer and its use as antiscalant - A preparation method of octamethylenephosphonic acid terminated, PAMAM dendrimer and application thereof is provided, the dendrimer is prepared by modifying amino groups of 0 generation PAMAM dendrimer with methylene phosphonic acid, a constitutional formula thereof is: (CH | 10-30-2014 |
20140339173 | MINING APPARATUS WITH WATER RECLAMATION SYSTEM - A mining apparatus and method of its use are disclosed. The apparatus includes a heavy metals separating subsystem and a water recycling subsystem. The heavy metals separating subsystem includes one or more classifying screens positioned to receive raw mining material classify materials to a pre-determined size, a slurry tank receiving water and the classified materials, forming a slurry, and a heavy metals concentrating assembly configured to receive the slurry and separate heavy metals from the slurry. The water recycling subsystem is positioned to receive the tailings and separate the tailings into recyclable water and solid waste. The water recycling system is configured to route the recycled water into the heavy metals separating subsystem for reuse. | 11-20-2014 |
20140346118 | Apparatus and Method for Separation of Hydrocarbons from Hydrocarbon-Containing Produced Water - The present invention relates to an apparatus for separation of hydrocarbons from hydrocarbon-containing produced water, comprising; a separator tank, at least one inlet tube ( | 11-27-2014 |
20140374361 | TREATMENT OF AQUEOUS SOLUTIONS - The invention is directed to a process for the recovery or removal of one or more crystallizable compounds from an aqueous solution containing, apart from the said crystallizable compounds, one or more organic or inorganic scale- forming or scale-inducing materials having a lower solubility in water than the said crystallizable compounds, said process comprising subjecting the said solution to at least one eutectic freeze crystallization step with recovery of ice and said one or more crystallizable compounds in crystalline form, recycling at least part of the mother liquor formed in the said eutectic crystallization step and subjecting the said recycle to a treatment with seed crystals for said scale forming or scale inducing compounds, removing at least part of the solid material obtained in said treatment step and recycle of the aqueous liquid thus obtained to the eutectic freeze crystallization step or to the feed thereto. | 12-25-2014 |
20160101999 | METHOD OF TREATING SUSPENDED SOLIDS AND HEAVY METAL IONS IN SEWAGE - A method of treating suspended solids and heavy metal ions in sewage includes (step 1) adding an iron sulfate reagent to a portion of sewage to be treated such that suspended solids therein undergo preliminary precipitation, and then separating the portion of sewage into primarily treated sewage with low turbidity and low density sludge (LDS); (step 2) filling a tank with the LDS, wherein the tank comprises a first inlet and a first outlet above the first inlet; and (step 3) conveying the other portion of sewage to be treated or the preliminarily treated sewage to the tank through the first inlet such that the sewage percolates though the LDS in the tank to fluidize the LDS and bind the suspended solid to the LDS, and in consequence, after percolating through the sludge, the treated sewage exits the tank through the outlet effluent. | 04-14-2016 |
20160176741 | METHODS AND SYSTEMS FOR TREATING WASTEWATER FROM INDUCED HYDRAULIC FRACTURING | 06-23-2016 |
20220135455 | Removing Heavy Metals in a Ballasted Process - A system for treating metal-contaminated wastewater includes a primary treatment sub-system, a secondary treatment sub-system, and a tertiary treatment sub-system. The tertiary treatment sub-system includes a reactor tank, a source of ballast material, a source of coagulant, a solids-liquid separator, and a controller configured to recycle ballasted solids from the solids-liquid separator to the reactor tank an amount sufficient to generate metal hydroxide floc in the reactor tank to reduce a concentration of dissolved metal in the reactor tank. | 05-05-2022 |
210713000 | Of separated solids | 12 |
20080237138 | METHODS AND ARRANGEMENTS TO REDUCE HARDNESS OF WATER IN A HOT WATER SYSTEM - Hot water pipes, in areas with hard water, tend to fill with scale until they no longer pass enough water. De-scaling water pipes with acid is dangerous, expensive and damages the pipes. Ion exchange and reverse osmosis water softeners eliminate scale buildup in pipes, but are expensive. Embodiments of this invention provide a means of keeping an amount of the scale precipitate, created when water is heated, inside a housing by passing the hot water through a removal medium where the scale sticks to the surface. The removal medium can be placed inside the water heater or in a separate housing connected to the water heater; both configurations remove the precipitate from hot water; both save hot water pipes from scale accumulation. | 10-02-2008 |
20090045139 | TREATMENT SYSTEM AND METHOD FOR LIQUID CONCRETE WASHOUT WASTE - Solid and liquid concrete waste is collected from a construction site and safely off-loaded at a treatment site. Solid waste is separated and sent to a crusher to be made into road bed aggregate. Liquid waste is put in a first tank to settle the solids, then moved to a second tank to settle remaining fine solids, and moved to a third tank coupled to a circulation pump with CO | 02-19-2009 |
20100072142 | METHOD AND SYSTEM FOR SEEDING WITH MATURE FLOC TO ACCELERATE AGGREGATION IN A WATER TREATMENT PROCESS - A system and method that uses mature floc as seed particles to promote aggregation in a water treatment process is provided. The seed particles do not need to be recovered as they separate out with the waste steam after a spiral separation. One implementation is to prepare the mature floc off-line and inject periodically into the buffer tank, as needed. Another implementation is to tap into the more mature floc downstream and feedback, as needed, to the buffer tank. | 03-25-2010 |
20100102006 | BALLAST FLOCCULATION AND SEDIMENTATION WATER TREATMENT SYSTEM WITH SIMPLIFIED SLUDGE RECIRCULATION, AND PROCESS THEREFOR - A process for water treatment, including a combination of methods from the group comprising coagulation, sedimentation, flocculation and ballast flocculation, which is further improved by the addition of a simplified sludge recirculation system. The recirculation system corresponding to this process allows higher sludge density as well as less significant water volume losses by making the sludge accumulating at the bottom of the sedimentation zone go through a hydro cyclone a certain number of times in repeated cycles thus augmenting the solid particles density of the extracted sludge. The system may also be controlled by a suspended solid analyser, a flow meter and/or a timer. The present invention also includes a method of producing specific fluid flow control behaviour with this simplified sludge recirculation system, which furthermore improves the efficiency of the process. | 04-29-2010 |
20100258506 | METHODS AND APPARATUSES FOR DECREASING THE CO2 CONCENTRATION OF A FLUID - This invention is directed to decreasing the CO2 concentration. The invention makes use of fluids and apparatuses for diminishing CO2 concentrations of fluids. | 10-14-2010 |
20120006754 | METHOD OF RECOVERING POLYHYDROXYALKANOATES (PHAS) FROM MUNICIPAL WASTE SLUDGE - A method of recovering polyhydroxyalkanoates (PHAs) from municipal waste sludge includes: (a) measuring a solid content in the municipal waste sludge in terms of a volatile suspended solid in the municipal waste sludge; (b) removing supernatant from the municipal waste sludge; (c) freezing the municipal waste sludge; (d) conducting a pretreatment of the municipal waste sludge that has been frozen; (e) adding a surfactant into the pretreated sludge to obtain a slurry; (f) adding a controlled amount of sodium hypochlorite solution to the municipal waste sludge obtained in step (e), a ratio of a volume of the sodium hypochlorite solution to the solid content of the municipal waste sludge ranging from 0.67 mg/ml to 1.25 mg/ml and being defined as a liquid-solid ratio; and (g) separating PHAs from non-PHAs substances in the municipal waste sludge obtained in the step (f). | 01-12-2012 |
20130248455 | Method for Removing Calcium, Barium, Magnesium and Strontium From Frac Flowback - A method of removing barium, calcium, strontium, and magnesium from frac flowback. A sulfate reagent and carbonate reagent are mixed with the frac flowback, causing barium, calcium, strontium, and magnesium to precipitate. The precipitants are crystallized and the resulting frac flowback and crystals are separated into relatively heavy solids and a stream of relatively light solids. The stream of relatively light solids is subjected to a further separation process that produces sludge that is recycled to aid in the crystallization process and a treated effluent which is recycled to the fracking operation or collected and used in another fracking operation. | 09-26-2013 |
20130313201 | High Rate Chemical Softening Process - A ballasted flocculation system that chemically softens water and causes hardness particles to precipitate from the water and crystallize. In the course of crystallizing, the hardness particles grow and form ballasted floc that are separated from the water in the form of sludge by a clarification unit, producing a clarified effluent. The separated sludge including the hardness crystals is directed to a separator where the sludge is separated into two streams with each stream having hardness crystals contained therein. In one process design, one stream includes relatively small hardness crystals and the other stream includes relatively large hardness crystals. The stream having the relatively small hardness crystals is directed to a first reactor and mixed with the incoming water and a softening reagent. The stream having the relatively large crystals is directed to a second downstream reactor and mixed with water and a flocculant which facilitates the growth of the hardness crystals. | 11-28-2013 |
20140144843 | Process for Reducing the Sulfate Concentration in a Wastewater Stream by Employing Regenerated Gibbsite - A method for removing sulfate from a wastewater stream includes mixing gibbsite and a calcium source to precipitate Ettringite from the wastewater stream and produce an effluent with a reduced sulfate concentration. The gibbsite in the precipitated Ettringite is regenerated by mixing an acid with the Ettringite and precipitating gibbsite particles, after which the gibbsite particles are subjected to a crystallization process to increase the size of the gibbsite particles which are recycled back to the main stream. | 05-29-2014 |
20140263080 | IN-LINE TAILINGS TREATMENT PROCESS - The invention is directed towards methods and compositions for improving the processing of mineral tailings. The method involves diverting a side stream from the main line of a tailings process flow. Into this side stream an additive such as a neat polymer without dilution is added and mixed and is then returned into the main line. By doing this only a portion of the overall tailings flow needs to undergo mixing yet the additive effectively treats the tailings. Even better the process avoids the need to add water to first invert and dilute the polymer additive. As a result tailings can be processed without incurring unnecessary mixing costs and unnecessary water addition. | 09-18-2014 |
20160145126 | Ballasted Clarification System - In general, the present invention is directed to systems and methods of providing improved ballasted clarification systems for the treatment of water or wastewater. In accordance with some embodiments, a method may include introducing an influent including the water or wastewater and a coagulant; agitating or mixing the influent causing flocs to develop; introducing polymer and ballast wherein the ballast has an aspect ratio of less than 1.15; agitating or mixing the influent causing the ballast to move through the influent and penetrate the flocs; agitation or mixing the flocs to cause larger flocs to form through collision of smaller flocs among the flocs; providing the influent into a clarifying tank having a bottom and a top, wherein the ballast particles in flocs cause the flocs to settle to the bottom of the clarifier; and outputting an effluent from the top of the clarifying tank. | 05-26-2016 |
20160159668 | RECOVERING SOLID WASTE BRINE FROM PROCESSED WATER UTILIZING A FLUIDIZED BED SPRAY GRANULATOR SYSTEM - Systems and methods of recovering solid waste (solid waste brine) from produced water in an oil sands system for the production of oil and other hydrocarbons utilizing a fluidized bed spray granulator system to provide evaporative drying. | 06-09-2016 |